大连理工大学学报
大連理工大學學報
대련리공대학학보
JOURNAL OF DALIAN UNIVERSITY OF TECHNOLOGY
2014年
5期
499-505
,共7页
小分子%芴%苯并噻二唑(BT)%光伏(PV)材料%体异质结(BHJ)太阳能电池
小分子%芴%苯併噻二唑(BT)%光伏(PV)材料%體異質結(BHJ)太暘能電池
소분자%물%분병새이서(BT)%광복(PV)재료%체이질결(BHJ)태양능전지
small-molecule%fluorene%benzothiadiazole (BT )%photovoltaic (PV ) material%bulk heteroj unction (BHJ)solar cells
成功设计并合成了以三键为桥键,苯并噻二唑为受体(A)单元,二己基芴为给体(D)单元的D-π-A-π-D型小分子光伏材料 FLEBT,利用核磁、高分辨质谱对该化合物进行了结构表征.FLEBT的光学性能和电化学性能分别通过紫外-可见光谱及循环伏安法进行测定.结果显示,FLEBT在有机溶剂中具有较好的溶解性和成膜性,具有较强的分子内电荷迁移(ICT)特征、较宽的紫外-可见吸收范围,并具有与受体材料PC61 BM相匹配的电子能级.因此利用 FLEBT为给体材料,PC61 BM为受体材料,通过溶液过程加工法制作了体异质结(BHJ)太阳能电池,初步探索了材料的光伏性能.在模拟太阳光 AM 1.5 G (100 mW·cm-2)下,器件开路电压(Voc)为0.72 V,短路电流(Jsc)为0.93 mA·cm-2,光电转换效率(PCE)为0.18%.研究结果表明,这类小分子是一种潜在的有机小分子光伏材料.
成功設計併閤成瞭以三鍵為橋鍵,苯併噻二唑為受體(A)單元,二己基芴為給體(D)單元的D-π-A-π-D型小分子光伏材料 FLEBT,利用覈磁、高分辨質譜對該化閤物進行瞭結構錶徵.FLEBT的光學性能和電化學性能分彆通過紫外-可見光譜及循環伏安法進行測定.結果顯示,FLEBT在有機溶劑中具有較好的溶解性和成膜性,具有較彊的分子內電荷遷移(ICT)特徵、較寬的紫外-可見吸收範圍,併具有與受體材料PC61 BM相匹配的電子能級.因此利用 FLEBT為給體材料,PC61 BM為受體材料,通過溶液過程加工法製作瞭體異質結(BHJ)太暘能電池,初步探索瞭材料的光伏性能.在模擬太暘光 AM 1.5 G (100 mW·cm-2)下,器件開路電壓(Voc)為0.72 V,短路電流(Jsc)為0.93 mA·cm-2,光電轉換效率(PCE)為0.18%.研究結果錶明,這類小分子是一種潛在的有機小分子光伏材料.
성공설계병합성료이삼건위교건,분병새이서위수체(A)단원,이기기물위급체(D)단원적D-π-A-π-D형소분자광복재료 FLEBT,이용핵자、고분변질보대해화합물진행료결구표정.FLEBT적광학성능화전화학성능분별통과자외-가견광보급순배복안법진행측정.결과현시,FLEBT재유궤용제중구유교호적용해성화성막성,구유교강적분자내전하천이(ICT)특정、교관적자외-가견흡수범위,병구유여수체재료PC61 BM상필배적전자능급.인차이용 FLEBT위급체재료,PC61 BM위수체재료,통과용액과정가공법제작료체이질결(BHJ)태양능전지,초보탐색료재료적광복성능.재모의태양광 AM 1.5 G (100 mW·cm-2)하,기건개로전압(Voc)위0.72 V,단로전류(Jsc)위0.93 mA·cm-2,광전전환효솔(PCE)위0.18%.연구결과표명,저류소분자시일충잠재적유궤소분자광복재료.
A novel D-π-A-π-D type small-molecule photovoltaic (PV)material FLEBT is designed and synthesized successfully, which uses alkyl-substituted fluorene as donor (D ) unit, benzothiadiazole as acceptor (A)unit and triple bond asπ-linkage.The structure is characterized with NMR and HRMS.The optical and electrochemical properties of FLEBT are investigated by UV-Vis absorption spectroscopy and cyclic voltammetry experiments.These experimental results exhibit that FLEBT has excellent solubility and film-forming properties in organic solvents, strongly intramolecular charge transfer (ICT)feature,a broad absorption range in UV-Vis absorption spectra and appropriate energy levels relatively to acceptor material PC61 BM.The PV properties of solution-processed bulk heteroj unction (BHJ ) solar cells are investigated by using FLEBT as donor and PC61 BM as acceptor.As a preliminary result,it reveals a performance with a Voc of 0.72 V,a Jsc of 0.93 mA·cm-2 ,and a power conversion efficiency (PCE)of 0.18% under an illumination of AM 1.5 G (100 mW·cm-2 ).As a result,this kind of small-molecule is a potential organic small-molecule PV material.
