Heat is an abundant but often wasted source of energy. Thus, harvesting just a portion of this
tremendous amount of energy holds significant promise for a more sustainable society …

The design of nanoparticles is critical for their efficient use in many applications ranging from
biomedicine to sensing and energy. While shape and size are responsible for the properties …

This review captures the synthesis, assembly, properties, and applications of copper
chalcogenide NCs, which have achieved significant research interest in the last decade due …

Flexible organic− inorganic hybrids are promising thermoelectric materials to recycle waste
heat in versatile formats. However, current organic/inorganic hybrids suffer from inferior …

Composed exclusively of organic components, polyaniline (PANi), graphene, and double-
walled nanotubes (DWNTs) are alternately deposited from aqueous solutions using a layer …

Controlling the interparticle spacing in quantum dot (QD) solids is the most readily
accessible way to control transport rates between neighboring QDs and a critical strategy for …

High power factor n-type organic thermoelectric nanocomposites are assembled by
alternately depositing double walled-nanotubes (DWNT), stabilized by polyethyleneimine …

Tandem solar cells (TSC) is the most promising photovoltaic technology, as it efficiently
overcomes the thermalization and nonabsorption losses. In this context, thin‐film/colloidal …

The electronic, chemical and mechanical properties of quantum dot structures may lead to
thermoelectric devices with a range of advantages with respect to existing ones based on …

PbS quantum dot solar cells (QDSCs) have emerged as a promising low-cost, solution-
processable solar energy harvesting device and demonstrated good air stability and …