This work summarizes the recent progress on the thermal transport properties of 3D
nanostructures, with an emphasis on experimental results. Depending on the applications …

Carbon has numerous one-dimensional (1D), two-dimensional (2D), and three-dimensional
(3D) allotropic structures. The study of carbon materials has long been a major focus of …

Understanding the adsorption, desorption, and diffusion of hydrogen within a three-
dimensional carbon-honeycomb (Ch) is crucial in order to use it for efficient reversible H2 …

While there is a consensus in the literature that embracing nanodevices and nanomaterials
helps in improving the efficiency and performance, the reason for the better performance is …

Seeking for next-generation energy sources that are economic, sustainable (renewable),
clean (environment-friendly), and earth-abundant, is crucial when facing the challenges of …

Three-dimensional (3D) carbon allotropes have been extensively researched for their
potential new applications in batteries, gas separation, and electronic devices. Therefore …

Thermal transport properties of low-dimensional nanomaterials are highly anisotropic and
sensitive to the structural disorder, which can greatly limit their applications in heat …

Carbon enjoys a vast number of allotropic forms, each possessing unique properties
determined by the lattice structures and bonding characters. Here, based on first-principles …

Due to the limited specific capacity of graphite, it is highly desirable to develop new
alternatives for high performance lithium ion battery (LIB) anode materials. Motivated by the …

Topological nodal rings can be classified into three types according to the slopes in their
energy dispersion. Type-I nodal rings consist of type-I points, type-II rings consist of type-II …