Organic semiconductors,especially polymer semiconductors,have attracted extensive attention as organic thermo-electric materials due to their capabilities for flexibility,low-cost fabrication,solution processability and low thermal con-ductivity.However,it is challenging to obtain high-performance organic thermoelectric materials because of the low intrin-sic carrier concentration of organic semiconductors.The main method to control the carrier concentration of polymers is the chemical doping process by charge transfer between polymer and dopant.Therefore,the deep understanding of doping mechanisms from the point view of chemical structure has been highly desired to overcome the bottlenecks in polymeric thermoelectrics.In this contribution,we will briefly review the recently emerging progress for discovering the structure-property relationship of organic thermoelectric materials with high performance.Highlights include some achievements about doping strategies to effectively modulate the carrier concentration,the design rules of building blocks and side chains to enhance charge transport and improve the doping efficiency.Finally,we will give our viewpoints on the challenges and opportunities in the field of polymer thermoelectric materials.

Zhen Xu;Hui Li;Lidong Chen

State Key Laboratory of High Performance Ceramics and Superfine Microstructures,Shanghai Institute of Ceramics,Chinese Academy of Sciences,Shanghai 200050,China;Center of Materials Science and Optoelectronics Engineering,University of Chinese Academy of Sciences,Beijing 100049,China

中国物理B（英文版）

[1]Zhen Xu;Hui Li;Lidong Chen-.Recent progress in design of conductive polymers to improve the thermoelectric performance)[J].中国物理B（英文版）,2022(02):24-35

Recent,progress,design,conductive,polymers,improve,performance,Organic,semiconductors,especially,have,attracted,extensive,attention,organic,materials,due,their,capabilities,flexibility,low,cost,fabrication,solution,processability,thermal,ductivity,However,challenging,obtain,because,intrin,sic,carrier,concentration,main,method,control,chemical,doping,by,charge,transfer,between,dopant,Therefore,deep,understanding,mechanisms,from,structure,has,been,highly,desired,overcome,bottlenecks,polymeric,thermoelectrics,In,this,contribution,will,briefly,review,recently,emerging,discovering,property,relationship,Highlights,include,some,achievements,about,strategies,effectively,modulate,rules,building,blocks,side,chains,enhance,transport,efficiency,Finally,give,our,viewpoints,challenges,opportunities,field

0.588561