Add to ORKGMy research has been focused on characterization and control of the interfacial processes in advanced electrochem. systems presented by solid acid fuel cells (SAFC) and Li ion batteries. The performance of these electrochem. systems is closely related to the processes occurring at the interface of electrodes and electrolytes. The electrocatalysis at the interface of the super-protonic (at 245 °C) CsH_2PO_4 solid acid and electrodes occurs at active sites which are also accessible to the humidified gases. Pt remains the best catalyst for both H_2 oxidn. and O_2 redn. reactions in the anodes and cathodes of the solid acid fuel cells. Since the electrocatalysis of the H_2 → H+ is an efficient process at 245 °C, the structure of the interface p...
The application potential of Li-ion batteries is growing as demand increases in different fields at ...
The stability of electrode/electrolyte interfaces in Li-ion batteries is crucial to the performance,...
We illustrate our current work for electrochemical energy generation and storage (i.e., fuel cells a...
The performance of a solid-state electrochemical system depends critically on the transport process ...
Electrochemical energy systems are dominated by interfacial phenomena. Catalysis, corrosion, electri...
In recent decades, electronics, electric vehicles, and grid systems have evolved significantly but r...
Energy storage is a rapidly emerging field. In almost all energy storage applications, surfaces and ...
393 pagesElectrocatalysis has been the cornerstone for enhancing energy efficiency, minimizing envir...
In the last decade, lithium ion batteries held a major role in the path towards personal electronics...
Since the micrometer-sized bulk materials have reached their inherent limits, development of new mat...
The current commercial lithium ion battery utilizes “host-guest” electrodes that allow for the inter...
This thesis focuses on interfacial processes in Li ion batteries. Rechargeable Li-ion batteries are ...
Solid electrolytes hold the promise of improved safety and superior electrochemical stability in ene...
The cathode/electrolyte interface stability is the key factor for the cyclic performance and the saf...
This book shares essential insights into the formation and properties of ionic interfaces based on t...
The application potential of Li-ion batteries is growing as demand increases in different fields at ...
The stability of electrode/electrolyte interfaces in Li-ion batteries is crucial to the performance,...
We illustrate our current work for electrochemical energy generation and storage (i.e., fuel cells a...
The performance of a solid-state electrochemical system depends critically on the transport process ...
Electrochemical energy systems are dominated by interfacial phenomena. Catalysis, corrosion, electri...
In recent decades, electronics, electric vehicles, and grid systems have evolved significantly but r...
Energy storage is a rapidly emerging field. In almost all energy storage applications, surfaces and ...
393 pagesElectrocatalysis has been the cornerstone for enhancing energy efficiency, minimizing envir...
In the last decade, lithium ion batteries held a major role in the path towards personal electronics...
Since the micrometer-sized bulk materials have reached their inherent limits, development of new mat...
The current commercial lithium ion battery utilizes “host-guest” electrodes that allow for the inter...
This thesis focuses on interfacial processes in Li ion batteries. Rechargeable Li-ion batteries are ...
Solid electrolytes hold the promise of improved safety and superior electrochemical stability in ene...
The cathode/electrolyte interface stability is the key factor for the cyclic performance and the saf...
This book shares essential insights into the formation and properties of ionic interfaces based on t...
The application potential of Li-ion batteries is growing as demand increases in different fields at ...
The stability of electrode/electrolyte interfaces in Li-ion batteries is crucial to the performance,...
We illustrate our current work for electrochemical energy generation and storage (i.e., fuel cells a...
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