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

Photothermal catalytic oxidation of VOCs (volatile organic compounds) technology, as an interdisciplinary frontier between energy conversion and environmental remediation, is increasingly becoming a core route for treating industrial low‑c

Photocatalysis and photoelectrocatalysis are two core technological routes that use solar energy to drive chemical transformations. Although both are physically based on semiconductor photoexcitation, they differ significantly in carrier‑d

Photocatalytic hydrogen production is a semiconductor energy conversion technology that mimics natural photosynthesis to convert low‑density solar energy into high‑energy‑density chemical energy (hydrogen). For researchers and engineers

A photochemical reactor is a device that uses light energy to drive chemical reactions, widely applied in pharmaceutical synthesis, environmental remediation, and energy conversion.

Imagine the process of photosynthesis in plants—sunlight, water, and air being transformed into nutrients and oxygen with the help of chlorophyll.

Imagine a technology that, like plants, can use sunlight to convert carbon dioxide (CO₂) from the air into fuels or useful chemicals.

Imagine if we could, like plants, use sunlight and water to produce clean energy—this is not a distant science fiction scenario, but a frontier technology flourishing in laboratories worldwide: photocatalytic water splitting for hydrogen production.

In photocatalysis experiments, you may notice that xenon lamps sometimes brighten and then dim. This is not a malfunction, but a reflection of their working characteristics.

Imagine if sunlight could not only illuminate our lives but also act like a “super chef,” accelerating chemical reactions and even generating new energy and materials at high temperatures.

Have you ever wondered—can humans, like plants, use light to create valuable substances? This is the essence of organic photosynthesis—a cutting-edge science that allows chemists to “harness” light energy in the laboratory to precisely synthesize new mole