Since more than 25 years, the \u201cCheMaMSE\u201d (Chemistry of Materials for the Metamorphosis and the Storage of Energy, www.chimica.unipd.it/lab_DiNoto/) research group, led by Prof. Vito Di Noto, is at the forefront of the research in the field of advanced nanostructured functional materials for a wide number of device families, including fuel cells (FC), electrolyzers, secondary batteries, supercapacitors, and dye-sensitized solar cells (DSSCs). The know-how of the CheMaMSE group covers the entire value chain of the research, from the preparation, characterization of the functional materials (such as: polymer electrolytes, ionic liquid, electrocatalysts, cathode, etc\u2026) and their applications in devices. In fact, the most promi...
In this dissertation, three major topics in electrochemical energy storage and conversion systems ar...
The book "Advanced Materials for Electrochemical Energy Conversion and Storage Devices" reports new,...
Environmental problems lead to the need for new technologies in the fields of energy production and ...
Energy has become one of the predominant scientific research areas in the 21st century. Fossil fuels...
We illustrate our current work for electrochemical energy generation and storage (i.e., fuel cells a...
Our research activity is focusing on the investigation of both basic and applied aspects of nanostru...
Electrochemical energy storage is becoming essential for portable electronics, electrified transport...
Fuel cells have the potential to become an important energy conversion technology. Research attempt...
Achieving a secure and sustainable energy future is one of the greatest scientific, technological an...
The discovery and understanding of new, improved materials to advance fuel cell technology are the o...
One of the greatest challenges for the modern world is the ever-increasing demand of energy, which m...
The PhD project has been performed in the Surfaces and Catalysts group active in the Department of C...
International audienceFuel cells, as a highly efficient energy conversion technology, and hydrogen, ...
The recent growth in worldwide installation of renewable energy and the need for CO₂ capture and uti...
Driven by the flourishing of renewable energy sources and increasing demands of portable electronics...
In this dissertation, three major topics in electrochemical energy storage and conversion systems ar...
The book "Advanced Materials for Electrochemical Energy Conversion and Storage Devices" reports new,...
Environmental problems lead to the need for new technologies in the fields of energy production and ...
Energy has become one of the predominant scientific research areas in the 21st century. Fossil fuels...
We illustrate our current work for electrochemical energy generation and storage (i.e., fuel cells a...
Our research activity is focusing on the investigation of both basic and applied aspects of nanostru...
Electrochemical energy storage is becoming essential for portable electronics, electrified transport...
Fuel cells have the potential to become an important energy conversion technology. Research attempt...
Achieving a secure and sustainable energy future is one of the greatest scientific, technological an...
The discovery and understanding of new, improved materials to advance fuel cell technology are the o...
One of the greatest challenges for the modern world is the ever-increasing demand of energy, which m...
The PhD project has been performed in the Surfaces and Catalysts group active in the Department of C...
International audienceFuel cells, as a highly efficient energy conversion technology, and hydrogen, ...
The recent growth in worldwide installation of renewable energy and the need for CO₂ capture and uti...
Driven by the flourishing of renewable energy sources and increasing demands of portable electronics...
In this dissertation, three major topics in electrochemical energy storage and conversion systems ar...
The book "Advanced Materials for Electrochemical Energy Conversion and Storage Devices" reports new,...
Environmental problems lead to the need for new technologies in the fields of energy production and ...