Single-atom catalysis has been recognized as a pivotal milestone in the development
history of heterogeneous catalysis by virtue of its superior catalytic performance, ultrahigh …

Vacancy defect engineering has been well leveraged to flexibly shape comprehensive
physicochemical properties of diverse catalysts. In particular, growing research effort has …

Electronic structure engineering lies at the heart of the catalyst design, however, utilizing
one strategy to modify the electronic structure is still challenging to achieve optimal …

Dinitrogen conversion to ammonia via electrochemical reduction with over 10% Faradaic
efficiency is demonstrated in this work. Co-doped MoS2-x polycrystalline nanosheets with S …

Tremendous efforts have been devoted to preparing the ultrathin two‐dimensional (2D)
transition‐metal dichalcogenides (TMDCs) and TMDCs‐based heterojunctions owing to …

Abstract 2D transition metal dichalcogenides (TMDCs) have emerged as promising
candidates for post‐silicon nanoelectronics owing to their unique and outstanding …

Sustainable developments of nanotechnology necessitate the exploration of structure-
activity relationships (SARs) at nano-bio interfaces. While ferroptosis may contribute in the …

Two-dimensional (2D) transition metal dichalcogenides (TMDs) and their heterostructures
have attracted significant interest in both academia and industry because of their unusual …

Under mild conditions, carbon dioxide reduction reactions (CO 2 RRs) retain a tremendous
complexity in effective CO 2 activation on metal based catalysts. Single-atom catalysts are …

Atomically thin transition metal dichalcogenide crystals (TMDCs) have extraordinary optical
properties that make them attractive for future optoelectronic applications. Integration of …