Efficiency, stability, sustainability and integration of energy devices are milestone targets towards world electrification and renewable sources-dependent society. In this talk, new strategies for materials design, use of biosourced components, unconventional device architectures and structure-propriety-performance correlation will be shown for the design of different energy devices for the storage and conversion of energy. In particular, the lecture will cover these intriguing aspects in the current energy scenario: • Solar fuels from emerging conversion technologies. • The design of stable cell components for post-Li batteries; • The transition towards aqueous photovoltaics. • The use new materials for allowing the design of integrated conversion/storage systems for cities and industries. The importance of considering sustainability, stability and industrial scalability as main targets in the research work will be stressed, along with a real consideration of efficiency results presented in the literature.
Electrochemistry for energy: conversion, storage and integration for a self-powered society / Bella, F.. - ELETTRONICO. - (2022), pp. 19-19. (Intervento presentato al convegno Junior Euromat 2022 tenutosi a Coimbra (Portugal) nel 19 - 22 JULY 2022).
Electrochemistry for energy: conversion, storage and integration for a self-powered society
F. Bella
2022
Abstract
Efficiency, stability, sustainability and integration of energy devices are milestone targets towards world electrification and renewable sources-dependent society. In this talk, new strategies for materials design, use of biosourced components, unconventional device architectures and structure-propriety-performance correlation will be shown for the design of different energy devices for the storage and conversion of energy. In particular, the lecture will cover these intriguing aspects in the current energy scenario: • Solar fuels from emerging conversion technologies. • The design of stable cell components for post-Li batteries; • The transition towards aqueous photovoltaics. • The use new materials for allowing the design of integrated conversion/storage systems for cities and industries. The importance of considering sustainability, stability and industrial scalability as main targets in the research work will be stressed, along with a real consideration of efficiency results presented in the literature.Pubblicazioni consigliate
I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.
https://hdl.handle.net/11583/2980502