Crystalline@amorphous core-shell structure of WO3 @WO3-x Sx established via doping strategy for enhancing magnesium ions storage performance.13(3):

Stable multi-electron reaction stimulated by W doping VS4 for enhancing magnesium storage performance.89(-):

Excellent high temperature field emission behavior with an ultra-low turn-on field and reliable current emission stability from SiC@SiO<inf>2</inf>@graphene nanoarray emitters.6(11):

Net-like SiC@C coaxial nanocable towards superior lightweight and broadband microwave absorber. (179):

Morphology-Dependent Electrochemical Performance of VS4 for Rechargeable Magnesium Battery and Its Magnesiation/Demagnesiation Mechanism. (451):

Designable synthesis of reduced graphene oxide modified using CoFe<inf>2</inf>O<inf>4</inf> nanospheres with tunable enhanced microwave absorption performances between the whole X and Ku bands.190(-):

Designable synthesis of reduced graphene oxide modified using CoFe2O4 nanospheres with tunable enhanced microwave absorption performances between the whole X and Ku bands. (190):

Synthesis of CF@PANI hybrid nanocomposites decorated with Fe3O4 nanoparticles towards excellent lightweight microwave absorber.174(No):

Mo-doped VS4 with interlayer-expanded and engineering sulfur vacancies as cathode for advanced magnesium storage.417( ):

Synergy Strategy of Electrical Conductivity Enhancement and Vacancy Introduction for Improving the Performance of VS4 Magnesium-Ion Battery Cathode.13(45):