This study significantly improved the photocatalytic hydrogen evolution performance of gold nanobipyramidal structures (Au NBs) with strong local electric fields by combining them with the covalent organic framework (COF) TpBD-COF through an in-situ growt
In January 2026, *Nature Communications* published online the latest research findings of Professor Wang Chongchen's team at Beijing University of Civil Engineering and Architecture in the field of MOF (Metal-Oxide-Film) for water pollution control. This
In January 2026, Acta Physico-Chimica Sinica published online the latest research achievement of Professor Yuekun Lai's group from Fuzhou University in the field of carbon nitride photocatalysis. This work reports the construction of an interface-enginee
First Author: Xuan YangCorresponding Authors: Daming Zhao, Liejin GuoAffiliations: Sun Yat-sen University; Xi’an Jiaotong UniversityDOI: 10.1002/anie.3903637 Full OverviewRecently, the research team led by Academician Liejin Guo and A
Against the backdrop of carbon peaking and carbon neutrality goals and the global clean energy transition, photoelectrocatalysis has emerged as a highly active research frontier in new energy and environmental science.
For a long time, traditional models have significantly underestimated sulfate concentrations during periods of heavy pollution. A research team from Nanjing University and Fudan University published a study in *JACS*, using ozone isotope tracing technolog
To address the core pain points of uneven illumination, limited heat and mass transfer, and difficult process scale-up, PerfectLight has launched the PLR DPCT-O50 Small Coiled-Tube Photoreactor, specifically designed for bench-scale exploration and proces
In research on photocatalytic overall water splitting, verifying whether the molar ratio of the products hydrogen (H₂) and oxygen (O₂) conforms to the stoichiometric ratio of 2:1 is one of the key criteria for determining whether a true overall water-spli
In traditional batch reactors, bubbles vary in size and are randomly distributed, making the gas–liquid interfacial area difficult to quantify; at the same time, as reaction volume increases, light attenuation in the deeper regions of the reaction medium
In recent years, photothermal catalysis has rapidly heated up in areas such as CO₂ conversion, methane reforming, and gas-phase pollutant control: by converting light energy into heat via broad‑spectrum light absorption and creating a high‑temperature rea