Artificial Intelligence (AI) has advanced material research that were previously intractable,
for example, the machine learning (ML) has been able to predict some unprecedented …

The demand for sophisticated tools and approaches in heat management and control has
triggered the fast development of fields that include conductive thermal metamaterials …

Nanoscale structures can produce extreme strain that enables unprecedented material
properties, such as tailored electronic bandgap,,,–, elevated superconducting temperature …

Due to the nature of their liquid‐like behavior and high dimensionless figure of merit, Cu2X
(X= Te, Se, and S)‐based thermoelectric materials have attracted extensive attention. The …

The most direct and efficient strategy in designing and synthesizing new materials is to
change the structural building units, which could lead to a new paradigm shift. Penta …

Fluorinated graphene, an up‐rising member of the graphene family, combines a two‐
dimensional layer‐structure, a wide bandgap, and high stability and attracts significant …

The thermal conductivities of materials are extremely important for many practical
applications, such as in understanding the thermal balance and history of the Earth, energy …

Following the emergence of many novel two-dimensional (2D) materials beyond graphene,
interest has grown in exploring implications for fundamental physics and practical …

In the last decade, high-performance Cu 2 Se thermoelectric materials and devices are
attracting increasing research interest. In this review, we firstly summarize fundamentals of …

Graphene is a two-dimensional (2D) material with over 100-fold anisotropy of heat flow
between the in-plane and out-of-plane directions. High in-plane thermal conductivity is due …