Functional Materials for Electrocatalytic Energy Conversion

Functional Materials for Electrocatalytic Energy Conversion

Qin, Yuchen; Zhang, Zhicheng; Zhao, Meiting

Wiley-VCH Verlag GmbH

01/2025

592

Dura

9783527353651

Pré-lançamento - envio 15 a 20 dias após a sua edição

Descrição não disponível.
Part I Introduction

Part II Theoretic calculation for electrocatalytic energy conversion
1 Computational electrocatalysis models for energy conversion
2 Electrocatalytic reaction mechanism for energy conversion
3 Machine learning for energy conversion

Part III Advanced functional materials for hydrogen evolution reaction (HER)
4 Metal-based materials for HER
5 Metallic compounds for HER
6 Carbon-based materials for HER
7 Porous materials for HER

Part IV Advanced functional materials for oxygen reduction reaction (ORR)
8 Metal-based materials for ORR
9 Carbon-based materials for ORR
10 Porous materials for ORR

Part V Advanced functional materials for oxygen evolution reaction (OER)
11 Metal-based materials for OER
12 Metallic compounds for OER
13 Porous materials for OER

Part VI Advanced functional materials for CO2 reduction reaction (CO2RR)
14 Cu-based metal materials for CO2RR
15 Non-Cu metal-based materials for CO2RR
16 Carbon-based materials for CO2RR
17 Porous materials for CO2RR
18 Other materials for CO2RR

Part VII Advanced functional materials for N2 reduction reaction (NRR)
19 Metal-based materials for NRR
20 Carbon-based materials for NRR
21 Porous materials for NRR

Part VIII Advanced functional materials for liquid fuel oxidation (LFO)
22 Metal-based materials for LFO
23 Non-noble metal-based materials for LFO
24 Other materials for LFO

Part IX Advanced functional materials for electrocatalytic biomass conversion
25 Metal-based materials for electrocatalytic biomass conversion
26 Porous materials for electrocatalytic biomass conversion

Part X Summary and outlook
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Renewable energy; sustainable energy; clean energy; climate change; electrocatalysis; photovoltaic processes; functional nanomaterials; oxygen reduction; oxygen evolution; liquid fuel oxidation; electrocatalytic biomass conversion