Do** approaches for organic semiconductors
Electronic do** in organic materials has remained an elusive concept for several
decades. It drew considerable attention in the early days in the quest for organic materials …
decades. It drew considerable attention in the early days in the quest for organic materials …
Flexible thermoelectric materials and devices: From materials to applications
With the ever-growing development of multifunctional and miniature electronics, the
exploring of high-power microwatt-milliwatt self-charging technology is highly essential …
exploring of high-power microwatt-milliwatt self-charging technology is highly essential …
Progress of conjugated polymers as emerging thermoelectric materials
Thanks to the combined efforts of scientists in several research fields, the preceding decade
has witnessed considerable progress in the use of conjugated polymers as emerging …
has witnessed considerable progress in the use of conjugated polymers as emerging …
A review on conductive polymers and their hybrids for flexible and wearable thermoelectric applications
There is a growing demand for flexible and wearable next-generation electronic devices that
must be capable of bending and stretching under mechanical deformation. In this regard …
must be capable of bending and stretching under mechanical deformation. In this regard …
Double do** of conjugated polymers with monomer molecular dopants
Molecular do** is a crucial tool for controlling the charge-carrier concentration in organic
semiconductors. Each dopant molecule is commonly thought to give rise to only one …
semiconductors. Each dopant molecule is commonly thought to give rise to only one …
Enhanced n-do** efficiency of a naphthalenediimide-based copolymer through polar side chains for organic thermoelectrics
N-do** of conjugated polymers either requires a high dopant fraction or yields a low
electrical conductivity because of their poor compatibility with molecular dopants. We …
electrical conductivity because of their poor compatibility with molecular dopants. We …
Thermoelectric Properties of Poly(3-hexylthiophene) (P3HT) Doped with 2,3,5,6-Tetrafluoro-7,7,8,8-tetracyanoquinodimethane (F4TCNQ) by Vapor-Phase Infiltration
Do** of thin films of semiconducting polymers provides control of their electrical
conductivity and thermopower. The electrical conductivity of semiconducting polymers rises …
conductivity and thermopower. The electrical conductivity of semiconducting polymers rises …
Electrochemical Do** in Ordered and Disordered Domains of Organic Mixed Ionic–Electronic Conductors
Conjugated polymers are increasingly used as organic mixed ionic–electronic conductors in
electrochemical applications for neuromorphic computing, bioelectronics, and energy …
electrochemical applications for neuromorphic computing, bioelectronics, and energy …
Bringing Conducting Polymers to High Order: Toward Conductivities beyond 105 S cm−1 and Thermoelectric Power Factors of 2 mW m−1 K−2
Here, an effective design strategy of polymer thermoelectric materials based on structural
control in doped polymer semiconductors is presented. The strategy is illustrated for two …
control in doped polymer semiconductors is presented. The strategy is illustrated for two …
N‐Type Organic Thermoelectrics of Donor–Acceptor Copolymers: Improved Power Factor by Molecular Tailoring of the Density of States
It is demonstrated that the n‐type thermoelectric performance of donor–acceptor (D–A)
copolymers can be enhanced by a factor of> 1000 by tailoring the density of states (DOS) …
copolymers can be enhanced by a factor of> 1000 by tailoring the density of states (DOS) …