Negative gas adsorption transitions and pressure amplification phenomena in porous frameworks [0.03%]
多孔材料中的负吸附及压力放大现象研究进展
Simon Krause,Jack D Evans,Volodymyr Bon et al.
Simon Krause et al.
Nanoporous solids offer a wide range of functionalities for industrial, environmental, and energy applications. However, only a limited number of porous materials are responsive, i.e. the nanopore dynamically alters its size and shape in re...
Influence of π-π interactions on organic photocatalytic materials and their performance [0.03%]
π-π相互作用对有机光催化剂材料及性能的影响
Liquan Jing,Pandeng Li,Zheng Li et al.
Liquan Jing et al.
Currently, organic photocatalyst-based photocatalysis has garnered significant attention as an environmentally friendly and sustainable reaction system due to the preferable structural flexibility and adjustable optoelectronic features of o...
Alessandro Molle,Junji Yuhara,Yukiko Yamada-Takamura et al.
Alessandro Molle et al.
Since the debut of silicene in the experimental stage more than a decade ago, the family of two-dimensional elementary layers beyond graphene, called Xenes or transgraphenes, has rapidly expanded to include elements from groups II to VI of ...
Covalent organic frameworks as superior adsorbents for the removal of toxic substances [0.03%]
共价有机框架作为优异的吸附剂应用于去除有毒物质
Yubo Li,Jinxia Wei,Jian Wang et al.
Yubo Li et al.
Developing new materials capable of the safe and efficient removal of toxic substances has become a research hotspot in the field of materials science, as these toxic substances pose a serious threat to human health, both directly and indir...
Shaoxiong He,Yanxi Chen,Jingyun Fang et al.
Shaoxiong He et al.
Solar-driven photocatalytic technology holds significant potential for addressing energy crisis and mitigating global warming, yet is limited by light absorption, charge separation, and surface reaction kinetics. The past several years has ...
Unified approaches in transition metal catalyzed C(sp3)-H functionalization: recent advances and mechanistic aspects [0.03%]
过渡金属催化C(sp3)−H功能化的统一策略:近期进展和机理方面研究
Jagrit Grover,Amal Tom Sebastian,Siddhartha Maiti et al.
Jagrit Grover et al.
In organic synthesis, C(sp3)-H functionalization is a revolutionary method that allows direct alteration of unactivated C-H bonds. It can obviate the need for pre-functionalization and provides access to streamlined and atom economical rout...
Affinity descriptor of metal catalysts: concept, measurement and application of oxygen affinity in the catalytic transformation of oxygenates [0.03%]
金属催化剂亲和性描述符:氧气亲和性的概念、测量及含氧化合物催化转化中的应用
Huixiang Li,Zhipeng Huang,Chaofeng Zhang et al.
Huixiang Li et al.
Multiple oxygenate groups in biomass-based feedstocks are open to multiple catalytic pathways and products, typically resulting in low selectivity for the desired products. In this context, strategies for rational catalyst design are critic...
Chiral-at-metal catalysts: history, terminology, design, synthesis, and applications [0.03%]
中心手性金属催化剂:历史、术语、设计、合成和应用
Lilu Zhang,Eric Meggers
Lilu Zhang
For decades, advances in chiral transition metal catalysis have been closely tied to the development of customized chiral ligands. Recently, however, an alternative approach to this traditional metal-plus-chiral-ligand method has emerged. I...
Correction: From photocatalysis to photon-phonon co-driven catalysis for methanol reforming to hydrogen and valuable by-products [0.03%]
纠正:从光催化到光声共驱动催化甲醇重整制氢及增值副产物反应机制研究
Hui Wang,Eleana Harkou,Achilleas Constantinou et al.
Hui Wang et al.
Correction for 'From photocatalysis to photon-phonon co-driven catalysis for methanol reforming to hydrogen and valuable by-products' by Hui Wang et al., Chem. Soc. Rev., 2025, https://doi.org/10.1039/d4cs00551a.
Published Erratum
Chemical Society reviews. 2025 Jan 21. DOI:10.1039/d5cs90005k 2025
High power output density organic thermoelectric devices for practical applications in waste heat harvesting [0.03%]
用于废热回收实用应用的高功率输出密度有机温差发电器件
Xin Hao,Jing Wang,Hong Wang
Xin Hao
Organic thermoelectric (TE) materials are of great interest for researchers in waste heat recovery, especially for waste heat harvesting at near room temperature. Significant progress has been achieved in terms of their figure of merit (zT)...