ProfessorsProfessors of Technische Universiteit DelftDavid A. Vermaas

David A. Vermaas

Technische Universiteit Delft

H-index: 35

Europe-Netherlands

About David A. Vermaas

David A. Vermaas, With an exceptional h-index of 35 and a recent h-index of 33 (since 2020), a distinguished researcher at Technische Universiteit Delft, specializes in the field of Renewable energy, membrane technology, electrochemistry, environmental science, mass transport.

His recent articles reflect a diverse array of research interests and contributions to the field:

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

Unifying the Conversation: Membrane Separation Performance in Energy, Water, and Industrial Applications

Practical potential of suspension electrodes for enhanced limiting currents in electrochemical CO 2 reduction

Fouling management in oceanic carbon capture via in-situ electrochemical bipolar membrane electrodialysis

Design criteria for selective nanofluidic ion-exchange membranes

Inhomogeneities in the Catholyte Channel Limit the Upscaling of CO2 Flow Electrolysers

Electrochemical CO2 capture can finally compete with amine-based capture

Electrowetting limits electrochemical CO 2 reduction in carbon-free gas diffusion electrodes

David A. Vermaas Information

University	Technische Universiteit Delft
Position	___
Citations(all)	5713
Citations(since 2020)	4066
Cited By	3045
hIndex(all)	35
hIndex(since 2020)	33
i10Index(all)	44
i10Index(since 2020)	44
Email	Access Email
University Profile Page	Technische Universiteit Delft
Google Scholar	View Google Scholar Profile

David A. Vermaas Skills & Research Interests

Renewable energy

membrane technology

electrochemistry

environmental science

mass transport

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