As a core pathway for achieving "artificial photosynthesis," photocatalytic technology fundamentally utilizes excited charge carriers generated in semiconductor materials under illumination to drive redox reactions, thereby enabling cross-d

As one of the most common volatile organic compounds (VOCs) in indoor decoration and industrial production, formaldehyde poses long-term risks to human respiratory health and represents a challenging target molecule in environmental chemist

In the scientific pursuit of addressing the energy crisis and achieving "carbon peak and carbon neutrality," photocatalytic water splitting is regarded as a core pathway for realizing "artificial photosynthesis." The fundamental princi

Photocatalytic water splitting for hydrogen production is considered a core pathway to achieving "artificial photosynthesis" and is widely recognized as one of the most promising frontier technologies for addressing the global energy crisis

In the field of photocatalysis research, the photocatalytic reaction instrument has evolved from early simple light-source-plus-flask setups into integrated research platforms that combine precise irradiation, multi-channel parallel screeni

Photocatalytic materials are the core carriers for achieving "artificial photosynthesis." Essentially, they are semiconductor materials capable of absorbing photon energy and generating active charge carriers (electrons and holes) to drive

在环境修复领域，光催化降解技术被视为一种极具前景的“绿色氧化”手段。其核心机理是利用半导体材料在光照下产生的强氧化性活性物种，将有机污染物（如VOCs、抗生素、染料等）深度矿化为二氧化碳（CO₂）、水（H₂O）及无害的小分子无机物。对于科研人员而言，理解这

The efficient abatement of volatile organic compounds (VOCs) is a cross-disciplinary focus spanning environmental science and energy conversion, with the core challenge being the development of catalytic systems featuring high stability and deep mineraliz

The efficient abatement of volatile organic compounds (VOCs) is a central focus in the field of environmental remediation. Regarding the question of whether biodegradation can remove VOCs, the answer is affirmative. Biodegradation typically

In research on photocatalytic hydrogen (H2) production, carbon dioxide (CO2) reduction, and solar cells, the accurate measurement of light radiation intensity is a key prerequisite for calculating quantum efficiency and energy conversion ef

In research on photocatalysis, photoelectrochemistry, and solar cells, light radiation intensity (irradiance) is a core physical parameter that determines reaction rates and energy conversion efficiency. To ensure experimental reproducibili

Photocatalytic technology, as a pathway of “artificial photosynthesis” capable of directly converting low‑density solar energy into high‑energy‑density chemical energy, has expanded from early basic mechanism studies into mul