One-step growth of the interconnected carbon nanotubes/graphene hybrids from cuttlebone-derived bi-functional catalyst for lithium-ion batteries

“…The molecular orbital can be transformed into the electric/magnetic dipole moment density after a certain unitary transformation. 47,48 Then, the intensity of the ECD spectrum is proportional to the tensor product |hj j |m e |j i ihj j |m m |j i i| 2 .…”

“…A C atom forms various carbon allotropes through three hybridized states of sp 3 , sp 2 and sp, such as diamond with sp 3 hybridization, 1 carbon nanotubes with sp 3 and sp 2 hybridization, 2 fullerene 3 and graphene. 4 Among them, the CRC bond formed by the sp hybrid state in graphyne (GY) [5][6][7][8] has the advantages of a linear structure, no cis-trans isomerism and high conjugacy, 9 and exhibits excellent electrical, optical, and photoelectric properties, and graphyne will become the key material for the next generation of new electronic and photoelectric devices.…”

“…2D GY is a new allotrope of carbon formed from the hybridization of sp and sp 2 , which can be seen as a third of graphene C-C inserted with two CRC (alkyne or acetylene) bonds. This gives the GY not only a benzene ring, but also a large triangular ring made of a benzene ring, and CRC bond with 18 carbon atoms.…”

Physical mechanism on the linear spectrum and nonlinear spectrum in a twist bilayer graphdiyne nanodisk

“…The molecular orbital can be transformed into the electric/magnetic dipole moment density after a certain unitary transformation. 47,48 Then, the intensity of the ECD spectrum is proportional to the tensor product |hj j |m e |j i ihj j |m m |j i i| 2 .…”

“…A C atom forms various carbon allotropes through three hybridized states of sp 3 , sp 2 and sp, such as diamond with sp 3 hybridization, 1 carbon nanotubes with sp 3 and sp 2 hybridization, 2 fullerene 3 and graphene. 4 Among them, the CRC bond formed by the sp hybrid state in graphyne (GY) [5][6][7][8] has the advantages of a linear structure, no cis-trans isomerism and high conjugacy, 9 and exhibits excellent electrical, optical, and photoelectric properties, and graphyne will become the key material for the next generation of new electronic and photoelectric devices.…”

“…2D GY is a new allotrope of carbon formed from the hybridization of sp and sp 2 , which can be seen as a third of graphene C-C inserted with two CRC (alkyne or acetylene) bonds. This gives the GY not only a benzene ring, but also a large triangular ring made of a benzene ring, and CRC bond with 18 carbon atoms.…”

Physical mechanism on the linear spectrum and nonlinear spectrum in a twist bilayer graphdiyne nanodisk

“…Its main component is carbon 5 . Typical carbon materials are mainly represented by diamond, 6 carbyne, 7 fullerene, 8–11 carbon nanotubes (CNT), 12–14 and graphene 15–17 . Due to the unique structure of these carbon materials, they have many excellent physical and chemical properties and are widely used in the electrical industry, aerospace, chemical industry, nuclear energy industry, sports equipment, and other fields 18–22 .…”

Multiple graphdiyne‐like chains self‐assemble into carbon nanotubes

“…However, their high cost DOI: 10.1002/smll.202304504 and inherent safety issues limit large-scale energy storage applications. [1][2][3][4][5][6] Recently, aqueous zinc-ion batteries (AZIBs) have received extensive attention owing to their high theoretical capacity (820 mA h g −1 ), low redox potential (-0.76 V versus standard hydrogen electrode), low cost, and high safety. These advantages provide a favorable basis for AZIBs as promising large-scale energy storage systems.…”

MoO₂ Nanoclusters Embedded in Hierarchical Nitrogen Doped Carbon Nanoflower as Electrocatalytic Mediators in Aqueous Zinc–Tellurium Batteries: Enhancing Electrochemical Kinetics of Tellurium Redox Reaction