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 ability of thermoelectric (TE) materials to convert thermal energy to electricity and vice
versa highlights them as a promising candidate for sustainable energy applications. Despite …

Net zero refers to the balance of the amount of greenhouse gas emissions produced and the
amount removed from the atmosphere, and many companies and states have committed …

Doping serves as a vital strategy for tuning electronic and optoelectronic properties of
semiconductors. Compared to organic semiconductors, the understanding and optimization …

Research on conjugated polymers for thermoelectric applications has made tremendous
progress in recent years, which is accompanied by surging interest in molecular doping as a …

Here we show that molecular doping of polymer thermoelectrics increases the electrical
conductivity while reducing the thermal conductivity. A high-throughput methodology based …

Organic thermoelectric generators (TEGs) are a prospective class of versatile energy-
harvesters that can enable the capture of low-grade heat and provide power to the growing …

In this work, we observed size-dependent behavior of filler on both the thermal and electrical
conductivities of nacre-like graphene-conjugated conducting polymer films and …

The thermal conductivity (κ) governs how heat propagates in a material, and thus is a key
parameter that constrains the lifetime of optoelectronic devices and the performance of …

The notion of quasi‐equilibrium is central to most solar cells; however, it has been
questioned in organic photovoltaics (OPVs) owing to strong energetic disorder that frustrates …