Thermoelectric generators (TEGs) can directly convert waste heat into electrical power. In
the last few decades, most research on thermoelectrics has focused on inorganic bulk …

Thermoelectrics can recover waste heat, environmental heat or heats from different sources
and convert it to electricity. Inorganic or metal thermoelectrics have higher ZT values and …

Whether the presence of adsorbates increases or decreases thermal conductivity in metal-
organic frameworks (MOFs) has been an open question. Here we report observations of …

The need for increased control of layer thickness and uniformity as device dimensions shrink
has spurred increased use of atomic layer deposition (ALD) for thin film growth. The ability to …

The role of interfacial nonidealities and disorder on thermal transport across interfaces is
traditionally assumed to add resistance to heat transfer, decreasing the thermal boundary …

Organic–inorganic hybrid superlattices (OIHSLs) hold attractive physical and chemical
properties, while the construction of single‐crystal covalent OIHSLs has not been achieved …

Atomic layer deposition (ALD) technology is one of the cornerstones of the modern
microelectronics industry, where it is exploited in the fabrication of high‐quality inorganic …

Thermoreflectance techniques, namely, time-and frequency-domain thermoreflectance
(TDTR and FDTR, respectively), are ubiquitously used for the thermophysical …

The thermoelectric properties of both pristine ZnO and ZnO–organic superlattice thin films
deposited on a cotton textile are investigated. The thin films are fabricated by atomic layer …

We study the conductive heat transport through calcium silicate hydrate (CSH) and
organically cross-linked CSH via experiments, micromechanical homogenization theory …