Using sunlight to power CO2 conversion into value-added chemicals and fuels is a
promising technology to use anthropogenic CO2 emissions for alleviating our dependence …

The concentration of atmospheric CO 2 has exceeded 400 ppm, surpassing its natural
variability and raising concerns about uncontrollable shifts in the carbon cycle, leading to …

Synchronized conversion of CO2 and H2O into hydrocarbons and oxygen via infrared-
ignited photocatalysis remains a challenge. Herein, the hydroxyl-coordinated single-site Ru …

Ball milling is a representative mechanochemical strategy that uses the mechanical agitation-
induced effects, defects, or extreme conditions to activate substrates. Here, we demonstrate …

Atomically dispersed active sites in a photocatalyst offer unique advantages such as locally
tuned electronic structures, quantum size effects, and maximum utilization of atomic species …

Heterojunction photocatalysts have been demonstrated to be effective for the interfacial
charge transfer and utilization, if the charge transfer in bulk phase can be promoted, more …

Abstract TiO 2 nanofibers (NFs,< 1000 nm) with the merits of one-dimensional (1D) structure,
adjustable surface active sites, excellent electro-and photochemical properties, nontoxicity …

Solar-driven conversion of CO 2 into high-value-added chemicals is considered as one of
the effective strategies to address global climate change. However, the sluggish charge …

Titanium dioxide (TiO2) stands out as a versatile transition‐metal oxide with applications
ranging from energy conversion/storage and environmental remediation to sensors and …

Contact-electro-catalysis (CEC) is an emerging field that utilizes electron transfer occurring
at the liquid–solid and even liquid–liquid interfaces because of the contact-electrification …