Dear Colleagues,

The problem of global warming and global climate change cannot be ignored in any discussion regarding long-term environment policy—and the solution, as part of a comprehensive sustainable energy plan, is reducing or stopping greenhouse gas emissions which are generated through the release of naturally sequestered carbon via the human practice of burning fossil fuels. The ever-increasing detrimental effects of traditional fuels on the environment have stimulated extensive efforts worldwide to develop green and renewable energy technologies, including fuel cells, metal-air batteries and water-splitting systems. The fundamental electrochemical reaction mechanisms behind these renewable energy technologies are oxygen reduction reaction (ORR), oxygen evolution reaction (OER) and hydrogen evolution reaction (HER). Indeed, the ORR is the heart of fuel cells, while the OER and HER are of paramount importance to metal-air batteries and electrochemical water-splitting systems. However, the large intrinsic overpotential associated with sluggish OER on anode and HER on the cathode make these electrochemical reactions inefficient. Thus, it is imperative to develop highly active catalysts to reduce the overpotential dramatically. So far, numerous promising nanocatalysts have been demonstrated, including i) multimetal oxide compound nanomaterials such as layered hydroxide, spinel and amorphous metal oxides; ii) metal-free nanocatalysts such as carbon nanotubes (CNTs), graphene, graphite, carbon nitride and 3D carbon architectures; iii) metallic transition–metal dichalcogenide (TMDC) nanocatalysts, where M represents a transition metal atom typically from group IVB to VIIB in the periodic table and X is a chalcogen atom such as S, Se, or Te; iv) Perovskite oxides (POs) such as ABO_3±δ (where, A is alkaline or rare earth cations, B is first- row transition metal cations and δ is oxygen non-stoichiometry), Ruddlesden–Popper (A_{n+ 1}B_nO_{3n + 1}), Dion–Jacobson (A_nB_nO_{3n + 1}), Aurivillius (Bi₂A_n-1B_nO_{3n + 3}) homologous series, double- (A₂BB’O₆) and triple- (A₂A’B₂B’O₉) layered POs, etc.

This Special Issue will focus on experimental and theoretical investigations into new nanocatalysts for the ORR, OER and HER, with a particular interest in the noble-metal-free or metal-free nanomaterials. Fundamental, applied studies, theoretical studies and advanced characterizations (structure, morphology, or interface charge transfer) are of interest. Additionally relevant are reports that detail new nanocatalysts for photoelectrolysis for water splitting, photocathodic protection and electrochemical organic degradation. The hope is to compile a set of manuscripts that inform the field of the state-of-the-art in electrochemical nanocatalysis.

Dr. Bo Hou
Guest Editor

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• oxygen reduction reaction (ORR)
• oxygen evolution reaction (OER)
• hydrogen evolution reaction (HER)
• bifunctional electrocatalyst
• metal-air batteries
• water splitting
• carbon materials
• perovskite oxide
• photocathodic protection
• electrochemical organic degradation
• electrochemical supercapacitor
• fuel cells
• solar fuels
• photoelectrolysis
• density functional theory
• molecular dynamics
• electron microscopy
• electrochemical impedance spectroscopy