Polycrystalline SnSe is considered as a highly promising candidate for thermoelectric
applications due to its facile processing, machinability and scale-up applications. Here, we …

There is a growing interest in cost-effective polycrystalline SnSe-based thermoelectric (TE)
materials, which are able to replace the high performance but mechanically fragile and …

Here, a high peak ZT of≈ 2.0 is reported in solution‐processed polycrystalline Ge and Cd
codoped SnSe. Microstructural characterization reveals that CdSe quantum dots are …

Since the lattice thermal conductivity of thermoelectric materials is a relatively independent
parameter, exploring semiconductor materials with intrinsically low lattice thermal …

As a novel and environmentally friendly energy source, thermoelectric (TE) materials are
receiving more and more attention because of their unique capability to directly convert heat …

In the face of ever‐evolving energy and environmental challenges, tin selenide (SnSe) has
garnered significant attention due to its outstanding thermoelectric performance. The article …

Researchers are focused on developing an efficient and eco-friendly thermoelectric
material, which has increased interest in tin selenide (SnSe). This study optimizes the …

Among the most sought-after chalcogenides, Hg-based diamondlike semiconductors have
recently been realized for ultralow low heat conduction and potential thermoelectric devices …

The weak interlayer coupling and large-area surface of layered inorganic materials establish
a fundamental framework for constructing inorganic solid materials with low thermal …

Indium selenides (InSe) is a promising layer‐structured semiconductor with broad potential
applications in photovoltaics, diodes, and optic devices, but its thermoelectric performance is …