From carbides in steel to cobalt–carbon covalent bonds in vitamin B 12, transition metal (TM)–
carbon interactions play a critical role in so many aspects of human life that we rarely realize …

Field effect-based biosensors (BioFETs) stand out among other biosensing technologies
due to their unique features such as real time screening, ultrasensitive detection, low cost …

Carbon nanotube (CNT)/Cu core–shell fibers are a promising material for lightweight
conductors due to their higher conductivity than pure CNT fibers and lower density than …

Herein, we report first-principles calculations for the magnetic proximity effect in a van der
Waals heterostructure formed by a graphene monolayer, induced by its interaction with a …

New lithographically processable materials with high ampacity are in demand to meet the
increasing requirement for high operational current density at high temperatures existing in …

Enhancing the mechanical strength of highly conductive pure metals usually causes
significant reduction in their electrical conductivity. For example, introducing phase/matrix …

This paper studies the temperature dependence of the electrical resistivity of low-cost
commercial graphene-based strips, made from a mixture of epoxy and graphene …

Both carbon nanotube (CNT) and graphene exhibit excellent properties and have many
potential applications in integrated circuits, composite materials, thermal management …

This paper investigates the electrical properties in the microwave range of a contact made
by graphene nanoplatelets. The final goal is that of estimating the range of values for the …

Polymer‐derived carbon can serve as an electrode material in multimodal neural
stimulation, recording, and neurotransmitter sensing platforms. The primary challenge in its …