http://www.sintonlab.com/new-gallery daily 0.75 2026-04-01 https://images.squarespace-cdn.com/content/v1/574c9a04f699bbded7e438c7/1663352363384-47QDBY4DJ14IFK8X8JID/Jiheon.jpg Postdocs - Jiheon Kim, PhD Jiheon Kim received his Ph.D. in Chemical and Biological Engineering from Seoul National University under the supervision of Prof. Taeghwan Hyeon. His Ph.D. research was in novel nanomaterials for energy conversion and storage applications. He joined the group in July 2022 as an A3MD postdoctoral fellow, and his current focus is on AI-accelerated catalytic materials discovery with high-throughput experimentation. https://images.squarespace-cdn.com/content/v1/574c9a04f699bbded7e438c7/1663352363384-47QDBY4DJ14IFK8X8JID/Jiheon.jpg Postdocs - Jiheon Kim, PhD Jiheon Kim received his Ph.D. in Chemical and Biological Engineering from Seoul National University under the supervision of Prof. Taeghwan Hyeon. His Ph.D. research was in novel nanomaterials for energy conversion and storage applications. He joined the group in July 2022 as an A3MD postdoctoral fellow, and his current focus is on AI-accelerated catalytic materials discovery with high-throughput experimentation. https://images.squarespace-cdn.com/content/v1/574c9a04f699bbded7e438c7/1694007260767-1R1Z24TV22QF2E4N38WD/Jieyuan-1.jpg Postdocs - Jieyuan Liu, PhD Jieyuan Liu received her Ph.D. (2023) in Materials science and Engineering at Beihang University, China. Her doctoral research centered on the application for hydrogen energy, including electrocatalysis (ORR, CO2RR, HOR etc.), proton exchange membrane fuel cell (PEMFC) and hydrogen storage. She is skilled at the synthesis and characterization of nanomaterials, PEMFC device fabrication, and DFT simulation using VASP. Jieyuan joined the Sinton Lab as a postdoctoral fellow in September 2023 and current research is focused on CO2 conversion. https://images.squarespace-cdn.com/content/v1/574c9a04f699bbded7e438c7/1694118443839-6SU7413WKETRR8O5Z6BK/profile+Zunmin.jpg Postdocs - Zunmin Guo, PhD Zunmin Guo obtain his Ph.D. (2022) in Advanced Functional Materials and Analytical Science from the University of Manchester, UK, supervised by Prof. Stuart Holmes. His Ph.D. studies mainly focused on membrane electrode assembly development in high-temperature proton exchange membrane fuel cells. After his Ph.D., Zunmin worked in Prof. Hyunjoo Lee's lab (KAIST) as a postdoctoral researcher to develop high-temperature CO2 reduction system. He joined the Sinton lab in September 2023 as a postdoctoral fellow focusing on CO2 capture and conversion. https://images.squarespace-cdn.com/content/v1/574c9a04f699bbded7e438c7/1699971975031-G3IWBHW0WPKT4YKLFZPB/Tanushree.jpg Postdocs - Tanushree Ghosh, PhD Tanushree Ghosh received her PhD degree in 2023 from the Indian Institute of Technology Indore, India from the department of Physics under the supervision of Professor Rajesh Kumar. During her PhD she worked on Electrochromic materials and devices, largely studying and researching on their multi-functional applications. She has joined the group in November 2023 and will be working with the eDAC subgroup. https://images.squarespace-cdn.com/content/v1/574c9a04f699bbded7e438c7/1762481215228-ZM0XHO2L3QQGI0ZVH2OY/Photo_Lee.jpg Postdocs - Hyeon Seok Lee, PhD Hyeon Seok Lee completed his Ph.D. at Seoul National University under the supervision of Prof. Taeghwan Hyeon, focusing on the development of efficient catalysts for electrocatalytic hydrogen production and utilization. In January 2024, he joined the A3MD group as a postdoctoral fellow. His current research focus centers on the exploration of AI-accelerated materials discovery, with a primary emphasis on discovering novel electrocatalysts for reactions, including CO2/CO reduction and oxygen evolution reaction. https://images.squarespace-cdn.com/content/v1/574c9a04f699bbded7e438c7/1713891465227-Y2DYTRXT1GQ6J8EG0VOV/Picture1.png Postdocs - Hyun Sik Moon, PhD Hyun Sik received his Ph.D. under the guidance of Prof. Kijung Yong in August 2023 at POSTECH, South Korea. His prior research focused on developing novel photocatalysts for fuel production applications and studying charge transfer dynamics. He joined the group in Mar. 2024 as a postdoctoral fellow, co-supervised by Prof. Sinton and Prof. Sargent. His current research focuses on the design of electrocatalysts and electrochemical systems for CO2 reduction. https://images.squarespace-cdn.com/content/v1/574c9a04f699bbded7e438c7/1715029256259-BKUCC7R8RTFHZRYX71K2/image-asset.jpeg Postdocs - Nasim Barati, PhD Dr. Barati earned her Ph.D. in Environmental Engineering from the University of Calgary in 2022. Her research has primarily focused on membrane treatment for selective separation. Her expertise spans from the study of flow in porous media to surface modification using nanotechnology, and designing membrane systems for water treatment. In 2023, Dr. Barati joined the SintonLab as a postdoctoral fellow. In her new role, she will be spearheading research on the electrocatalytic reduction of flue gas to produce value-added products. https://images.squarespace-cdn.com/content/v1/574c9a04f699bbded7e438c7/1464716090037-Z7RPJRN0CJY3DHNQR6YC/jason1.png Postdocs - Jason Riordon, PhD My PhD thesis at the University of Ottawa focused on the design, fabrication and characterization of microfluidic volume sensors. I demonstrated lab-on-chip devices capable of measuring individual cell volumetric growth at high resolution, and sorting cells at high purity. Since joining Prof. Sinton’s Energy and Fluids research group in 2014, I have explored microfluidic projects geared towards today’s global energy challenges. Topics include algal bioenergy, oil recovery, hydrocarbon phase change and photocatalysis. Throughout these projects, I contribute expertise in design, fluidics, microfabrication, microscopy and analysis. https://images.squarespace-cdn.com/content/v1/574c9a04f699bbded7e438c7/1740020985218-HLIT2BFRJOAR2CAEPCVS/Qian+Sun+-+Photo.jpg Postdocs - Qian Sun, PhD Qian Sun completed her Ph.D (2023) in School of Chemistry at University of New South Wales, where she also works as a postdoctoral fellow for six months. Her research mainly focuses on developing efficient single atom catalysts for CO2-to-CO and CO-to-acetate/C2+ electro-conversion. She obtained an Australia Government Research Training Program Scholarship and the Dean’s Award for Outstanding PhD Theses in 2019 and 2023, respectively. In July 2024, Qian joined the SintonLab as a postdoctoral fellow with research interests in catalyzing electroreduction of CO2/CO to multi-carbon species (C2+). https://images.squarespace-cdn.com/content/v1/574c9a04f699bbded7e438c7/1727706566369-V9P1D3QG1W3TL6HC9PPT/Qiyou+Wang+-+Photo.jpg Postdocs - Qiyou Wang, PhD Qiyou Wang completed his PhD (2024) in School of Physics at Central South University. His research focused on the active sites design and catalytic mechanism of electrocatalysis toward CO2RR, OER, HER etc. Qiyou joined the Sinton lab as a postdoctoral fellow in August 2024 and his research is mainly in CO2 reduction to C2H4 by virtue of the design of membrane electrode assembly and catalysts. https://images.squarespace-cdn.com/content/v1/574c9a04f699bbded7e438c7/1727706706211-P8C7IB1AC7NC8RSRFTVC/Jiexin+Zhu+-+Photo.jpg Postdocs - Jiexin Zhu, PhD Jiexin Zhu received his Ph.D. (2023) in Materials science and Engineering at Wuhan University of Technology in Prof. Liqiang Mai's research group. His primary research lies in the field of electrocatalysis, with specific interests in CO2/CO reduction, methanol oxidation, and oxygen evolution reactions. His work emphasizes the control of the surface coordination environment of electrocatalysts and employs in-situ characterization techniques, including infrared spectroscopy, Raman spectroscopy, and X-ray absorption spectroscopy. Jiexin joined the Sinton Lab in August 2024 as a postdoctoral fellow, co-supervised by Prof. Sinton and Prof. Sargent. His current research focuses on the design of electrocatalysts and electrochemical systems for CO2/CO reduction. https://images.squarespace-cdn.com/content/v1/574c9a04f699bbded7e438c7/1727706832399-D25N2R40K0NF165NYC37/Zhizheng+Wu+-+Photo.jpg Postdocs - Zhizheng Wu, PhD Zhizheng Wu received his Ph.D. degree under the supervision of Prof. Minrui Gao in June 2024, from the Hefei National Laboratory for Physical Sciences at the Microscale, University of Science and Technology of China. His research interest is in the field of electrocatalytic conversion of small molecules. He is skilled at the synthesis of catalysts, development of in-situ characterization technologies and optimization of reaction devices. He joined the Sinton lab as a postdoctoral fellow in September 2024. His current research focuses on CO2 conversion. https://images.squarespace-cdn.com/content/v1/574c9a04f699bbded7e438c7/1727707074124-8TNLXNGCCLFVW8EV39CR/Goutham+Rangarajan+-+Photo2.jpg Postdocs - Goutham Rangarajan, PhD Goutham Rangarajan completed his PhD (2023) in Chemical Engineering & Applied Chemistry from the University of Toronto, supervised by Prof. Ramin Farnood. His PhD research mainly focused on the development of nanoparticles for harvesting solar energy and developing catalytic processes for the selective upcycling of lignocellulosic wastes. After his PhD, Goutham was awarded the Climate Positive Energy Postdoctoral Fellowship to design photocatalytic systems for upcycling of polystyrene waste. He joined the Sinton lab in September 2024 as a postdoctoral fellow focusing on CO2 conversion. https://images.squarespace-cdn.com/content/v1/574c9a04f699bbded7e438c7/1743105203229-U81BWM2G8Z8OIGFJO6JX/YangboMa.png Postdocs - Yangbo Ma, PhD Yangbo Ma received his Ph.D. degree in Materials Chemistry from City University of Hong Kong under the guidance of Prof. Zhanxi Fan in August 2024. Then he worked as a Postdoctoral Fellow at The University of Hong Kong under the supervision of Prof. Zhengxiao Guo. He joined the group as a Postdoctoral Fellow in March 2025, co-supervised by Prof. Sargent and Prof. Sinton. His research interests focus on electrochemical CO2 reduction and tandem catalysis. https://images.squarespace-cdn.com/content/v1/574c9a04f699bbded7e438c7/1744895411895-G0XSIN5ZLUYZ5BWRRIX2/image-asset.jpeg Postdocs - Lei Wang, PhD Lei Wang received his Ph.D. in Mechanical and Mechatronics Engineering from the University of Waterloo in 2025. His research focused on the functional design of nanomaterials and in situ multi-modal spectroscopic studies to uncover reaction mechanisms, involving CO2 reduction reaction, CO reduction reaction, and oxygen evolution reaction. In April 2025, he joined the Sinton Lab as a postdoctoral fellow, where his current research centers on the functional design of membrane electrode assemblies to promote large-scale CO2 conversion. https://images.squarespace-cdn.com/content/v1/574c9a04f699bbded7e438c7/1749602813661-IQY8RVQU6PJFPT2LO1KE/photo_shayan.jpg Postdocs - Shayan Angizi, PhD Shayan completed his master’s degree in Materials Science and Engineering at Sharif University of Technology, followed by a Ph.D. in Chemistry at McMaster University, where his research focused on surface electrochemical reactions and charge transfer mechanisms of carbon-based electrodes in aqueous electrolytes. He continued at McMaster as a postdoctoral researcher in Dr. Drew Higgins’ group, working on catalyst design and device prototyping for the co-conversion of CO2 to ethanol and the anodic upgrading of organic polyols (glycerol and ethanol) into value-added chemicals. Shayan is currently an NSERC postdoctoral fellow in the Sinton Lab at the University of Toronto, co-supervised by Dr. Drew Higgins at McMaster University. His current research focuses on developing catalysts and device prototypes for high-conversion electrochemical CO2 reduction to ethanol. https://images.squarespace-cdn.com/content/v1/574c9a04f699bbded7e438c7/1751898952019-EFF2AISEEVED05EZQLCM/IMG_3804.JPG Postdocs - Behnam Nourmohammadi Khiarak, PhD Behnam Nourmohammadi Khiarak received a B.Sc. in Materials Science and Engineering from the University of Tabriz, and an M.Sc. in Materials Science and Engineering from Sharif University of Technology. He then pursued a Ph.D. in the Department of Chemical Engineering at Queen’s University under the supervision of Dr. Cao Thang Dinh. His research focused on CO2 electroreduction from gas-fed system and carbon reactive capture solutions, including reactor and catalyst design. In 2025, he joined Prof. Sinton’s Research Group as a Postdoctoral Researcher, where he is working on scaling the direct conversion of carbon capture solutions. https://images.squarespace-cdn.com/content/v1/574c9a04f699bbded7e438c7/1759172650986-4RDICILVEOAWY332A92P/Kaige+Shi.jpg Postdocs - Kaige Shi, PhD Kaige Shi obtained his B.S in Physics from the Southern University of Science and Technology and Ph.D. in Physics from the University of Central Florida under the supervision of Prof. Xiaofeng Feng. His doctoral research focused on elucidating the effects of electrolyte cations and electrode wettability on the reaction kinetics and bubble dynamics of electrocatalytic reactions. He has expertise in fundamental mechanism research of the electrochemical process at solid-gas-liquid interfaces and in the use of scanning electrochemical microscope(SECM). In September 2025, he joined the Sinton Lab at the University of Toronto, where he is co-supervised by Dr. Weilai Yu and is currently working on electrochemical CO₂ conversion. https://static1.squarespace.com/static/574c9a04f699bbded7e438c7/574c9a57f699bbded7e43bda/574c9aa92eeb81625afdce0c/1775075613131/ Postdocs https://images.squarespace-cdn.com/content/v1/574c9a04f699bbded7e438c7/1622657466006-5ZNOPBL8J4HKB4UHO23Z/Panos_Photo.jpg Postdocs - Panos Papangelakis, PhD Panos completed his B.Eng in Chemical Engineering at McMaster University in 2020. During his undergrad he completed a thesis project investigating heavy metal contamination and treatment of drinking water in Indigenous Reserves in Southern Ontario. He also worked on a joint industrial research project with the University of Queensland developing an energy model for renewable power generation in the mining industry. Panos joined the Sinton Lab in September 2020 in the Catalysis group. He is working on CO2 reduction through electrocatalysis. https://images.squarespace-cdn.com/content/v1/574c9a04f699bbded7e438c7/1622657922165-PQRPZB0SZ0VZYMOMX4VL/Shijie+Liu.jpeg Postdocs - Shijie Liu, PhD Shijie’s research focuses on electrochemical systems for stable and efficient CO2 conversion. He performs COMSOL simulations to better understand chemical behavior and conducts membrane-electrode assembly (MEA) CO2 electrolyzer experiments to quantify the stability and production of C1 and C2 products. https://images.squarespace-cdn.com/content/v1/574c9a04f699bbded7e438c7/1727469790716-DYQW3Z2T2ISXQ6AZS62O/Sepehr.png Postdocs - Sepehr Saber, PhD Sepehr completed his Ph.D. in 2024 at the SintonLab, University of Toronto. His research explored multiphase nanoparticle-stabilized fluids, investigating their potential for energy storage and improved mass transfer in geothermal systems and carbon capture applications. Starting in May 2024, Sepehr continues his work with the Sinton group, where he is involved in designing mechanical process systems for electrochemical-assisted direct air capture systems. http://www.sintonlab.com/group-photos daily 0.75 2025-11-12 https://images.squarespace-cdn.com/content/v1/574c9a04f699bbded7e438c7/1762959797130-H5RYQOZ8T9M6GO9SE8A7/Group+photo+-+Nov+7+2025.jpg Group Photos https://images.squarespace-cdn.com/content/v1/574c9a04f699bbded7e438c7/1762959797130-H5RYQOZ8T9M6GO9SE8A7/Group+photo+-+Nov+7+2025.jpg Group Photos https://images.squarespace-cdn.com/content/v1/574c9a04f699bbded7e438c7/7425c19a-345c-4a3c-8bcf-2860ae99e25d/Sinton+Group+-+Nov+2023.jpg Group Photos https://images.squarespace-cdn.com/content/v1/574c9a04f699bbded7e438c7/1671472990111-CDAC91DKYHMCG3NO3X0M/image-asset.jpeg Group Photos https://images.squarespace-cdn.com/content/v1/574c9a04f699bbded7e438c7/1671552383625-5I8PI7DKLQ4VHB61BJ7I/image-asset.jpeg Group Photos https://images.squarespace-cdn.com/content/v1/574c9a04f699bbded7e438c7/1636474072105-UOJ33BPQICPVWZUF2G4D/image-asset.jpeg Group Photos https://images.squarespace-cdn.com/content/v1/574c9a04f699bbded7e438c7/1602624186401-CEKHEUVXY7DUIEY0AOQD/5k_run.jpg Group Photos https://images.squarespace-cdn.com/content/v1/574c9a04f699bbded7e438c7/1567613020752-37Q1KPSCNTHJI07AWUHD/Yihe+-+Bubble+tea.jpg Group Photos https://images.squarespace-cdn.com/content/v1/574c9a04f699bbded7e438c7/1579644658799-02OOZL0QFM2UIIDH2JSS/SintonLab+-+Holiday+Party+2019.jpg Group Photos https://images.squarespace-cdn.com/content/v1/574c9a04f699bbded7e438c7/1545403698396-40746VLKPHGOEH4902GB/Sinton+Lab+2018.jpg Group Photos https://images.squarespace-cdn.com/content/v1/574c9a04f699bbded7e438c7/1512796402357-1TSNYJ3LSSAR8J1D0DOB/new-renovation.png Group Photos The Sinton Lab is very grateful to MIE and the Government of Canada Strategic Investment Fund for investing in our labs in 2017. Thank you for your support! https://images.squarespace-cdn.com/content/v1/574c9a04f699bbded7e438c7/1466525377420-AADRPUQQF74A92QZ5JPS/group+photo.jpg Group Photos https://images.squarespace-cdn.com/content/v1/574c9a04f699bbded7e438c7/1464803929210-O9ODKRZ66T4ZD9COQL73/2014-2.png Group Photos https://images.squarespace-cdn.com/content/v1/574c9a04f699bbded7e438c7/1464803928918-0UGHZJ2QGMLCJG51JRQ1/2014.png Group Photos https://images.squarespace-cdn.com/content/v1/574c9a04f699bbded7e438c7/1464803930277-1YMFCDVAPGI3HFZYL67A/20131.png Group Photos https://images.squarespace-cdn.com/content/v1/574c9a04f699bbded7e438c7/1464803928479-85X0S0CITHFAOM9D2JWW/2013-2.png Group Photos https://images.squarespace-cdn.com/content/v1/574c9a04f699bbded7e438c7/1464803929735-VTPEOYITI8UAG8X5IXOC/20121.png Group Photos https://images.squarespace-cdn.com/content/v1/574c9a04f699bbded7e438c7/1464803929577-9CKKPMIVDU2WXVA9A7I5/20112.png Group Photos https://images.squarespace-cdn.com/content/v1/574c9a04f699bbded7e438c7/1464803928316-WVV6PD7BZTLSGZDH50CE/2010.png Group Photos https://images.squarespace-cdn.com/content/v1/574c9a04f699bbded7e438c7/1464803927822-TRHNOUDFNXRC9FWAUU4Y/2009.png Group Photos https://images.squarespace-cdn.com/content/v1/574c9a04f699bbded7e438c7/1464803927690-K39WVGM10APQH2B87M3I/2008.png Group Photos https://images.squarespace-cdn.com/content/v1/574c9a04f699bbded7e438c7/1464803927100-E6M3Z3E9DFHXV5ZOS9TG/2007.png Group Photos https://images.squarespace-cdn.com/content/v1/574c9a04f699bbded7e438c7/1464803926577-5AHN49FWQ1S2RGHJC965/2006+%281%29.png Group Photos https://images.squarespace-cdn.com/content/v1/574c9a04f699bbded7e438c7/1464803926221-NHUAIU8LUAE8H31IIQW2/2005.png Group Photos https://images.squarespace-cdn.com/content/v1/574c9a04f699bbded7e438c7/1464803925985-BU151I2C6F9KWR14FWQO/2004.png Group Photos http://www.sintonlab.com/papers-2016 daily 0.75 2024-11-11 https://images.squarespace-cdn.com/content/v1/574c9a04f699bbded7e438c7/1485888860722-U9IHEKSUWDLKZ90ZX2H1/toc-BN.png 2016 - 131. Light dilution via wavelength management for efficient high-density photobioreactors Ooms, M. D., Graham, P. J., Nguyen, B., Sargent, E. H., Sinton, D., Biotechnology and Bioengineering, 2016, (Accepted). https://images.squarespace-cdn.com/content/v1/574c9a04f699bbded7e438c7/1478882735753-CW84PXHFF4KY8KTRPWQN/TOC-Langmuir2016.png 2016 - 127. Microfluidic Manufacturing of Polymeric Nanoparticles: Comparing Flow Control of Multiscale Structure in Single-Phase Staggered Herringbone and Two-Phase Reactors Xu, Z., Lu, C., Riordon, J., Sinton, D., Moffitt, M., Langmuir 32, 48, 12781-12789 (2016). https://images.squarespace-cdn.com/content/v1/574c9a04f699bbded7e438c7/1485888860722-U9IHEKSUWDLKZ90ZX2H1/toc-BN.png 2016 - 131. Light dilution via wavelength management for efficient high-density photobioreactors Ooms, M. D., Graham, P. J., Nguyen, B., Sargent, E. H., Sinton, D., Biotechnology and Bioengineering, 2016, (Accepted). https://images.squarespace-cdn.com/content/v1/574c9a04f699bbded7e438c7/1477059863522-ROFHTXNN6F1XAI03E0PS/ToC-NanoLetters.png 2016 - 126. High-Density Nanosharp Microstructures Enable Efficient CO2 Electroreduction Safaei, T. S., Mepham, A., Zheng, X., Pang, Y., Dinh, C., Liu, M., Sinton, D., Kelley, S. O., Sargent, E. H., Nano Letters 16, 11, 7224–7228 (2016). https://images.squarespace-cdn.com/content/v1/574c9a04f699bbded7e438c7/1474038419699-IWJMVX2XOONXOWKVEZ6W/tocFigure-01.jpg 2016 - 125. Photon management for augmented photosynthesis Ooms, M. D., Dinh, C. T., Sargent, E. H., Sinton, D., Nature Communications 7, 1, 12699 (2016). https://images.squarespace-cdn.com/content/v1/574c9a04f699bbded7e438c7/1470844699601-WXAXH0BXSINYATMCZFSP/Fig3e.jpg 2016 - 124. Enhanced electrocatalytic CO2 reduction via field-induced reagent concentration Liu, M., Pang, Y., Zhang, B., De Luna, P., Voznyy, O., Xu, J., Zheng, X., Thang Dinh, C., Fan, F., Cao, C., García de Arquer, F. P., Saberi Safaei, T., Mepham, A., Klinkova, A., Kumacheva, E., Filleter, T., Sinton, D., Kelley, S. O., Sargent, E. H., Nature 537, 7620, 382–386 (2016). https://images.squarespace-cdn.com/content/v1/574c9a04f699bbded7e438c7/1469555177366-GL62VDB795V5ZHVNAUN8/ToC_Sinton.jpg 2016 - 123. Paper-based sperm DNA integrity analysis Nosrati, R., Gong, M. M., San Gabriel, M. C., Zini, A., Sinton, D., Analytical Methods 8, 6260-6264 (2016). https://images.squarespace-cdn.com/content/v1/574c9a04f699bbded7e438c7/1469628901424-77GPFJMSOU388T4LYMJO/SAGD-TOC.png 2016 - 122. A combined method for pore-scale optical and thermal characterization of SAGD Syed, A. H., Mosavat, N., Riordon, J., Lele, P., Qi, Z., Kim, M., Fadaei, H., Guerrero, A., Sinton, D., Journal of Petroleum Science and Engineering 146, 866-873 (2016). https://images.squarespace-cdn.com/content/v1/574c9a04f699bbded7e438c7/1469555238011-YFWT52YPH89U2QL0O43O/TOC+figure_BN.png 2016 - 121. Dual gradients of light intensity and nutrient concentration for full-factorial mapping of photosynthetic productivity Nguyen, B., Graham, P. J., Sinton, D., Lab on a Chip 16, 15, 2785-2790 (2016). https://images.squarespace-cdn.com/content/v1/574c9a04f699bbded7e438c7/1467127066769-SRQ2JQKJIX3HSF995UUB/TOC-Bao.png 2016 - 120. Direct Measurement of the Fluid Phase Diagram Bao, B., Riordon, J., Xu, Y., Li, H., Sinton, D., Analytical Chemistry 88, 14, 6986-6989 (2016). https://images.squarespace-cdn.com/content/v1/574c9a04f699bbded7e438c7/1465329020304-F6C7UY1DXXTI7AFY5PIA/ToC+figure+v03-1.jpg 2016 - 119. Turning the corner in fertility: high DNA integrity of boundary-following sperm Eamer, L., Vollmer, M., Nosrati, R., San Gabriel, MC., Zeidan, K., Zini, A., Sinton, D., Lab on a Chip 16, 13, 2418-2422 (2016). https://images.squarespace-cdn.com/content/v1/574c9a04f699bbded7e438c7/1465476732424-9SOTLYY0FT4MZL8AEWIC/ToC.jpg 2016 - 118. Predominance of sperm motion in corners Nosrati, R., Graham, P. J., Liu, Q., Sinton, D., Scientific Reports 6, 1, 26669 (2016). https://images.squarespace-cdn.com/content/v1/574c9a04f699bbded7e438c7/1464805588234-UWXBLHTWDM86LXA4T6AM/TOC-Scott-websize.jpg 2016 - 117. Breathable waveguides for combined light and CO2 delivery to microalgae Pierobon, S. C., Riordon, J., Nguyen, B., Sinton, D., Bioresource Technology 209, 391-396 (2016). https://images.squarespace-cdn.com/content/v1/574c9a04f699bbded7e438c7/1464805587357-N4BTHHP9WSD4LXLA5UEF/Graphical-Abstract.png 2016 - 116. Self-Assembled Nanoparticle-Stabilized Photocatalytic Reactors Burdyny, T., Riordon, J., Dinh, CT., Sargent, EH., Sinton, D., Nanoscale 8, 4, 2107-2115 (2016). https://images.squarespace-cdn.com/content/v1/574c9a04f699bbded7e438c7/1464805587869-4TT0WKBAKW1PO9R8Q53H/TOC-paper-based-Reza.jpg 2016 - 115. Paper-based quantification of male fertility potential Nosrati, R., Gong, M., San Gabriel, M., Pedraza, E., Zini, A., Sinton, D., Clinical Chemistry 62, 3, 458-465 (2016). https://images.squarespace-cdn.com/content/v1/574c9a04f699bbded7e438c7/1731083789817-2E869CCRWI760HSOJAR2/TOC.png 2016 - 114. Biomass-to-biocrude on a chip via hydrothermal liquefaction of algae Cheng, X., Ooms, M., Sinton, D., Lab on a Chip 16, 2, 256-260 (2016). https://images.squarespace-cdn.com/content/v1/574c9a04f699bbded7e438c7/1469554713466-3D85E9JHS63T6QJGCZDX/ToC_Sinton.jpg 2016 - 122. Paper-based sperm DNA integrity analysis Nosrati, R., Gong, M. M., San Gabriel, M. C. , Zini, A., Sinton, D., Anal. Methods, (Accepted), 2016, DOI: 10.1039/C6AY01506A. https://images.squarespace-cdn.com/content/v1/574c9a04f699bbded7e438c7/1469537137973-X5G5M8I5AOXPP6PN44T6/SAGD-TOC.png 2016 - 121. A combined method for pore-scale optical and thermal characterization of SAGD Syed, A. H., Mosavat, N., Riordon, J., Lele, P., Qi, Z., Kim, M., Fadaei, H., Guerrero, A., Sinton, D., Journal of Petroleum Science and Engineering, (Accepted), 2016. https://images.squarespace-cdn.com/content/v1/574c9a04f699bbded7e438c7/1467149823517-U5HKYVV4ZY245VF2PCC1/TOC+figure_BN.png 2016 - 120. Dual gradients of light intensity and nutrient concentration for full-factorial mapping of photosynthetic productivity Nguyen, B., Graham, P. J., Sinton, D., Lab on a Chip, 16, 2785-2790, 2016, DOI: 10.1039/C6LC00619A. https://images.squarespace-cdn.com/content/v1/574c9a04f699bbded7e438c7/1465328464624-XXSQYABJMBGNV69IVSFV/ToC+figure+v03-1.jpg 2016 117. Predominance of sperm motion in corners Nosrati, R., Graham, PJ., Qiaozhi, L., Sinton, D., Scientific Reports, 6 Article number: 26669, (2016), DOI: 10.1038/srep26669. http://www.sintonlab.com/people-grad-students daily 0.75 2026-04-01 https://images.squarespace-cdn.com/content/v1/574c9a04f699bbded7e438c7/1622657922165-PQRPZB0SZ0VZYMOMX4VL/Shijie+Liu.jpeg Grad students - Shijie Liu Shijie joined the Sinton Lab as an undergraduate research student in 2019. His research focuses on electrochemical systems for stable and efficient CO2 conversion. He performs COMSOL simulations to better understand chemical behavior and conducts membrane-electrode assembly (MEA) CO2 electrolyzer experiments to quantify the stability and production of C1 and C2 products. https://images.squarespace-cdn.com/content/v1/574c9a04f699bbded7e438c7/1622657439712-XNBWC354FKK4RWV2K46Y/Celine+Xiao+ID.jpg Grad students - Celine Xiao Celine completed her BASc in Mechanical Engineering at the University of Alberta (2020). During her undergrad, she worked as a co-op student on a methane reduction project which aimed to reduce methane emissions in multiple natural gas compression facilities. In the summer of 2020, she received a research grant from the University of Calgary to investigate the energy efficiency of the MacKimmie Tower, a net-zero carbon building. In Fall 2020, she joined the Sinton Lab as a MASc student and will be working with the Catalysis group on carbon dioxide reduction through electrocatalysis. https://images.squarespace-cdn.com/content/v1/574c9a04f699bbded7e438c7/1642630315361-K93Y4YA8986WVLU41KWD/Fatemeh_Photo_resized.jpg Grad students - Fatemeh Arabyarmohammadi Fatemeh Arabyarmohammadi earned a BASc in Chemical Engineering from Sharif University of Technology (SUT) in 2019. Fatemeh then began a Master’s in Chemical Engineering-Biotechnology and received a MSc degree from SUT too. For the MSc thesis, Fatemeh worked on the theoretical investigation of coupled Microbial Electrochemical Cells in micro-sized systems and the assessment of biohydrogen generation. Fatemeh joined the Sinton Lab in January 2022 as a Ph.D. student with a focus on Renewable Fuels / CO2 electrocatalysis. https://images.squarespace-cdn.com/content/v1/574c9a04f699bbded7e438c7/1631798007143-SJPGFXT4D68UU08WF47W/Siyu.png Grad students - Siyu Sun Siyu completed her BASc in Engineering Science, Energy Systems, at the University of Toronto (2022). She joined the Sinton Lab as an undergraduate research student in summer 2021, and her undergraduate thesis focused on renewable hydrogen production using geothermal energy. As a MASc student, Siyu will be working on carbon dioxide reduction through electrocatalysis. https://images.squarespace-cdn.com/content/v1/574c9a04f699bbded7e438c7/1667497966893-OYKZEVPL38XUT9IFCL4A/Chengqian.jpg Grad students - Chengqian Wu Chengqian holds a MASc from Queen’s University and a bachelor’s degree from Central South University, China. He developed his interests in catalysis during his master’s laying the foundation of a novel catalytic oxidation process for arsenic immobilization and devising an experimental setup for continuous mini-pilot scale testing of the technology. His research experience also includes investigation into the solvent-induced effects in acid-catalyzed C-O bond activation for synthesizing sustainable ether fuels. Driven by a passion for doing interdisciplinary research in sustainable energy, Chengqian became part of the catalysis group of Sinton Lab in 2022, leveraging his expertise in heterogeneous catalysis and electrochemistry to develop electrocatalytic systems coupling novel anodic upgrading processes with reduction of CO and/or CO2. While outside the lab, he enjoys spending time with his pets and taking drone shots over the beautiful Don valley area. https://images.squarespace-cdn.com/content/v1/574c9a04f699bbded7e438c7/1682098708233-BPS1AGH26NVRWCDSA23Z/Hanie+photo.jpeg Grad students - Hanie Rezaie Hanie holds both a Bachelor's and Master's degree in Mechanical Engineering from the University of Tehran, Iran. During her studies, she focused on developing a novel thermal management system for electric vehicle (EV). After graduation, she worked as a mechanical engineer in the industry for two years, focused on batteries and EVs. Hanie joined the Industrial Fluids group at Sinton Lab in 2023 as a MASc student, with the aim of broadening her knowledge in the interdisciplinary field of Energy and fluid mechanics. She is focusing on modifying and optimizing measurement methods to quickly and accurately assess fluid properties for EV coolants. https://images.squarespace-cdn.com/content/v1/574c9a04f699bbded7e438c7/1686253190647-B4M945X2UWZMS2DG0REK/Mackenzie.jpg Grad students - Mackenzie Gole Mackenzie completed his BASc in the Department of Chemical Engineering & Applied Chemistry at the University of Toronto in 2023. His research background is in thermal catalysis, where he investigated the partial oxidation of methanol to dimethoxymethane on vanadia-based catalysts for applications in sustainable diesel synthesis. Pursuing his interest in energy and renewable fuels, Mackenzie joined the Sinton Lab in 2023 as part of the electrocatalysis group to produce high-value products from carbon dioxide. https://images.squarespace-cdn.com/content/v1/574c9a04f699bbded7e438c7/1694543192701-3XJBLTLBDU3NPCUGPPI0/RM.jpg Grad students - Raylene Mitchell Raylene Mitchell graduated with a Bachelor of Engineering (Electrical) degree from Memorial University in 2021 where many work opportunities and internships revolved around renewable technologies. She is passionate about technological solutions for northern regions in Canada. As an IBET Fellow, Raylene is also committed to interdisciplinary innovation. In Fall 2023, Raylene joined the Sinton Lab at the University of Toronto under the supervision of Professor David Sinton. Raylene’s commitment to addressing the unique challenges of northern communities is at the forefront of her research goals. https://images.squarespace-cdn.com/content/v1/574c9a04f699bbded7e438c7/1715021892067-C9224I62OCC68Y2ZP4P1/image-asset.jpeg Grad students - Puhua Sun Puhua holds his MASc from the State Key Laboratory of Heavy Oil Processing at the China University of Petroleum, along with a bachelor's degree from the same institution. His fascination with catalysis blossomed during his master's studies, focusing on catalytic transferring hydrogenolysis of bio-based reactants and modification of porous catalytic materials. His research experience also includes investigating the kinetics of C-C and C-H bond activation for upgrading light alkanes, process simulation, and life cycle assessment to promote sustainable energy solutions. Motivated by his passion for innovative research in catalysis and sustainable energy, Puhua joined Sinton Lab in 2024. Here, he leverages his expertise in heterogeneous catalysis and electrochemistry to develop The Electrically-Powered Synthesis of Ethylene and Scaling for Ethylene electrolyzers and eDAC. https://images.squarespace-cdn.com/content/v1/574c9a04f699bbded7e438c7/1560630270767-Q5CYBE64V4YFZ9JDMODN/Seven.png Grad students - ZhenBang (Seven) Qi I graduated with a B.A.Sc in Mechanical Engineering from University of Toronto in 2014. As part of my undergraduate internship, I worked at a field office in Alberta as a Production Engineer for twelve months where I learned not only various cold heavy oil production methods, but also the challenges of heavy oil extraction and limitations of current technologies. I have since become interested in heavy oil extraction processes and wished to explore this field in depth. Currently, I am investigating solvent based recovery methods (requiring less energy and water supply than SAGD) in upstream heavy oil extraction. https://images.squarespace-cdn.com/content/v1/574c9a04f699bbded7e438c7/1715022144985-X43L7882VGOZNJ9951IC/image-asset.png Grad students - Haoyang Deng Haoyang joined Sinton Lab as an Undergraduate Thesis research student in 2023 summer. He completed his BASc in Mechanical and Industrial Engineering at the University of Toronto (2024) and then joined the industrial fluids ground as a MASc student. Haoyang specializes in Solid mechanical and Mechatronics system design. His role encompasses automating and integrating our current experimental setups tailored for thermal fluid screening and integrating efficient data management capabilities thereafter. Additionally, he will fortify the setup's adaptability to diverse materials while contributing to the collection of experimental data for different materials and their mixtures. https://images.squarespace-cdn.com/content/v1/574c9a04f699bbded7e438c7/1727470032547-KELKWQNO1PRFYYJ9RJ8K/image-asset.png Grad students - Yuxuan Gao Yuxuan earned his B.Eng. in Chemical Engineering from the Harbin Institute of Technology. During his undergraduate studies, he worked on a diverse range of research topics, including stretchable battery designs, non-noble-metal ORR catalyst designs, and lithium-O₂ battery systems. In 2024, Yuxuan completed his M.Eng. in Chemical Engineering and Applied Chemistry at the University of Toronto. During his M.Eng., he joined the Sinton Lab and started working on his Meng project, focusing on developing an efficient system to capture carbon dioxide from the ocean water. Yuxuan began his doctoral studies in September 2024. As a PhD student, he will continue his research on CO₂ capture and conversion through electrocatalysis. https://images.squarespace-cdn.com/content/v1/574c9a04f699bbded7e438c7/1727888676980-J44SBF9UZ71C0XAAVX00/Muhan.PNG Grad students - Muhan Yu Muhan Yu completed her BASc with honors in Mechanical Engineering in the University of Toronto in June 2024. Throughout her undergraduate studies, she explored a variety of research areas, ranging from 3D printer design to prosthetic thumb development. Muhan also gained valuable industrial experience during her co-op at Veoneer Canada, where she designed numerous assembly line fixtures. In September 2024, she began her doctoral studies as a direct-entry PhD student at SintonLab. As part of the ethylene subgroup, Muhan is dedicated to advancing cutting-edge systems aimed at enhancing conversion efficiencies for advanced chemical fuels. https://images.squarespace-cdn.com/content/v1/574c9a04f699bbded7e438c7/1729555119324-33E4DYA5HXDA0J88UJT7/Haoming+Ye.jpg Grad students - Haoming Ye Haoming completed his B.Eng in Mechanical Engineering at McGill University in 2024. In September 2024, he joined the Industrial Fluids group at the Sinton Lab, University of Toronto, as a M.Eng student. With a strong interest in the mechatronics and thermofluids fields, and hands-on experience in fuel cell and piping systems design, CFD airflow analysis, and control system development, Haoming is focused on designing the layout and the automation process for the self-driving lab (SDL) and conducting experiments. https://images.squarespace-cdn.com/content/v1/574c9a04f699bbded7e438c7/1736976630707-OSFKZ73X8J0UI3LXXN0C/IMG_5598.JPG Grad students - Tarek Eid Tarek Eid completed his B.Sc. in Energy Engineering at Ankara University in Türkiye, graduating first in his class. He has engaged in multiple distinct and impactful research experiences at Ankara University and Khalifa University. At Ankara University, he focused on the computational and machine learning-based optimization of small-scale wave energy systems. At Khalifa University, his work included the machine learning-driven inverse design of ionic liquids, leveraging ensemble deep learning models to predict the properties of over 300,000 ionic liquids. Additionally, he contributed to the development of solar-driven brine treatment systems for freshwater production and mineral recovery. These experiences reflect his commitment to advancing sustainable technologies for global challenges. In January 2025, Tarek joined the SintonLab at the University of Toronto as a PhD student in the Department of Mechanical and Industrial Engineering. His research focuses on the accelerated discovery of thermal fluids through high-throughput microfluidic testing and computational methodologies. https://images.squarespace-cdn.com/content/v1/574c9a04f699bbded7e438c7/1748981133935-JEM4ESGFYE6WTIU2U4EB/Rong+Liu+-+UofT.JPG Grad students - Rong Liu Rong completed her BASc in Chemistry at the University of Waterloo (2020) and earned her MASc in Chemical Engineering and Applied Chemistry at the University of Toronto (2022). During her undergrad, she investigated CO₂ reduction mechanisms on alkaline electrocatalysts under Prof. Rodney Smith. In 2023, She worked as a research assistant in Prof. Geoffrey Ozin’s group, studying photocatalytic ethane dehydrogenation. In Summer 2025, she joined the Sinton Lab as a PhD student and will be working with the ethylene/C3 subgroup. Rong is dedicated to developing state-of-the-art catalytic systems focused on enhancing conversion efficiencies for next-generation chemical fuels. https://images.squarespace-cdn.com/content/v1/574c9a04f699bbded7e438c7/1749157718258-3VKYM9XON4OJBNBBW83T/Photo_Rongyi.JPG Grad students - Rongyi Wang Rongyi received his bachelor's degree from China University of Petroleum (East China) and his master's degree in Power and Energy Engineering from Shanghai Jiao Tong University. During his master’s studies, he focused on CO₂ electrolysis and the design of high-performance flow fields for electrolyzers. By utilizing COMSOL and Fluent for multiphysics modeling and simulation, he investigated how different flow field structures influence mass transfer and reaction uniformity, aiming to enhance overall electrochemical performance. In addition, he was involved in the design and assembly of CO₂ electrolyzer stacks, gaining hands-on engineering experience with stack integration and system-level optimization. In the Fall of 2025, he joined the Sinton Lab as a PhD student and will be working with the eDAC group. https://images.squarespace-cdn.com/content/v1/574c9a04f699bbded7e438c7/1759242558750-A52A8LIC05AM963H8SP9/Rain+Lu+Portrait.jpg Grad students - Song Rui (Rain) Lu Rain completed his BASc in Mechanical Engineering at the University of Waterloo in 2025. During his undergrad, he completed co-ops at various companies, with a focus on sustainability and energy. Following these work experiences, Rain joined the Sinton Lab in 2025 to further pursue his interests and passion for sustainable energy. https://images.squarespace-cdn.com/content/v1/574c9a04f699bbded7e438c7/1759245346838-RAU208Q1CQTIHINYU61Z/Weisong.jpg Grad students - Weisong Zhuang Weisong earned his B.Eng. in Mechanical Engineering from Concordia University in 2025, graduating with distinction. During his studies, he gained hands-on experience in control systems, composite manufacturing, and mechatronics, including projects such as designing an omni-directional soccer ball launcher’s control system and developing an automated carbon-fiber winder for rocket engine components. He also completed internships at Tabiplast and Belden Inc., where he worked on process-control software, CAD/FEA optimization, and regulatory testing of fiber optic products and PVC piping. In Fall 2025, Weisong joined the Self-Driving Lab (SDL) at Sinton Lab, University of Toronto as a MEng student in MIE. https://images.squarespace-cdn.com/content/v1/574c9a04f699bbded7e438c7/1768320716596-W7LQVD9998EX5OMYWTKM/Ethan.png Grad students - Ethan Milroy Ethan completed a dual degree in Mechanical Engineering and Honours Business Administration from the University of Western Ontario and Ivey Business School in 2025. For his undergraduate capstone project his team built a small direct air capture device which used 3D printed solid adsorbents. He also conducted a landscape study through the Ivey Business School focused on Canada’s circular economy. Ethan joined the Sinton Lab in 2026. https://images.squarespace-cdn.com/content/v1/574c9a04f699bbded7e438c7/1511468718199-J12KR5ZNBELBEJBTEDF3/Attachment-1.jpeg Grad students - Xiang Alvin Cheng I graduated with a BASc in Mechatronic Systems Engineering from Simon Fraser University in 2013. During my studies at SFU, I spent 5 co-op work terms in industrial manufacturing, local and oversea companies as well as university research groups to develop my career skills. In 2012, my work as a research student performing smart coating research with nanoparticles in the Integrated Multi-Transducer Systems (IMuTS) Laboratory inspired me to be a researcher. My current work is to enhance fundamental understanding of emerging biomass to biofuel conversions by taking advantages of microfluidics. Cutting-edge microfluidic platforms adequate for high temperature and pressure are able to screen the processing conditions with in-situ observation and higher degree of control. By visualizing the conversion process enables online measurements, therefore the undetermined reaction mechanisms can be clarified through a progressive approach. Understanding the chemical reactions in the conversions has significant impacts on the next generation of biofuel production. https://images.squarespace-cdn.com/content/v1/574c9a04f699bbded7e438c7/1465414347496-Q1DZLKL4TUMV286ANE76/Scott.jpg Grad students - Scott Pierobon In pursuit of my interests in biology and physics, I obtained a BSc in biophysics from the University of Guelph in 2007 and a MSc in physics at Queen’s University in 2010. My Master’s project concentrated on the nanofabrication and nanoelectronic characterization of single-electron transistors, which are sensitive charge amplifiers relevant in quantum mechanics and quantum computing research. My PhD work is to develop a modularly scalable, micro-optofluidic photobioreactor (PBR) for productive biofuel generation. In each module, microalgae will be sustained in high density biofilms using evanescent light coupling for illumination and microfluidic flow-over channels to deliver nutrients and remove toxic cellular waste. This configuration permits total culture illumination in media which does not inhibit photosynthesis at all reactor scales. That this is fundamentally not achievable in traditional photobioreactors, using high density aqueous phase cultures and direct illumination, has limited the success of biofuel generation in industrial-scale PBRs. The goal of my work is to achieve photon-efficient biofuel generation with volumetric productivities exceeding that of traditional photobioreactors by orders of magnitude. https://images.squarespace-cdn.com/content/v1/574c9a04f699bbded7e438c7/1511468660536-G0KTXC7ZEWKUAX4SNWJV/Tom.jpg Grad students - Tom Burdyny I graduated from the University of Victoria in 2010 with my BEng in mechanical engineering and in 2012 with a MASc in mechanical engineering. During co-op work placements I developed an interest in energy conversion and efficiency, particularly the hybridization of different technologies for a net overall gain. This led to a research co-op focused on the design of a hybrid polymeric membrane/distillation system for producing pure oxygen for carbon capture processes. Following my undergrad I’ve researched magnetic refrigeration devices and geothermal energy recovery from natural gas wells. During my PhD I’ve focused on photo and electrocatalysis with applications in water decontamination and solar fuel production. In my photocatalysis work we adsorbed nanoparticles to the interface of two fluids to create a buoyant photocatalytic micro-emulsion useful in both batch and continuous reactors. The primary benefit of the reactor was its scalable nature that removes the need for auxiliary equipment currently used. In my current electrocatalysis work we are using fluidic design to improve the performance of electrochemical cells at high currents needed for commercial applications. https://images.squarespace-cdn.com/content/v1/574c9a04f699bbded7e438c7/1464801616025-YU7SSD02J6FMI54T2N0L/Seven.png Grad students - ZhenBang (Seven) Qi I graduated with a B.A.Sc in Mechanical Engineering from University of Toronto in 2014. As part of my undergraduate internship, I worked at a field office in Alberta as a Production Engineer for twelve months where I learned not only various cold heavy oil production methods, but also the challenges of heavy oil extraction and limitations of current technologies. I have since become interested in heavy oil extraction processes and wished to explore this field in depth. Currently, I am investigating solvent based recovery methods (requiring less energy and water supply than SAGD) in upstream heavy oil extraction. https://images.squarespace-cdn.com/content/v1/574c9a04f699bbded7e438c7/1464801617888-QO0T02C2CYGVKW7XZQGA/Scott-P.png Grad students - Scott Pierobon In pursuit of my interests in biology and physics, I obtained a BSc in biophysics from the University of Guelph in 2007 and a MSc in physics at Queen’s University in 2010. My Master’s project concentrated on the nanofabrication and nanoelectronic characterization of single-electron transistors, which are sensitive charge amplifiers relevant in quantum mechanics and quantum computing research. My PhD work is to develop a modularly scalable, micro-optofluidic photobioreactor (PBR) for productive biofuel generation. In each module, microalgae will be sustained in high density biofilms using evanescent light coupling for illumination and microfluidic flow-over channels to deliver nutrients and remove toxic cellular waste. This configuration permits total culture illumination in media which does not inhibit photosynthesis at all reactor scales. That this is fundamentally not achievable in traditional photobioreactors, using high density aqueous phase cultures and direct illumination, has limited the success of biofuel generation in industrial-scale PBRs. The goal of my work is to achieve photon-efficient biofuel generation with volumetric productivities exceeding that of traditional photobioreactors by orders of magnitude. http://www.sintonlab.com/new-gallery-2 daily 0.75 2024-09-27 https://images.squarespace-cdn.com/content/v1/574c9a04f699bbded7e438c7/1727467856283-8I9ES59L0B8Q0L2JT5XO/David+Sinton+-+2019.jpg People - faculty - David Sinton PhD, PEng https://images.squarespace-cdn.com/content/v1/574c9a04f699bbded7e438c7/1727467856283-8I9ES59L0B8Q0L2JT5XO/David+Sinton+-+2019.jpg People - faculty - David Sinton PhD, PEng http://www.sintonlab.com/papers-2015 daily 0.75 2024-11-11 https://images.squarespace-cdn.com/content/v1/574c9a04f699bbded7e438c7/1464806503426-LGCR7AYTLZAIVKYZLKCL/SpooledCylinders_TOC.png 2015 - 113. Microfluidic Synthesis of Photoresponsive Spool-Like Block Copolymer Nanoparticles: Flow-Directed Formation and Light-Triggered Dissociation Xu, Z., Yan, B., Riordon, J., Zhao, Y., Sinton, D., Moffitt, M. G., Chemistry of Materials 27, 23, 8094-8104 (2015). https://images.squarespace-cdn.com/content/v1/574c9a04f699bbded7e438c7/1464806503426-LGCR7AYTLZAIVKYZLKCL/SpooledCylinders_TOC.png 2015 - 113. Microfluidic Synthesis of Photoresponsive Spool-Like Block Copolymer Nanoparticles: Flow-Directed Formation and Light-Triggered Dissociation Xu, Z., Yan, B., Riordon, J., Zhao, Y., Sinton, D., Moffitt, M. G., Chemistry of Materials 27, 23, 8094-8104 (2015). https://images.squarespace-cdn.com/content/v1/574c9a04f699bbded7e438c7/1464806503587-CH7KU7H9JC5V5HSF6W7L/ToC-web-1024x229.png 2015 - 112. Two-dimensional slither swimming of sperm within a micrometre of a surface Nosrati, R., Driouchi, A., Yip, C., Sinton, D., Nature Communications 6, 8703 (2015). https://images.squarespace-cdn.com/content/v1/574c9a04f699bbded7e438c7/1464806503177-DJ35QK4OXITC5K9D3XQC/TOC.jpg 2015 - 111. Direct DNA Analysis with Paper-based Ion Concentration Polarization Gong, M., Nosrati, R., San Gabriel, M., Zini, A., Sinton, D., Journal of the American Chemical Society 137, 43, 13913-13919 (2015). https://images.squarespace-cdn.com/content/v1/574c9a04f699bbded7e438c7/1464806501975-6Y4IUS3GFGQCPFTKR6I1/Fig_Website_109_.jpg 2015 - 110. Microfluidic assessment of swimming media for motility-based sperm selection Eamer, L., Nosrati, R., Vollmer, M., Zini, A., Sinton, D., Biomicrofluidics 9, 4 (2015). https://images.squarespace-cdn.com/content/v1/574c9a04f699bbded7e438c7/1464806502434-Y4XM6ZJO9105LV5N4U0F/LOC-Percy.png 2015 - 109. Microalgae on display: a microfluidic pixel-based irradiance assay for photosynthetic growth Graham, P.J., Riordon, J., Sinton, D., Lab on a Chip 15, 15, 3116-3124 (2015). https://images.squarespace-cdn.com/content/v1/574c9a04f699bbded7e438c7/1464806501444-XWYH8XETJT8CLGV91CSU/107.jpg 2015 - 108. Disposable Plasmonics: Rapid and Inexpensive Large Area Patterning of Plasmonic Structures with CO2 Laser Annealing Ooms, M., Jeyaram, Y., Sinton, D., Langmuir 31, 18, 5252-5258 (2015). https://images.squarespace-cdn.com/content/v1/574c9a04f699bbded7e438c7/1464806500736-QL3GFNRGY1J2LS4TP3G3/106.jpg 2015 - 107. Surface Plasmon Resonance for Crude Oil Characterization Ooms, M., Fadaei, H., Sinton, D., Energy & Fuels 29, 5, 3019–3023 (2015). https://images.squarespace-cdn.com/content/v1/574c9a04f699bbded7e438c7/1464806502365-5635774KE6ML2GGIY5PQ/MMP-TOC-2015.png 2015 - 106. Fast Fluorescence-based Microfluidic Method for Measuring Minimum Miscibility Pressure of CO2 in Crude Oils Nguyen, P., Mohaddes, D., Riordon, J., Fadaei, H., Lele, P., Sinton, D., Analytical Chemistry 87, 6, 3160-3164 (2015). https://images.squarespace-cdn.com/content/v1/574c9a04f699bbded7e438c7/1464806501888-WG58JBSK1GOD0261JDLE/20115Matt_abstract1.jpg 2015 - 105. Wavelength-Selective Plasmonics for Enhanced Cultivation of Microalgae Ooms, M., Jeyaram, Y., Sinton, D., Applied Physics Letters 106, 6 (2015). https://images.squarespace-cdn.com/content/v1/574c9a04f699bbded7e438c7/1464806500668-654AQFZQVAEYWJC4UM7E/103.png 2015 - 104. Detection of Bubble and Dew Point Using Optical Thin-Film Interference Bao, B., Fadaei, H., Sinton, D., Sensors and Actuators B: Chemical 207, 640-649 (2015). http://www.sintonlab.com/new-gallery-1 daily 0.75 2023-07-04 https://images.squarespace-cdn.com/content/v1/574c9a04f699bbded7e438c7/1509553933501-LUXNTCMW4DNFOK4RSMTG/Sinton+Lab+-+CATALYSIS.png Main Page Banners - Renewable Fuels Developing efficient electrocatalytic routes to upgrade CO2 into products via renewable electricity https://images.squarespace-cdn.com/content/v1/574c9a04f699bbded7e438c7/1509553933501-LUXNTCMW4DNFOK4RSMTG/Sinton+Lab+-+CATALYSIS.png Main Page Banners - Renewable Fuels Developing efficient electrocatalytic routes to upgrade CO2 into products via renewable electricity https://images.squarespace-cdn.com/content/v1/574c9a04f699bbded7e438c7/1548693541248-3KA1XV6ZSLOBL0ZSGIJ8/Cover.png Main Page Banners - Industrial Fluids Improving the performance of fluids in industrial applications https://images.squarespace-cdn.com/content/v1/574c9a04f699bbded7e438c7/1509553977654-YLUNY3OBP6W1MDU2CSWO/Sinton+Lab+-+ENVIRONMENT.png Main Page Banners - BIOTECHNOLOGY Assessing the effect of stressors on ecosystems; developing clinical tools for assisted reproduction https://images.squarespace-cdn.com/content/v1/574c9a04f699bbded7e438c7/1545406742386-HVA5HT6PPZ52KB3I2RWG/Sinton+Lab+2018.jpg Main Page Banners https://images.squarespace-cdn.com/content/v1/574c9a04f699bbded7e438c7/1579644832874-33LTTDZWIMLFN1BF9S0X/SintonLab+-+Holiday+Party+2019.jpg Main Page Banners https://images.squarespace-cdn.com/content/v1/574c9a04f699bbded7e438c7/1512796402357-1TSNYJ3LSSAR8J1D0DOB/new-renovation.png Main Page Banners The Sinton Lab is very grateful to MIE and the Government of Canada Strategic Investment Fund for investing in our labs in 2017. Thank you for your support! https://images.squarespace-cdn.com/content/v1/574c9a04f699bbded7e438c7/1545403629989-JBRCU8KMFQPQU3YIWXW3/Sinton+Lab+2018.jpg Main Page Banners https://images.squarespace-cdn.com/content/v1/574c9a04f699bbded7e438c7/1464812025342-VT3DEW3J5BN7XACZUS2Z/Algae_back.jpg Main Page Banners http://www.sintonlab.com/open-positions-1 daily 0.75 2017-05-04 https://images.squarespace-cdn.com/content/v1/574c9a04f699bbded7e438c7/1464886568908-YVWN7PC0P5OTHWFK39VU/pdf_Health-1024x504.png Open Positions - Postdoctoral Fellow in Fertility https://images.squarespace-cdn.com/content/v1/574c9a04f699bbded7e438c7/1464886568908-YVWN7PC0P5OTHWFK39VU/pdf_Health-1024x504.png Open Positions - Postdoctoral Fellow in Fertility http://www.sintonlab.com/papers-2014 daily 0.75 2024-11-11 https://images.squarespace-cdn.com/content/v1/574c9a04f699bbded7e438c7/1464887842478-QGPUDL7BX0LZT8X64CC5/102.jpg 2014 - 103. Fiber Refractometer to detect and distinguish carbon dioxide and methane leakage in the deep ocean Burton, G., Melo, L., Warwick, S., Jun, M., Bao, B., Sinton, D., Wild, P., International Journal of Greenhouse Gas Control 31, 41-47 (2014). https://images.squarespace-cdn.com/content/v1/574c9a04f699bbded7e438c7/1464887842478-QGPUDL7BX0LZT8X64CC5/102.jpg 2014 - 103. Fiber Refractometer to detect and distinguish carbon dioxide and methane leakage in the deep ocean Burton, G., Melo, L., Warwick, S., Jun, M., Bao, B., Sinton, D., Wild, P., International Journal of Greenhouse Gas Control 31, 41-47 (2014). https://images.squarespace-cdn.com/content/v1/574c9a04f699bbded7e438c7/1464887842281-TGH340JVWFEDCGVQ5EAQ/101.png 2014 - 102. Pore-scale Assessment of Nanoparticle-Stabilized CO2 Foam for Enhanced Oil Recovery Nguyen, P., Fadaei, H., Sinton, D., Energy & Fuels 28, 10, 6221-6227 (2014). https://images.squarespace-cdn.com/content/v1/574c9a04f699bbded7e438c7/1464887842216-BSW2IXB32O7S4D0G3R7M/100.png 2014 - 101. Chip-off-the-old-rock: the study of reservoir-relevant geological processes with real-rock micromodels Song, W., de Haas, T.W., Fadaei, H., Sinton, D., Lab on a Chip 14, 22, 4382-4390 (2014). https://images.squarespace-cdn.com/content/v1/574c9a04f699bbded7e438c7/1464887841961-PAE0YGWEVL1DEZI8DT0R/99.png 2014 - 100. Nanoporous Membranes Enable Concentration and Transport in Fully Wet Paper-Based Assays Gong, M.M., Zhang, P., MacDonald, B.D., Sinton, D., Analytical Chemistry 86, 16, 8090–8097 (2014). https://images.squarespace-cdn.com/content/v1/574c9a04f699bbded7e438c7/1464887841931-TS8DPEAQAYVF2LE2E2UM/98-cover.png 2014 - 99. Energy: The Microfluidic Frontier Sinton, D., Lab on a Chip 14, 17, 3127-3134 (2014). https://images.squarespace-cdn.com/content/v1/574c9a04f699bbded7e438c7/1464887841726-GF0DN1GAIC71RQJ0VSNO/97.png 2014 - 98. Determination of dew point conditions for CO2 with impurities using microfluidics Song, W., Fadaei, H., Sinton, D., Environmental Science & Technology 48, 6, 3567-3574 (2014). https://images.squarespace-cdn.com/content/v1/574c9a04f699bbded7e438c7/1464887841625-NM7IW05B629QXDRYHC4B/96.png 2014 - 97. Evanescent cultivation of photosynthetic bacteria on thin waveguides Pierobon, S., Ooms, M., Sinton, D., Journal of Micromechanics and Microengineering 24, 4, 045017 (2014). https://images.squarespace-cdn.com/content/v1/574c9a04f699bbded7e438c7/1464887841505-EIRBVFNKPWO0LNWLUQ0S/95.png 2014 - 96. A photosynthetic-plasmonic-voltaic cell: Excitation of photosynthetic bacteria and current collection through a plasmonic substrate Samsonoff, N., Ooms, M., Sinton, D., Applied Physics Letters 104, 4 (2014). https://images.squarespace-cdn.com/content/v1/574c9a04f699bbded7e438c7/1464887841294-GCPZGKXU3C0YCR9C35N7/94.png 2014 - 95. Rapid Selection of Sperm with High DNA Integrity Nosrati, R., Vollmer, M., Eamer, L., San Gabriel, M.C., Zeidan, K., Zini, A., Sinton, D., Lab on a Chip 14, 6, 1142-1150 (2014). https://images.squarespace-cdn.com/content/v1/574c9a04f699bbded7e438c7/1464887841115-91XM3WGHPFHDAMDXJY6Z/93.png 2014 - 94. Lab-in-a-pen: a diagnostics format familiar to patients for low-resource settings Gong, M.M., MacDonald, B.D., Nguyen, T.V., Nguyen, K.V., Sinton, D., Lab on a Chip 14, 5, 957-963 (2014). https://images.squarespace-cdn.com/content/v1/574c9a04f699bbded7e438c7/1464887842523-RY26UAQQB859HZOXDS8Q/92-2.png 2014 - 93. Out-of-plane ion concentration polarization for scalable water desalination MacDonald, B.D., Gong, M.M., Zhang, P., Sinton, D., Lab on a Chip 14, 4, 681-685 (2014). http://www.sintonlab.com/people-faculty daily 0.75 2026-01-30 https://images.squarespace-cdn.com/content/v1/574c9a04f699bbded7e438c7/1700663108441-XOEA6WGQOVI6176QKIK2/Jason+Riordon.png Staff - Jason Riordon, PhD I lead the development of collaborative research with industry and government sponsors, managing the Sinton research program. https://images.squarespace-cdn.com/content/v1/574c9a04f699bbded7e438c7/1700663108441-XOEA6WGQOVI6176QKIK2/Jason+Riordon.png Staff - Jason Riordon, PhD I lead the development of collaborative research with industry and government sponsors, managing the Sinton research program. https://images.squarespace-cdn.com/content/v1/574c9a04f699bbded7e438c7/1464874289491-S4M0LBVSA3EP9IQ3GMIY/SoumoWWWmini.png Staff - Soumo Mukherjee, PhD Soumo Mukherjee comes from industry having expertise in lean design in chemicals manufacturing and metals processing. He has a background in mathematics & physics, with diverse interests including climate change modelling & validation, energy and enstrophy, turbulence, big data, risk assessment/mitigation, strategic decision-making theory, and basic science medical research. He has a dual role in supporting the Associate Chair of Research initiatives, Research and Advancement, as well as in SintonLab operations. Contact Phone: 416-978-0644 Office: MC 64 Lab: MC 413 email: soumo@mie.utoronto.ca https://images.squarespace-cdn.com/content/v1/574c9a04f699bbded7e438c7/1715026690114-Y5I0OXYDAN77EI06AKL7/Mohammad+Zargartalebi_Photo.jpg Staff - Mohammad Zargartalebi, PhD Mohammad is a research associate, Industrial Fluid team leader, and lab manager at Sinton lab, boasting over 13 years of diverse experience in energy systems. His research concentrates on advancing thermofluids for renewables and electrification, with a keen interest in accelerating material screening and discovery using AI-aided high-throughput experimental platforms. https://images.squarespace-cdn.com/content/v1/574c9a04f699bbded7e438c7/1706200018146-7P1II6YHTFP420GT6J2B/image-asset.jpeg Staff - Lisa Leung Lisa is the Executive Director for the CANSTOREnergy NFRF-T research program. Before joining the CANSTOREnergy team, she held successive roles at Toronto Metropolitan University, where she supported the co-creation of large-scale and multi-faceted partnerships between researchers and industry partners, managed the provincial partnerships portfolio, and acted as the Canadian lead for the Academic Industry Meeting Day (AIMday) program. She also previously held roles in research program administration at the provincial and national levels supporting collaborative neuroscience research. She received her BSc in Developmental Biology from the University of Toronto, MSc in Biology from York University, and her PhD in Medical Biophysics from the University of Toronto. https://images.squarespace-cdn.com/content/v1/574c9a04f699bbded7e438c7/1715026305508-MS15IRVFK7QCPD0QQEIR/image-asset.jpeg Staff - Jeannie Ing Jeannie has been working at the University of Toronto for over 20 years in research grant administration. She joined the Sinton Group at MIE in February 2023. Jeannie started her UofT career at Research Services and, more recently, as the Research Program Coordinator at the Dept. of ECE with Prof. Ted Sargent’s Group. Jeannie is currently responsible for managing the daily administrative and financial needs of the SintonLab. https://images.squarespace-cdn.com/content/v1/574c9a04f699bbded7e438c7/1718916706274-LTFX8RK6A1996Z96BI8Q/Sintonlab%2Bpic_Miao.jpg Staff - Ray Miao, PhD Ray completed his Ph.D. (2024) at the SintonLab, University of Toronto, where his research focused on designing efficient systems for electrochemical CO2 capture and conversion. Beginning June 2024, Ray continues to his work with the group, serving as the Director of Electrocatalysis. In this role, he will help manage the electrocatalysis group and provide strategic advice. https://images.squarespace-cdn.com/content/v1/574c9a04f699bbded7e438c7/1468517247063-OOVIF0WVFDKA865QR4NK/jason.jpg Staff - Jason Riordon, PhD My PhD thesis at the University of Ottawa focused on the design, fabrication and characterization of microfluidic volume sensors. I demonstrated lab-on-chip devices capable of measuring individual cell volumetric growth at high resolution, and sorting cells at high purity. Since joining Prof. Sinton’s Energy and Fluids research group in 2014, I have advanced microfluidic projects geared towards global challenges in energy and health. My expertise is in the design & development of lab-on-chip micro/nano-fluidic systems. https://images.squarespace-cdn.com/content/v1/574c9a04f699bbded7e438c7/1736536728804-YI95LU16EXULE2ZGT475/IMG_0228.jpg Staff - Ian Munroe Ian is a research associate and editorial manager at the Sinton Lab. He has previously worked as a multiplatform journalist at media outlets in Canada, Japan and the United Arab Emirates. He holds an M.A. in international relations from the University of Toronto’s Munk School of Global Affairs. https://images.squarespace-cdn.com/content/v1/574c9a04f699bbded7e438c7/1758059445659-1SDJBHK9YXZQY6VOGXKH/Maryam-Photo.jpg Staff - Maryam Ebrahimiazar, PhD Maryam completed her B.Sc. (2015) and M.Sc. (2017) in Chemical Engineering at Sharif University of Technology and her Ph.D. (2022) in Mechanical Engineering at University of Toronto. Her doctoral research centered around designing an ultrasonic inhaler to enhance asthma treatment. She used ultrasound waves to generate droplets of the correct size (~5 microns) for an effective asthma treatment and developed fundamental models to predict the behavior of liquids exposed to ultrasonic oscillations. Maryam joined SintonLab in 2023 as a postdoctoral fellow. Her current research is focused on developing high throughput experimental methods to measure fluid properties for electric vehicle (EV) coolants. http://www.sintonlab.com/papers-2011 daily 0.75 2024-11-11 https://images.squarespace-cdn.com/content/v1/574c9a04f699bbded7e438c7/1464895237134-H457XM73EO0Q7HD9CAJR/71-1.png 2011 - 72. Optofluidics for Energy Applications Erickson, D.†, Sinton, D.†, Psaltis, D., Nature Photonics 5, 10, 583-590 (2011). † Authors contributed equally https://images.squarespace-cdn.com/content/v1/574c9a04f699bbded7e438c7/1464895237134-H457XM73EO0Q7HD9CAJR/71-1.png 2011 - 72. Optofluidics for Energy Applications Erickson, D.†, Sinton, D.†, Psaltis, D., Nature Photonics 5, 10, 583-590 (2011). † Authors contributed equally https://images.squarespace-cdn.com/content/v1/574c9a04f699bbded7e438c7/1464895236865-7F1VNSDH5LHQ5YDKMLME/70.png 2011 - 71. Flow-Directed Block Copolymer Micelle Morphologies via Microfluidic Self-Assembly Wang, C.-W., Sinton, D., Moffitt, M. G., Journal of the American Chemical Society 133, 46, 18853-18864 (2011). https://images.squarespace-cdn.com/content/v1/574c9a04f699bbded7e438c7/1464895238028-3E0YZUAKLOQBAFB7AWMZ/69.png 2011 - 70. Rapid Microfluidics-Based Measurement of CO2 Diffusivity in Bitumen Fadaei, H., Scarff, B., Sinton, D., Energy & Fuels 25, 10, 4829-4835 (2011). https://images.squarespace-cdn.com/content/v1/574c9a04f699bbded7e438c7/1464895237886-YLJXFH4VX5UD93OX1H93/68.png 2011 - 69. Integrated Nanohole Array Surface Plasmon Resonance Sensing Device Using a Dual-Wavelength Source Escobedo, C., Vincent, S., Choudhury, A.I.K., Campbell, J., Brolo, A.G., Sinton, D., Gordon, R., Journal of Micromechanics and Microengineering 21, 11, 115001 (2011). https://images.squarespace-cdn.com/content/v1/574c9a04f699bbded7e438c7/1464895237628-83J93WH8RX8FR1R4YN22/67-1.png 2011 - 68. Microfluidic Liquid Actuation Through Ground-Directed Electric Discharge Escobedo, C., Sinton, D., Microfluidics and Nanofluidics 11, 653-662 (2011). https://images.squarespace-cdn.com/content/v1/574c9a04f699bbded7e438c7/1464895237702-PCBGL6U03QLOEIPSOC7G/66.png 2011 - 67. A Plate-Frame Flow-through Microfluidic Fuel Cell Stack Moore, S., Sinton, D., Erickson, D., Journal of Power Sources 196, 22, 9481-9487 (2011). https://images.squarespace-cdn.com/content/v1/574c9a04f699bbded7e438c7/1464895237317-PWF6XJ08RPOIXP2LAPR5/65.png 2011 - 66. Viscous flow in variable cross-section microchannels of arbitrary shapes Akbari, M., Sinton, D., Bahrami, M., International Journal of Heat and Mass Transfer 54, 17-18, 3970-3978 (2011). https://images.squarespace-cdn.com/content/v1/574c9a04f699bbded7e438c7/1464895155157-GOACWOYZKA72SLAA6319/64.png 2011 - 65. Geometrical Effects on the Temperature Distribution in a Half-Space Due to a Moving Heat Source Akbari, M., Sinton, D., Bahrami, M., Journal of Heat Transfer 133, 064502 (2011). https://images.squarespace-cdn.com/content/v1/574c9a04f699bbded7e438c7/1464895154995-J7EEHCNDNW1IBJBQQ0O0/63.png 2011 - 64. Radial sample preconcentration Scarff, B., Escobedo, C., Sinton, D., Lab on a Chip 11, 6, 1102-1109 (2011). http://www.sintonlab.com/papers-2013 daily 0.75 2024-11-11 https://images.squarespace-cdn.com/content/v1/574c9a04f699bbded7e438c7/1464888348589-NBOJTM9JP0SBMCK0PZMH/911.png 2013 - 92. Field tested milliliter-scale blood filtration device for point-of-care applications Gong, M.M., MacDonald, B.D., Nguyen, T.V., Nguyen, K.V., Sinton, D., Biomicrofluidics 7, 4 (2013). https://images.squarespace-cdn.com/content/v1/574c9a04f699bbded7e438c7/1464888348589-NBOJTM9JP0SBMCK0PZMH/911.png 2013 - 92. Field tested milliliter-scale blood filtration device for point-of-care applications Gong, M.M., MacDonald, B.D., Nguyen, T.V., Nguyen, K.V., Sinton, D., Biomicrofluidics 7, 4 (2013). https://images.squarespace-cdn.com/content/v1/574c9a04f699bbded7e438c7/1464888348500-Z08NSHLWLYLPYSHU5DSF/90-cover-228x300.png 2013 - 91. Steam-on-a-chip for oil recovery: The role of alkaline additives in steam assisted gravity drainage de Haas, T., Fadaei, H., Sinton, D., Lab on a Chip 13, 19, 3832-3839 (2013). https://images.squarespace-cdn.com/content/v1/574c9a04f699bbded7e438c7/1464888348281-571UDHS59LHG7U9A4P5D/89-cover-229x300.png 2013 - 90. Lab on a chip Canada-Rapid Diffusion over Large Length Scales Juncker, D., Wheeler, A.R., Sinton, D., Lab on a Chip 13, 13, 2438-2440 (2013). https://images.squarespace-cdn.com/content/v1/574c9a04f699bbded7e438c7/1464888348134-NH7O7HE58O8YHHWPDP63/88.png 2013 - 89. Flow-Directed Loading of Block Copolymer Micelles with Hydrophobic Probes in a Gas-Liquid Microreactor Wang, C-W., Bains, A., Sinton, D., Moffitt, M. G., Langmuir 29, 26, 8385-8394 (2013). https://images.squarespace-cdn.com/content/v1/574c9a04f699bbded7e438c7/1464888347958-CKIKY9PIIZ7BOR9UH4U6/87.png 2013 - 88. Bitumen-Toluene Mutual Diffusion Coefficients using Microfluidics Fadaei, H., Shaw, J. M., Sinton, D., Energy & Fuels 27, 4, 2042-2048 (2013). https://images.squarespace-cdn.com/content/v1/574c9a04f699bbded7e438c7/1464888347769-8WRV1K82EL0MP28UIEEM/86-cover-229x300.png 2013 - 87. Aquifer-on-a-Chip: Understanding pore-scale salt precipitation dynamics during CO2 sequestration Kim, M., Sell, A., Sinton, D., Lab on a Chip 13, 13, 2508-2518 (2013). https://images.squarespace-cdn.com/content/v1/574c9a04f699bbded7e438c7/1464888347632-IHDT1SEGNCWT6IPHLE4O/85.png 2013 - 86. Morphological Control Via Chemical and Shear Forces in Block Copolymer Self-Assembly in the Lab-on-Chip Wang, C-W., Sinton, D., Moffitt, M. G., ACS Nano 7, 2, 1424-1436 (2013). https://images.squarespace-cdn.com/content/v1/574c9a04f699bbded7e438c7/1464888347171-KUEN2VTC34DHH95GA5WR/84.png 2013 - 85. Detecting Supercritical CO2 in Brine at Sequestration Pressure with an Optical Fiber Sensor Bao, B., Melo, L., Davies, B., Fadaei, H., Sinton, D., Wild, P., Environmental Science & Technology 47, 1, 306-313 (2013). https://images.squarespace-cdn.com/content/v1/574c9a04f699bbded7e438c7/1464888347152-4H1OAMVVT4C9HL0XL143/83.png 2013 - 84. Measurement of CO2 Diffusivity for Carbon Sequestration: A Microfluidic Approach for Reservoir-Specific Analysis Sell, A., Fadaei, H., Kim, M., Sinton, D., Environmental Science & Technology 47, 1, 71-78 (2013). https://images.squarespace-cdn.com/content/v1/574c9a04f699bbded7e438c7/1464888348923-K5PQ70WCA1FE9TCTAA3F/82.png 2013 - 83. Microfluidics Underground: A Micro-Core Method for Pore Scale Analysis of Supercritical CO2 Reactive Transport in Saline Aquifers Nguyen, P., Fadaei, H., Sinton, D., Journal of Fluids Engineering 135, 2, 021203 (2013). https://images.squarespace-cdn.com/content/v1/574c9a04f699bbded7e438c7/1464888348840-MG1UG50BNXDZEZPPV71T/81.png 2013 - 82. Quantification of ovarian cancer markers with integrated microfluidic concentration gradient and imaging nanohole surface plasmon resonance Escobedo, C., Chou, Y-W., Rahman, M., Duan, X., Gordon, R., Sinton, D., Brolo, A.G., Ferreira, J., Analyst 138, 5, 1450-1458 (2013). http://www.sintonlab.com/2024 daily 0.75 2025-08-11 https://images.squarespace-cdn.com/content/v1/574c9a04f699bbded7e438c7/1740670379789-4G9YF8R1O4XVKDC79DMM/1-Fan.png 2024 - 317. Atomic-level Cu active sites enable energy-efficient CO2 electroreduction to multicarbon products in strong acid Fan, L., Li, F., Liu, T., Huang, J. E., Miao, R. K., Yan, Y., Feng, S., Tai, C.-W., Hung, S.-F., Tsai, H.-J., Chen, M.-C., Bai, Y., Kim, D., Park, S., Papangelakis, P., Wu, C., Shayesteh Zeraati, A., Dorakhan, R., Sun, L., Sinton, D., Sargent, E., Nature Synthesis 4, 262–270 (2025). https://images.squarespace-cdn.com/content/v1/574c9a04f699bbded7e438c7/1740670163578-0UWNT8VQ3XF24S1R8JZE/2-+Shijie.png 2024 - 316. Illuminating quinone-mediated CO2 capture and release Liu, S., Sinton, D., Nature Chemical Engineering 1, 726–727 (2024). https://images.squarespace-cdn.com/content/v1/574c9a04f699bbded7e438c7/1740670042298-8WEQVT2IH46DT6M1WKR1/4-Abed.png 2024 - 315. Zero-Gap Electrolyzers Accelerate Reconstruction of Cu2O-Derived Catalysts under CO2 Reduction Abed, J., Grigioni, I., Kose, T., Alnoush, W., Park, S., Polo, A., Lee, B.-H., Sinton, D., Higgins, D., Sargent, E. H., ACS Energy Letters 9, 12, 6225–6232 (2024). https://images.squarespace-cdn.com/content/v1/574c9a04f699bbded7e438c7/1732208197980-PQ93A33LDMEHCMW9LBTS/TOC2024.png 2024 - 314. Autophobic polydimethylsiloxane nanodroplets enable abrasion-tolerant omniphobic surfaces Khatir, B., Serles, P., Wen, T., Vuong, T. V., Shayesteh, A., Au, S., Sinton, D., Master, E. R., Filleter, T., Golovin, K., Chemical Engineering Journal 502, 157718 (2024). https://images.squarespace-cdn.com/content/v1/574c9a04f699bbded7e438c7/1731093894579-VO62SK7UV0N7KCPW9EUE/5.PNG 2024 - 313. Reactive capture of CO2 via amino acid Xiao, Y. C., Sun, S. S., Zhao, Y., Miao, R. K., Fan, M., Lee, G., Chen, Y., Gabardo, C. M., Yu, Y., Qiu, C., Guo, Z., Wang, X., Papangelakis, P., Huang, J. E., Li, F., O’Brien, C. P., Kim, J., Han, K., Corbett, P. J., Howe, J. Y., Sargent, E. 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Catalyst synthesis under CO2 electroreduction favours faceting and promotes renewable fuels electrosynthesis Wang, Y., Wang, Z., Dinh, C.-T., Li, J., Ozden, A., Kibria, M.G., Seifitokaldani, A., Tan, C.-S., Gabardo, C.M., Luo, M., Zhou, H., Li, F., Lum, Y., McCallum, C., Xu, Y., Liu, M., Proppe, A., Johnston, A., Todorovic, P., Zhuang, T.-T., Sinton, D., Kelley, S.O., Sargent, E.H., Nature Catalysis 3, 2, 98–106 (2020). http://www.sintonlab.com/undergraduate-students daily 0.75 2025-11-07 https://images.squarespace-cdn.com/content/v1/574c9a04f699bbded7e438c7/1762481782589-ZUX2K9MGZSPUY7TWLP32/Jaxon.jpg Undergraduate Students - Boyuan (Jaxon) Song Boyuan (Jaxon) is a fourth-year mechanical undergraduate student for the thermo-Fluids Lab at the University of Toronto. His final year project will be related to integrating electrical current sensor into SDL and developing SAF testing procedures with other group members. https://images.squarespace-cdn.com/content/v1/574c9a04f699bbded7e438c7/1580329100937-E1P4K7XTZ15UJVU23VH8/image-asset.jpeg Undergraduate Students - Shivani Krishnan Shivani is set to graduate with a BASc in 2022 in Chemical Engineering at the University of Waterloo. During her previous co-ops, she has worked with chromatography-related research, as well as in colours/additives manufacturing and pharmaceutical industries. In 2020, she joined the SintonLab as an undergrad co-op student, with a focus on improving the cell performance aspects of the CO2 conversion cells developed for the Carbon XPRIZE competition. https://images.squarespace-cdn.com/content/v1/574c9a04f699bbded7e438c7/1762481782589-ZUX2K9MGZSPUY7TWLP32/Jaxon.jpg Undergraduate Students - Boyuan (Jaxon) Song Boyuan (Jaxon) is a fourth-year mechanical undergraduate student for the thermo-Fluids Lab at the University of Toronto. His final year project will be related to integrating electrical current sensor into SDL and developing SAF testing procedures with other group members. https://images.squarespace-cdn.com/content/v1/574c9a04f699bbded7e438c7/1762481926348-7AXQGLM05SHQNNIPAS1D/Jiakai.jpg Undergraduate Students - Jiakai (Leo) Cai Jiakai joined Sinton Lab as an undergraduate research student in 2025. His undergraduate thesis focuses on development and integration of foam thickness sensor to the current self-driven lab. https://images.squarespace-cdn.com/content/v1/574c9a04f699bbded7e438c7/1762481998096-X6QDA9S331G75N06S390/Leo.jpg Undergraduate Students - Yuze (Andy) Lyu Andy Lyu is a fourth-year Materials Science and Engineering student at the University of Toronto where he has consistently earned Dean’s List honors. He completed a 16-month internship at TC Energy, where he co-authored a paper on composite repair of large-diameter pipelines with severe corrosion. Andy has also conducted research on chitosan-based microneedle hydrogel systems for smart drug delivery at the University of Calgary. He is currently a 4th year thesis student in Professor David Sinton’s lab, focusing on electrochemical Direct air Capture and pilot-scale cell optimization. http://www.sintonlab.com/visiting-scientists daily 0.75 2026-04-01 https://images.squarespace-cdn.com/content/v1/574c9a04f699bbded7e438c7/1582302299051-FR8Y7RG2G2KN8BPLEYCQ/Theo.PNG Visiting Scientists - Théo Alerte Théo completed a double degree including a master in process engineering delivered by the Université Technologique de Compiegne and a MSc in Offshore and Ocean Technology with Subsea Engineering from Cranfield University. Next, he joined Air Liquide UK for 2 years in the Engineering & Technical department and was in charge of compliance, reliability analysis and gas packaging / storage unit projects. I am currently a Process Engineer - CO2 Conversion Researcher. https://images.squarespace-cdn.com/content/v1/574c9a04f699bbded7e438c7/1582302299051-FR8Y7RG2G2KN8BPLEYCQ/Theo.PNG Visiting Scientists - Théo Alerte Théo completed a double degree including a master in process engineering delivered by the Université Technologique de Compiegne and a MSc in Offshore and Ocean Technology with Subsea Engineering from Cranfield University. Next, he joined Air Liquide UK for 2 years in the Engineering & Technical department and was in charge of compliance, reliability analysis and gas packaging / storage unit projects. I am currently a Process Engineer - CO2 Conversion Researcher. http://www.sintonlab.com/2021-1 daily 0.75 2024-11-11 https://images.squarespace-cdn.com/content/v1/574c9a04f699bbded7e438c7/1632854688488-9CFIBU19MOYMQXPM1TPQ/Rui2021.png 2021 - 242. Electroosmotic flow steers neutral products and enables concentrated ethanol electroproduction from CO2 Miao, R.K., Xu, Y., Ozden, A., Robb, A., O’Brien, C.P., Gabardo, C.M., Lee, G., Edwards, J.P., Huang, J.E., Fan, M., Wang, X., Liu, S., Yan, Y., Sargent, E.H., Sinton, D., Joule 5, 10, 2742–2753 (2021). https://images.squarespace-cdn.com/content/v1/574c9a04f699bbded7e438c7/1632854688488-9CFIBU19MOYMQXPM1TPQ/Rui2021.png 2021 - 242. Electroosmotic flow steers neutral products and enables concentrated ethanol electroproduction from CO2 Miao, R.K., Xu, Y., Ozden, A., Robb, A., O’Brien, C.P., Gabardo, C.M., Lee, G., Edwards, J.P., Huang, J.E., Fan, M., Wang, X., Liu, S., Yan, Y., Sargent, E.H., Sinton, D., Joule 5, 10, 2742–2753 (2021). https://images.squarespace-cdn.com/content/v1/574c9a04f699bbded7e438c7/1632854522433-FQACWK4BIR9NHQ2L8D80/Abed2021.png 2021 - 241. 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Scaling electrocatalysts for reduction of CO2 or CO to multicarbon products Moon, H. S., Jaffer, S. A., Miao, R. K., Sargent, E. H., Sinton, D., Nature Reviews Materials 11, 244-254 (2026). https://images.squarespace-cdn.com/content/v1/574c9a04f699bbded7e438c7/1764192111104-8A1H129LRZF39CHADRYA/325.jpg 2026 - 340. Hydroxyl-mediated interfacial oxophilicity engineering for efficient CO2-to-C2+ oxygenates conversion at industrial current densities Wang, L., Yao, X., Jana, S., Wu, C., Chen, N., Singh, C. V., Sinton, D., Wu, Y. A., Applied Catalysis B: Environment and Energy 383, 126133 (2026). http://www.sintonlab.com/team daily 0.75 2026-04-01 https://images.squarespace-cdn.com/content/v1/574c9a04f699bbded7e438c7/1762959797130-H5RYQOZ8T9M6GO9SE8A7/Group+photo+-+Nov+7+2025.jpg Team https://images.squarespace-cdn.com/content/v1/574c9a04f699bbded7e438c7/7425c19a-345c-4a3c-8bcf-2860ae99e25d/Sinton+Group+-+Nov+2023.jpg Team https://images.squarespace-cdn.com/content/v1/574c9a04f699bbded7e438c7/1671472990111-CDAC91DKYHMCG3NO3X0M/image-asset.jpeg Team https://images.squarespace-cdn.com/content/v1/574c9a04f699bbded7e438c7/1671552383625-5I8PI7DKLQ4VHB61BJ7I/image-asset.jpeg Team https://images.squarespace-cdn.com/content/v1/574c9a04f699bbded7e438c7/1636474072105-UOJ33BPQICPVWZUF2G4D/image-asset.jpeg Team https://images.squarespace-cdn.com/content/v1/574c9a04f699bbded7e438c7/1602624186401-CEKHEUVXY7DUIEY0AOQD/5k_run.jpg Team https://images.squarespace-cdn.com/content/v1/574c9a04f699bbded7e438c7/1567613020752-37Q1KPSCNTHJI07AWUHD/Yihe+-+Bubble+tea.jpg Team https://images.squarespace-cdn.com/content/v1/574c9a04f699bbded7e438c7/1545403698396-40746VLKPHGOEH4902GB/Sinton+Lab+2018.jpg Team https://images.squarespace-cdn.com/content/v1/574c9a04f699bbded7e438c7/1512796402357-1TSNYJ3LSSAR8J1D0DOB/new-renovation.png Team The Sinton Lab is very grateful to MIE and the Government of Canada Strategic Investment Fund for investing in our labs in 2017. 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