Raman spectroscopy is now an extremely important technique for the analysis of carbon-
based materials. It is demonstrated how it can be used to give a unique insight into …

Depending on their structure and order (individual, films, bundled, buckypapers, etc.),
carbon nanotubes (CNTs) demonstrate different values of thermal conductivity, from the …

Highly thermal conductive thermal interface materials are playing an irreplaceable role in
modern highly integrated microelectronic devices. A facile method was used to fabricate a …

Organic and hybrid thermoelectric materials have been very rapidly developed in the past
decade, because the requirement for new energy and energy savings has increased due to …

Thermal properties can substantially affect the operation of various electronics and
optoelectronics devices based on two-dimensional materials. In this work, we describe our …

Organic thermoelectric (TE) materials have captured much curiosity, since the discovery of
their ability to convert a small quantity of heat energy into electrical one. Moreover, intrinsic …

Although the individual one-and two-dimensional (1D and 2D) carbon nanostructures
possess extremely high thermal conductivity, their macroscopic assemblies do not efficiently …

Micro‐Raman spectroscopy is an important analytical tool in a large variety of science
disciplines. The technique is suitable for both identification of chemical bonds and studying …

Due to escalating power densities in electronics, information, communication, energy
storage, aerospace, and automobile technologies, heat dissipation has become immensely …

The interface is always a critical factor affecting thermoelectric performance in composite
systems. However, understanding the electrical and thermal transport behaviors at the …