High‐Performance and Ecofriendly Organic Thermoelectrics Enabled by N‐Type Polythiophene Derivatives with Doping‐Induced Molecular Order
S Deng, Y Kuang, L Liu, X Liu, J Liu, J Li… - Advanced …, 2024 - Wiley Online Library
The ability of n‐type polymer thermoelectric materials to tolerate high doping loading limits
further development of n‐type polymer conductivity. Herein, two alcohol‐soluble n‐type …
further development of n‐type polymer conductivity. Herein, two alcohol‐soluble n‐type …
Efficient N‐Type Organic Electrochemical Transistors and Field‐Effect Transistors Based on PNDI‐Copolymers Bearing Fluorinated Selenophene‐Vinylene …
Abstract n‐Type organic electrochemical transistors (OECTs) and organic field‐effect
transistors (OFETs) are less developed than their p‐type counterparts. Herein …
transistors (OFETs) are less developed than their p‐type counterparts. Herein …
A Highly Conductive n-Type Polythiophene Derivative: Effect of Molecular Weight on n-Doping Behavior and Thermoelectric Performance
S Deng, J Liu, B Meng, J Liu… - ACS Applied Materials & …, 2023 - ACS Publications
Here, we examine the impact of the molecular weight of an n-type conjugated polymer (n-
PT2) on molecular doping and thermoelectric parameters. Two common dopants TDAE and …
PT2) on molecular doping and thermoelectric parameters. Two common dopants TDAE and …
Interplay between Side Chain Density and Polymer Alignment: Two Competing Strategies for Enhancing the Thermoelectric Performance of P3HT Analogues
A series of polythiophenes with varying side chain density was synthesized, and their
electrical and thermoelectric properties were investigated. Aligned and non-aligned thin …
electrical and thermoelectric properties were investigated. Aligned and non-aligned thin …
Enhancing the Thermoelectric Properties of Conjugated Polymers by Suppressing Dopant‐Induced Disorder
Doping is a crucial strategy to enhance the performance of various organic electronic
devices. However, in many cases, the random distribution of dopants in conjugated …
devices. However, in many cases, the random distribution of dopants in conjugated …
Enhancing Electrical Conductivity and Power Factor in Poly‐Glycol‐Bithienylthienothiophene with Oligoethylene Glycol Side Chains Through Tris (pentafluorophenyl) …
Doping of organic semiconductors has served as an effective method to achieve high
electrical conductivity and large thermoelectric power factor. This is of importance to the …
electrical conductivity and large thermoelectric power factor. This is of importance to the …
Dopant‐induced Morphology of Organic Semiconductors Resulting in High Doping Performance
J Guo, PA Chen, S Yang, H Wei, Y Liu, J Xia… - Small …, 2024 - Wiley Online Library
Doping plays a crucial role in modulating and enhancing the performance of organic
semiconductor (OSC) devices. In this study, the critical role of dopants is underscored in …
semiconductor (OSC) devices. In this study, the critical role of dopants is underscored in …
Suppressed surface aggregation and homogeneous integration of π-Bridged polyelectrolyte for boosting charge transport in conjugated polymer semiconductors
The introduction of extrinsic materials into host materials has been extensively considered
for resolving the challenge of intrinsically low charge movement within semiconducting …
for resolving the challenge of intrinsically low charge movement within semiconducting …
Band Versus Hopping Transport in Conducting Polymers by Ab Initio Molecular Dynamics: Exploring the Effect of Electric Field, Trapping and Temperature
N Zahabi, I Zozoulenko - Advanced Electronic Materials, 2024 - Wiley Online Library
Understanding charge carrier transport in conductive polymers is imperative for the
materials' synthesis and optimizing devices. While most theoretical studies utilize time …
materials' synthesis and optimizing devices. While most theoretical studies utilize time …