Crossover magnetoresistance in non-transferred synthesized graphdiyne film

“…The distinctive surface charge distribution of GDY allows GDY to function as both an electron donor and acceptor in catalytic reactions. 17,18 Because of its excellent catalytic ability, transition metal oxides have been studied and applied as catalysts in fuel cells, capacitors, and biological fields in recent years. 19−21 Bimetallic oxides have many advantages, such as multiple oxidation states, high electrochemical conductivity, redox, and high theoretical potential.…”

“…Compared with the previous carbon materials, the GDY exhibits a distinctive atomic arrangement structure and forms a two-dimensional planar network through the hybridization of sp and sp 2 orbitals. − Because of its unique structure, GDY has good photoelectric properties, no Cis–trans isomerism isomers, high conjugation, and other advantages. , In recent years, graphene has also shined brightly in the field of photocatalysis. The distinctive surface charge distribution of GDY allows GDY to function as both an electron donor and acceptor in catalytic reactions. , …”

Graphdiyne (C_nH_2n–2) In Situ Anchored with Bimetallic Oxide MnCo₂O₄ Construct S-Scheme Heterojunction for Efficient Photocatalytic Hydrogen Evolution

“…The distinctive surface charge distribution of GDY allows GDY to function as both an electron donor and acceptor in catalytic reactions. 17,18 Because of its excellent catalytic ability, transition metal oxides have been studied and applied as catalysts in fuel cells, capacitors, and biological fields in recent years. 19−21 Bimetallic oxides have many advantages, such as multiple oxidation states, high electrochemical conductivity, redox, and high theoretical potential.…”

“…Compared with the previous carbon materials, the GDY exhibits a distinctive atomic arrangement structure and forms a two-dimensional planar network through the hybridization of sp and sp 2 orbitals. − Because of its unique structure, GDY has good photoelectric properties, no Cis–trans isomerism isomers, high conjugation, and other advantages. , In recent years, graphene has also shined brightly in the field of photocatalysis. The distinctive surface charge distribution of GDY allows GDY to function as both an electron donor and acceptor in catalytic reactions. , …”

Graphdiyne (C_nH_2n–2) In Situ Anchored with Bimetallic Oxide MnCo₂O₄ Construct S-Scheme Heterojunction for Efficient Photocatalytic Hydrogen Evolution

Ni/Graphdiyne composites inhibit dendrite growth in lithium metal anodes

Unsaturated magnetoresistance in polycrystalline graphite foils under high magnetic fields up to 50 T