Solar‐driven water electrolysis has been considered to be a promising route to produce
green hydrogen, because the conventional water electrolysis system is not completely …

Hydrogen, produced through a zero‐pollution, sustainable, low‐cost, and high‐efficiency
process, is regarded as the “ultimate energy” of the 21st century. Solar water‐splitting …

Production of hydrogen fuel from sunlight and water, two of the most abundant natural
resources on Earth, offers one of the most promising pathways for carbon neutrality,–. Some …

Achieving high solar-to-hydrogen (STH) efficiency concomitant with long-term durability
using low-cost, scalable photo-absorbers is a long-standing challenge. Here we report the …

Alkaline oxygen evolution reaction is critical for green hydrogen production from water
electrolysis but encounters great challenges when operated at industry-required ampere …

Hydrogen is an essential energy carrier which will address the challenges posed by the
energy crisis and climate change. Photoelectrochemical water splitting (PEC) is an important …

The cost‐effective, robust, and efficient electrocatalysts for photoelectrochemical (PEC)
water‐splitting has been extensively studied over the past decade to address a solution for …

Solar water splitting is a promising approach to transform sunlight into renewable,
sustainable and green hydrogen energy. There are three representative ways of …

To accelerate the deployment of hydrogen produced by renewable solar energy, several
technologies have been competitively developed, including photoelectrochemical (PEC) …

Molecular catalysis plays an essential role in both natural and artificial photosynthesis (AP).
However, the field of molecular catalysis for AP has gradually declined in recent years …