Abstract

Recent years have witnessed an incredibly high interest in perovskite-based materials. Among this class, metal halide perovskites (MHPs) have attracted a lot of attention due to their easy preparation and excellent opto-electronic properties, showing a remarkably fast development in a few decades, particularly in solar light-driven applications. The high extinction coefficients, the optimal band gaps, the high photoluminescence quantum yields and the long electron–hole diffusion lengths make MHPs promising candidates in several technologies. Currently, the researchers have been focusing their attention on MHPs-based solar cells, light-emitting diodes, photodetectors, lasers, X-ray detectors and luminescent solar concentrators. In our review, we firstly present a brief introduction on the recent discoveries and on the remarkable properties of metal halide perovskites, followed by a summary of some of their more traditional and representative applications. In particular, the core of this work was to examine the recent progresses of MHPs-based materials in photocatalytic applications. We summarize some recent developments of hybrid organic–inorganic and all-inorganic MHPs, recently used as photocatalysts for hydrogen evolution, carbon dioxide reduction, organic contaminant degradation and organic synthesis. Finally, the main limitations and the future potential of this new generation of materials have been discussed.

Highlights

  • Environmental sustainability and the development of alternative and renewable energy supplies represent two of the major challenges of the current society [1,2]

  • 20 of years, metal promising halide perovskites have received a remarkable amount of attention the most materials(MHPs) in the photovoltaic field, due to their excellent optoelectronic

  • In contrast with the conventional semiconductors, whose band gaps are formed between bonding and antibonding orbitals, in metal halide perovskites (MHPs) the valence band edge shifts in energetic levels, according to the halogen component, while only small changes are ascribed to the conduction band edges [132]

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Summary

Introduction

Environmental sustainability and the development of alternative and renewable energy supplies represent two of the major challenges of the current society [1,2]. Solar-light based engineering can provide cost-effective and efficient applications, and recent great developments have been achieved using such a sustainable and green source of power. From this perspective, photocatalysis is considered one of the main routes for an efficient utilization of solar-light energy. 20 of years, metal promising halide perovskites have received a remarkable amount of attention the most materials(MHPs) in the photovoltaic field, due to their excellent optoelectronic. We has aimwitnessed to briefly introduce halide perovskites, materials as photocatalysts; this topic incredibly metal fast development in the reviewing optical and). We aim to briefly introduce metaltheir halide perovskites, reviewing applications Their optical and electrochemical properties, and especially their potential in photocatalytic applications

Heterogeneous Photocatalysis
Background on Metal Halide Perovskites
Outstanding Properties of MHPs as Photocatalyst
Extended Optical Absorption Range
Direct Generation of Free Charge Carriers
Long-Range Balanced and Ambipolar Charge Carrier Transport Properties
Point-Defect Tolerance and Reduced Recombination Centers
Photocatalytic CO2 Reduction
Photocatalytic H2 Evolution
Photocatalytic Removal of Organic Contaminants
Photocatalytic Organic Synthesis
Findings
Current Limitations and Future Perspectives

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