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Defect engineering is recognized as an attractive method for modulating the electronic structure and physicochemical characteristics of carbon materials. Exploiting heteroatom‐doped porous carbon with copious active sites has attracted great attention for capacitive deionization (CDI). However, traditional methods often rely on the utilization of additional heteroatom sources and strong corrosive...
There is increasing demand to power Internet of Things devices using ambient energy sources. Flexible, low‐temperature, organic/inorganic thermoelectric devices are a breakthrough next‐generation approach to meet this challenge. However, these systems suffer from poor performance and expensive processing preventing wide application of the technology. In this study, by combining a ferroelectric polymer...
Covalent organic frameworks (COFs) with flexible periodic skeletons and ordered nanoporous structures have attracted much attention as potential candidate electrode materials for green energy storage and efficient seawater desalination. Further improving the intrinsic electronic conductivity and releasing porosity of COF‐based materials is a necessary strategy to improve their electrochemical performance...
Antimony‐based chalcogenides have emerged as promising candidates for next‐generation thin film photovoltaics. Particularly, binary Sb2S3 thin films have exhibited great potential for optoelectronic applications, due to the facile and low‐cost fabrication, simple composition, decent charge transport and superior stability. However, most of the reported efficient Sb2S3 solar cells are realized based...