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Erik Kjeang

Showing results (1-10 of 11) with videos related to

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Biomicrofluidics|December 9, 2010
A perspective on microfluidic biofuel cellsJin Wook Lee, Erik Kjeang
Chemsuschem|February 25, 2015
Mitigation of chemical membrane degradation in fuel cells: understanding the effect of cell voltage and iron ion redox cycleKa Hung Wong, Erik Kjeang
Lab on a Chip|January 7, 2026
Microfluidic tools for electrochemical energy storage and conversion: advances, applications, and research opportunitiesCaio Vinicios Juvencio da Silva, Erik Kjeang
Lab on a Chip|May 29, 2013
Microfluidic redox batteryJin Wook Lee, Marc-Antoni Goulet, Erik Kjeang
Chemical Communications (Cambridge, England)|December 12, 2017
"Bleaching" glycerol in a microfluidic fuel cell to produce high power density at minimal costCauê A Martins, Omar A Ibrahim, Pei Pei, et al.
Journal of the American Chemical Society|March 5, 2008
A microfluidic fuel cell with flow-through porous electrodesErik Kjeang, Raphaelle Michel, David A Harrington, et al.
Physical Chemistry Chemical Physics : PCCP|May 7, 2015
Evolution of water sorption in catalyst coated membranes subjected to combined chemical and mechanical degradationSenthil velan Venkatesan, Chan Lim, Erin Rogers, et al.
Chemical Reviews|January 7, 2022
Microfluidics for Electrochemical Energy ConversionOmar A Ibrahim, Marina Navarro-Segarra, Pardis Sadeghi, et al.
Scientific Reports|February 14, 2019
Four-dimensional joint visualization of electrode degradation and liquid water distribution inside operating polymer electrolyte fuel cellsRobin T White, Sebastian H Eberhardt, Yadvinder Singh, et al.
Chemsuschem|February 28, 2020
An Organic Redox Flow Cell-Inspired Paper-Based Primary BatteryMarina Navarro-Segarra, Perla Patricia Alday, David Garcia, et al.
Pageof 2

Showing results (1-10 of 11) with videos related to

Sort By:
Pageof 2
Biomicrofluidics|December 9, 2010
A perspective on microfluidic biofuel cellsJin Wook Lee, Erik Kjeang
Chemsuschem|February 25, 2015
Mitigation of chemical membrane degradation in fuel cells: understanding the effect of cell voltage and iron ion redox cycleKa Hung Wong, Erik Kjeang
Lab on a Chip|January 7, 2026
Microfluidic tools for electrochemical energy storage and conversion: advances, applications, and research opportunitiesCaio Vinicios Juvencio da Silva, Erik Kjeang
Lab on a Chip|May 29, 2013
Microfluidic redox batteryJin Wook Lee, Marc-Antoni Goulet, Erik Kjeang
Chemical Communications (Cambridge, England)|December 12, 2017
"Bleaching" glycerol in a microfluidic fuel cell to produce high power density at minimal costCauê A Martins, Omar A Ibrahim, Pei Pei, et al.
Journal of the American Chemical Society|March 5, 2008
A microfluidic fuel cell with flow-through porous electrodesErik Kjeang, Raphaelle Michel, David A Harrington, et al.
Physical Chemistry Chemical Physics : PCCP|May 7, 2015
Evolution of water sorption in catalyst coated membranes subjected to combined chemical and mechanical degradationSenthil velan Venkatesan, Chan Lim, Erin Rogers, et al.
Chemical Reviews|January 7, 2022
Microfluidics for Electrochemical Energy ConversionOmar A Ibrahim, Marina Navarro-Segarra, Pardis Sadeghi, et al.
Scientific Reports|February 14, 2019
Four-dimensional joint visualization of electrode degradation and liquid water distribution inside operating polymer electrolyte fuel cellsRobin T White, Sebastian H Eberhardt, Yadvinder Singh, et al.
Chemsuschem|February 28, 2020
An Organic Redox Flow Cell-Inspired Paper-Based Primary BatteryMarina Navarro-Segarra, Perla Patricia Alday, David Garcia, et al.
Pageof 2