In the forefront of current research on energy chemistry and environmental management, gas-solid catalytic reactions hold a very high significance. Whether it is reducing CO₂ to high-value fuels through artificial photosynthesis, or achiev

In the context of addressing global warming and the energy crisis, artificial photosynthesis driven by solar energy has become a frontier in scientific research. However, sunlight is an extremely broad continuous spectrum, extending from ul

In the grand narrative of renewable energy research, producing hydrogen through solar-driven water splitting has been hailed as the “holy grail” of chemistry. With global attention on “green hydrogen” technologies continuing to rise, research on photocata

In the journey of reconstructing a low-carbon energy system, artificial photosynthesis driven by solar energy is seen as a core path to the future. However, for researchers on the front lines of science, the broad-spectrum nature of sunligh

In the long journey of seeking alternatives to fossil fuels, hydrogen, with its clean and high-efficiency characteristics, has always been regarded as a core element in the clean energy landscape. Among various hydrogen production pathways,

Behind the scenes of modern industrial production, the management of volatile organic compounds (VOCs) remains a long-term and arduous battle. Whether in fine chemicals, spraying, printing, or leather processing, these gases, which emit odo

In the grand narrative of clean energy exploration, producing “green hydrogen” through solar-driven water splitting is regarded as the “holy grail” of energy transition. The reaction mechanism of photocatalytic water splitting lies at the intersection of

In the research of artificial photosynthesis driven by solar energy, photons are not merely background energy but serve as the core “reagents” that trigger catalytic cycles. Sunlight, being an extremely broad continuous spectrum

In the grand vision of the global energy transition, generating green hydrogen by using solar energy to drive water splitting is regarded as the ultimate pursuit of the scientific community. The realization of this process relies not only on the developme

At the forefront of contemporary energy chemistry, photothermal synergistic catalysis is emerging as a focal point for reshaping the zero-carbon chemical landscape through its enhancement effects that go beyond single energy fields. This te

In the pursuit of zero-carbon energy solutions, photocatalytic water-splitting hydrogen production has attracted significant attention due to its ability to directly convert solar energy into chemical energy. As the core enabling platform, photocatalytic

At the forefront of contemporary energy chemistry, photothermal synergistic catalysis is becoming a focal point for reshaping the zero-carbon chemical landscape with its enhancement effects that surpass single energy fields. This technology