The rapid development of faster, cheaper, and more powerful computing has led to some of
the most important technological and societal advances in modern history. However, the …

This review discusses recent advances in materials engineering to control thermal
conductivity. We begin by presenting theories of heat conduction for general material …

The electron-phonon interaction is well known to create major resistance to electron
transport in metals and semiconductors, whereas fewer studies are directed to its effect on …

We first optimize the design and compare the performance of thermo-optic phase-shifters
based on TiN metal and N_++ doped silicon, in the same SOI process. The designs don't …

We examine mobility and saturation velocity in graphene on SiO 2 above room temperature
(300–500 K) and at high fields (∼ 1 V/μ m)⁠. Data are analyzed with practical models …

The advancement of nanoscale electronics has been limited by energy dissipation
challenges for over a decade. Such limitations could be particularly severe for two …

The applicability of Fourier's law to heat transfer problems relies on the assumption that heat
carriers have mean free paths smaller than important length scales of the temperature …

The electrical and thermal behavior of nanoscale devices based on two-dimensional (2D)
materials is often limited by their contacts and interfaces. Here we report the temperature …

Two-dimensional semiconductors such as monolayer MoS2 are of interest for future
applications including flexible electronics and end-of-roadmap technologies. Most research …

This review describes the major electrothermal methods for measuring the thermal
conductivity of thin films in both cross-plane and in-plane directions. These methods use …