In the global pursuit of clean energy transition and breakthroughs in carbon neutrality technology, photoelectrocatalysis (PEC) has emerged as a core pathway for mimicking artificial photosynthesis and achieving solar hydrogen production an

Among various analytical techniques, gas chromatography is frequently employed in photothermal catalytic research due to its high sensitivity to volatile components and strong separation capabilities. Whether it’s CO₂ reduction, meth

In the scientific journey of converting solar energy into chemical energy, photoelectrocatalysis (PEC) has shown a remarkably promising outlook. By applying an external bias to semiconductor materials, researchers can effectively "separate"

In the scientific landscape of solar-to-chemical energy conversion, photoelectrocatalysis (PEC) has become a core technological pathway in artificial photosynthesis research due to its ingenious combination of light excitation and external

"Mapping the Quantum Efficiency Landscape of Photoelectrocatalytic Energy Conversion"In the contemporary landscape of renewable energy and carbon-neutral technologies, photoelectrocatalysis (PEC) has emerged as a pivotal research frontier w

In the global scientific endeavor to address climate change and energy crises, artificial photosynthesis (AP) is regarded as one of the ultimate technological pathways to achieve the ambitious goal of carbon neutrality. Its core principle l

In the grand quest for alternatives to fossil fuels, hydrogen energy is hailed as a cornerstone of future energy systems due to its high energy density and zero carbon emissions. Among the various hydrogen production technologies, solar-dri

In the grand narrative of global energy transition and carbon reduction, hydrogen is highly anticipated, and "photocatalytic water splitting for hydrogen production" is vividly regarded as the "holy grail" of the energy sector, as it c

Amid the global efforts to tackle climate change and transition to sustainable energy, the conversion of greenhouse gas carbon dioxide (CO₂) into economically valuable green fuels or high-value chemicals has emerged as a central challenge

“In the grand context of global carbon-neutral strategies, converting industrial CO₂ emissions into high-value fuels or chemicals has emerged as one of the most formidable challenges in contemporary chemistry and energy science. Arti

On the scientific journey to address global climate change and energy security challenges, artificial photosynthesis (AP) is recognized as one of the ultimate pathways for achieving the “carbon-neutral” vision. Its core scientif

In the landscape of modern energy conversion science, the photoelectric effect and photochemical reactions are not isolated physical or chemical phenomena; rather, they constitute the twin pillars underpinning artificial photosynthesis and