The intercalating of anions into cost‐effective graphite electrode provides a high operating
voltage, therefore, the dual‐ion batteries (DIBs) as novel energy storage device has …

Abstract Beginning with Chicago Pile I, graphite has been used as a moderator material in
nuclear power stations and is considered a potential material for use in future Generation IV …

This study proposed self-adaptive nanostructured heterojunction UV-VIS-NIR photodiodes
carbon nanowalls (CNWs)/cadmium zinc telluride (CdZnTe) exhibiting stable photoelectric …

Low‐dimensional materials based on graphene or graphite show a large variety of
phenomena when they are subjected to irradiation with energetic electrons. Since the …

Carbon materials have become increasingly diverse, finding applications in high-
temperature and high-radiation environments. Glassy carbon, an allotrope known for its …

Graphene quantum dots (GQD) have attracted much attention due to their unique properties
in biomedical application, such as biosensing, imaging, and drug delivering. However, scale …

Nuclear graphite plays a vital role in GEN-IV reactors and is expected to function in the
harsh environments such as high temperature and high-dose irradiation. The ion irradiation …

At present, most synthetic graphite materials commonly used as anode active ingredients in
lithium‐ion cells are produced by graphitization of petroleum cokes. The carbon footprint …

Dislocations are a central concept in materials science, which dictate the plastic deformation
and damage evolution in materials. Layered materials such as graphite admit two general …

Abstract Nanoscale Detonation Carbon (NDC) was produced in a Pulse Gas-Detonation
Device (PGDD) by detonation of C 2 H 2+ kO 2 mixtures, with variation of k from 0.11 to 0.82 …