Add to ORKGDramatically improving the performance of fuel cell systems with their complex heterogeneous structures involving electrocatalysts, proton conducting membrane, reactant, and interfaces between them requires understanding the fundamental chemical, electrochemical, and physical phenomena at the heart of these complex materials and relating these fundamentals to the properties and performance of the membrane–electrode assembly. Our goal is to develop a predictive model that can be used to estimate the changes in performance upon changes in the design and which can be used to monitor performance of working fuel cells. Our strategy is to start with first principles quantum mechanics (QM) and to develop overlapping simulation methodologies in whi...
Vlachos, Dionisios G.Yan, YushanWithin the overarching goal of increasing energy sustainability and ...
This Ph.D. thesis focuses on testing and modelling PEMFC single cell systems, to better understand i...
Advances in theor. chem. and supercomputers are making it practical to consider first principles (de...
Dramatically improving the performance of fuel cell systems with their complex heterogeneous structu...
International audienceWe report a multi-paradigm model of the membrane chemical degradation in Polym...
It is desirable if we can achieve fundamental under-standing of the three-phase system consisting of...
In this paper, a large scale molecular dynamic method for reconstruction of the catalyst layers (CLs...
The catalyst layer (CL) of proton exchange membrane fuel cell (PEMFC) involves various particles and...
This thesis attempts to bridge science with technology applications by developing two lines of resea...
In this study, molecular dynamics (MD) simulations of hydrated anion-exchange membranes (AEMs), comp...
Polymer electrolyte membrane fuel cells (PEMFCs) fueled by hydrogen are considered to be most suitab...
Advances in theor. chem., computational chem., materials science, physics, and supercomputers are ma...
Fundamental and phenomenological models for cells, stacks, and complete systems of PEFC and SOFC are...
Electrocatalysis may provide the solution to some of the most important energy and environmental pro...
Fuel cell systems are electrochemical energy converters, which can be applied for both, stationary a...
Vlachos, Dionisios G.Yan, YushanWithin the overarching goal of increasing energy sustainability and ...
This Ph.D. thesis focuses on testing and modelling PEMFC single cell systems, to better understand i...
Advances in theor. chem. and supercomputers are making it practical to consider first principles (de...
Dramatically improving the performance of fuel cell systems with their complex heterogeneous structu...
International audienceWe report a multi-paradigm model of the membrane chemical degradation in Polym...
It is desirable if we can achieve fundamental under-standing of the three-phase system consisting of...
In this paper, a large scale molecular dynamic method for reconstruction of the catalyst layers (CLs...
The catalyst layer (CL) of proton exchange membrane fuel cell (PEMFC) involves various particles and...
This thesis attempts to bridge science with technology applications by developing two lines of resea...
In this study, molecular dynamics (MD) simulations of hydrated anion-exchange membranes (AEMs), comp...
Polymer electrolyte membrane fuel cells (PEMFCs) fueled by hydrogen are considered to be most suitab...
Advances in theor. chem., computational chem., materials science, physics, and supercomputers are ma...
Fundamental and phenomenological models for cells, stacks, and complete systems of PEFC and SOFC are...
Electrocatalysis may provide the solution to some of the most important energy and environmental pro...
Fuel cell systems are electrochemical energy converters, which can be applied for both, stationary a...
Vlachos, Dionisios G.Yan, YushanWithin the overarching goal of increasing energy sustainability and ...
This Ph.D. thesis focuses on testing and modelling PEMFC single cell systems, to better understand i...
Advances in theor. chem. and supercomputers are making it practical to consider first principles (de...