David A. Vermaas
Technische Universiteit Delft
H-index: 35
Europe-Netherlands
Top articles of David A. Vermaas
Title | Journal | Author(s) | Publication Date |
---|---|---|---|
Gas bubble removal from a zero-gap alkaline electrolyser with a pressure swing and why foam electrodes might not be suitable at high current densities | International Journal of Hydrogen Energy | Jorrit Bleeker Celine van Kasteren J Ruud van Ommen David A Vermaas | 2024/2/29 |
Unifying the Conversation: Membrane Separation Performance in Energy, Water, and Industrial Applications | Sarah M Dischinger Daniel J Miller David A Vermaas Ryan S Kingsbury | 2024/1/26 | |
Practical potential of suspension electrodes for enhanced limiting currents in electrochemical CO 2 reduction | Energy Advances | Nathalie EG Ligthart Gerard Prats Vergel Johan T Padding David A Vermaas | 2024 |
Fouling management in oceanic carbon capture via in-situ electrochemical bipolar membrane electrodialysis | Chemical Engineering Journal | Rezvan Sharifian Hannah C Van der Wal RM Wagterveld David A Vermaas | 2023/2/15 |
Design criteria for selective nanofluidic ion-exchange membranes | Journal of Membrane Science | Kostadin V Petrov Mark Mao Albert Santoso Ilya I Ryzhkov David A Vermaas | 2023/12/15 |
Inhomogeneities in the Catholyte Channel Limit the Upscaling of CO2 Flow Electrolysers | ACS Sustainable Chemistry & Engineering | Joseph W Blake Vojtěch Konderla Lorenz M Baumgartner David A Vermaas Johan T Padding | 2023/2/7 |
Electrochemical CO2 capture can finally compete with amine-based capture | Joule | David A Vermaas Ruud Kortlever | 2023/11/15 |
Electrowetting limits electrochemical CO 2 reduction in carbon-free gas diffusion electrodes | Energy Advances | Lorenz M Baumgartner Andrey Goryachev Christel I Koopman David Franzen Barbara Ellendorff | 2023 |
Metal-and covalent-organic framework mixed matrix membranes for CO2 separation: A perspective on stability and scalability | Meixia Shan Xiumei Geng Inhar Imaz Anna Broto-Ribas Borja Ortín-Rubio | 2023/11/11 | |
Carbon monoxide separation: past, present and future | Xiaozhou Ma Jelco Albertsma Dieke Gabriels Rens Horst Sevgi Polat | 2023 | |
Direct Imaging of Local pH Reveals Bubble-Induced Mixing in a CO2 Electrolyzer | ACS Sustainable Chemistry & Engineering | Lorenz M Baumgartner Aron Kahn Maxime Hoogland Jorrit Bleeker Wolter F Jager | 2023/7/3 |
Visualizing pH and Mass Transport at Hydrogen Evolving Electrodes with Fluorescence Lifetime Microscopy | Electrochemical Society Meeting Abstracts 244 | Jorrit Bleeker David Vermaas Wolter Jager | 2023/12/22 |
Quinolinium-Based Fluorescent Probes for Dynamic pH Monitoring in Aqueous Media at High pH Using Fluorescence Lifetime Imaging | ACS sensors | Jorrit Bleeker Aron P Kahn Lorenz M Baumgartner Ferdinand C Grozema David A Vermaas | 2023/4/27 |
Feasibility of producing electricity, hydrogen, and chlorine via reverse electrodialysis | Environmental Science & Technology | Ameya Ranade Kaustub Singh Alessandro Tamburini Giorgio Micale David A Vermaas | 2022/10/18 |
Narrow Pressure Stability Window of Gas Diffusion Electrodes Limits the Scale-Up of CO2 Electrolyzers | ACS sustainable chemistry & engineering | Lorenz M Baumgartner Christel I Koopman Antoni Forner-Cuenca David A Vermaas | 2022/3/29 |
Resistance breakdown of a membraneless hydrogen–bromine redox flow battery | ACS Sustainable Chemistry & Engineering | Daniel Alfisi Amit N Shocron Robert Gloukhovski David A Vermaas Matthew E Suss | 2022/9/21 |
Anion-exchange membranes with internal microchannels for water control in CO 2 electrolysis | Sustainable Energy & Fuels | Kostadin V Petrov Justin C Bui Lorenz Baumgartner Lien-Chun Weng Sarah M Dischinger | 2022 |
Electrochemical methods for carbon dioxide separations | Kyle M Diederichsen Rezvan Sharifian Jin Soo Kang Yayuan Liu Seoni Kim | 2022/9/8 | |
Using Membranes with Internal Microchannels to Prevent Drying-out during CO2 Electrolysis | Electrochemical Society Meeting Abstracts 241 | Kostadin Veselinov Petrov Justin C Bui Alexis T Bell Adam Z Weber David Vermaas | 2022/7/7 |
Oceanic carbon capture through electrochemically induced in situ carbonate mineralization using bipolar membrane | Chemical Engineering Journal | R Sharifian L Boer RM Wagterveld DA Vermaas | 2022/6/15 |