The flexible thermoelectric technique, which can convert heat from the human body to
electricity via the Seebeck effect, is expected to provide a peerless solution for the power …

Conjugated polymers (CPs) are ubiquitous in plastic electronics in the form of
semiconducting and conducting polymers that are central in devices such as solar cells, field …

The development of high‐performance organic thin‐film transistor (OTFT) materials is vital
for flexible electronics. Numerous OTFTs are so far reported but obtaining high‐performance …

Conjugated polymers promise inherently flexible and low-cost thermoelectrics for powering
the Internet of Things from waste heat,. Their valuable applications, however, have been …

The rise of artificial intelligence and the Internet of Things have spurred an increasing
demand for wearable, sustainable, and maintenance‐free power sources. Organic …

The thermoelectric (TE) performance of organic materials is limited by the coupling of
Seebeck coefficient and electrical conductivity. Herein a new strategy is reported to boost …

Organic thermoelectric (OTE) materials and devices have garnered significant attention in
the past decade for flexible and wearable electronics. Due to the numerous combinations of …

Developing polymers with high electrical conductivity (σ) after n‐doping is a great challenge
for the advance of the field of organic thermoelectrics (OTEs). Herein, we report a series of …

Poor miscibility with the most popular n-dopants of polar 1H-benzimidazolyl molecules and
limited doping efficiency have severely retarded the development of highly efficient n-doped …

Abstract π‐Conjugated polymers can be manipulated at the molecular and thin‐film levels to
strengthen thermoelectric performance. Herein, two distinctive polymers—PBDP‐T and …