Metareview: a survey of active matter reviews

The European Physical Journal E, Journal Year: 2025, Volume and Issue: 48(2)

Published: Feb. 1, 2025

In the past years, amount of research on active matter has grown extremely rapidly, a fact that is reflected in particular by existence more than 1000 reviews this topic. Moreover, field become very diverse, ranging from theoretical studies statistical mechanics particles to applied work medical applications microrobots and biological systems artificial swimmers. This makes it difficult get an overview over as whole. Here, we provide such form metareview article surveys existing review articles books matter. Thereby, provides useful starting point for finding literature about specific

Language: Английский

Photoredox catalysis of acridinium and quinolinium ion derivatives

Bulletin of the Korean Chemical Society, Journal Year: 2024, Volume and Issue: unknown

Published: Dec. 9, 2024

Abstract Photoredox catalysis has attracted increasing attention because of wide range synthetic transformations and solar energy conversion applications. Reviews on photoredox have so far focused predominantly the This review highlights how organic catalysts were developed they function as efficient photocatalysts in mechanistic point views. In particular, 9‐mesityl‐10‐methylactidinium (Acr + –Mes) been highlighted one best catalysts. Acr –Mes was originally a model compound photosynthetic reaction center to mimic long lifetime charge‐separated state which is converted chemical photosynthesis. The reason why acts most catalyst clarified terms one‐electron redox potentials lifetimes electron‐transfer • •+ ) produced upon photoexcitation different solvents. mesityl substituent at 9‐position moiety essential for discussed comparison with acridinium ions substituents R –R) including 10‐methylacridinium ion no (AcrH ). mechanisms are various reactions mimicking quinolinium its derivatives also that –Mes. Finally, immobilization form composite improve catalytic activity stability.

Language: Английский

Breakthroughs in Photocatalytic Hydrogen Peroxide Production Through Advanced Mechanisms and Catalytic Systems

Advanced Sustainable Systems, Journal Year: 2025, Volume and Issue: unknown

Published: May 22, 2025

Abstract With the rapid development of clean energy, photocatalytic hydrogen peroxide (H₂O₂) production has emerged as a transformative strategy to decarbonize chemical industry, offering sustainable alternative fossil fuel‐dependent anthraquinone process. Nevertheless, in pathway H₂O₂ production, there are still series negative issues, such insufficient supply protons, difficulty separating electron–hole pair, and low utilization spatial reactive active sites. Therefore, is an urgent need for systematic review latest advancements further enhance production. In this review, three systems comprehensively discussed, oxygen reduction reaction (ORR) system with without sacrificial agents, water oxidation (WOR) accompanied by evolution reaction, dual coupling ORR WOR. By bridging molecular‐scale mechanistic insights system‐level innovation, not only explains fundamental mechanisms but also bridges lab‐scale breakthroughs industrial viability, positioning cornerstone green chemistry renewable energy storage, implications environmental remediation carbon‐neutral synthesis.

Language: Английский