Recently, organic thermoelectric (TE) materials have been intensively studied because of
their great potential for application in flexible/wearable TE generators for power generation …

Thermoelectric (TE) materials can realize the direct transformation between heat and
electricity, thereby facilitating the recycling of waste heat. Semiconducting π-conjugated …

The ability of n‐type polymer thermoelectric materials to tolerate high do** loading limits
further development of n‐type polymer conductivity. Herein, two alcohol‐soluble n‐type …

Develo** high‐performance n‐type polymer mixed ionic‐electronic conductors (PMIECs)
is a grand challenge, which largely determines their applications in vaious organic …

N‐Type thermoelectrics typically consist of small molecule dopant+ polymer host. Only a few
polymer dopant+ polymer host systems have been reported, and these have lower …

Achieving high electrical conductivity (σ) and power factor (PF) simultaneously remains a
significant challenge for n‐type organic themoelectrics (OTEs). Herein, we demonstrate the …

As a non-invasive imaging technology, positron emission tomography (PET) plays a crucial
role in personalized medicine, including early diagnosis, patient screening, and treatment …

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 …

n-Type do** for improving the electrical characteristics and air stability of n-type organic
semiconductors (OSCs) is important for realizing advanced future electronics. Herein, we …

Here, we examine the impact of the molecular weight of an n-type conjugated polymer (n-
PT2) on molecular do** and thermoelectric parameters. Two common dopants TDAE and …