新型炭材料
新型炭材料
신형탄재료
NEW CARBON MATERIALS
2015年
2期
133-140
,共8页
屈腊琴%杨维佳%郝亚敏%杨永珍%刘旭光
屈臘琴%楊維佳%郝亞敏%楊永珍%劉旭光
굴석금%양유가%학아민%양영진%류욱광
石墨烯%水热还原%功能化%受体%光学性能
石墨烯%水熱還原%功能化%受體%光學性能
석묵희%수열환원%공능화%수체%광학성능
Graphene%Hydrothermal reduction%Functional%Acceptor%Optical performance
采用Hummers法制备氧化石墨烯(GO),利用水热法对GO分别还原5 h和10 h制得两种还原氧化石墨烯(5-RGO和10-RGO),进一步用异氰酸苯酯对还原前后的氧化石墨烯材料进行改性,即得功能化氧化石墨烯和功能化还原氧化石墨烯(SPFGO、5-SPFRGO和10-SPFRGO)。以功能化还原氧化石墨烯材料为电子受体,聚3-己基噻吩(P3HT)为电子给体,制备复合膜。结果表明:GO由3-5层组成,经水热还原后样品表面仍含有—C O,—COOH等含氧官能团;功能化后石墨烯在邻二氯苯中分散性良好,与P3HT能级相匹配,满足作为聚合物太阳能电池受体材料要求;以5-SPFRGO做为受体材料与P3HT复合制备的复合膜表面规整致密,光吸收强度高,荧光光谱强度低,性能最优。
採用Hummers法製備氧化石墨烯(GO),利用水熱法對GO分彆還原5 h和10 h製得兩種還原氧化石墨烯(5-RGO和10-RGO),進一步用異氰痠苯酯對還原前後的氧化石墨烯材料進行改性,即得功能化氧化石墨烯和功能化還原氧化石墨烯(SPFGO、5-SPFRGO和10-SPFRGO)。以功能化還原氧化石墨烯材料為電子受體,聚3-己基噻吩(P3HT)為電子給體,製備複閤膜。結果錶明:GO由3-5層組成,經水熱還原後樣品錶麵仍含有—C O,—COOH等含氧官能糰;功能化後石墨烯在鄰二氯苯中分散性良好,與P3HT能級相匹配,滿足作為聚閤物太暘能電池受體材料要求;以5-SPFRGO做為受體材料與P3HT複閤製備的複閤膜錶麵規整緻密,光吸收彊度高,熒光光譜彊度低,性能最優。
채용Hummers법제비양화석묵희(GO),이용수열법대GO분별환원5 h화10 h제득량충환원양화석묵희(5-RGO화10-RGO),진일보용이청산분지대환원전후적양화석묵희재료진행개성,즉득공능화양화석묵희화공능화환원양화석묵희(SPFGO、5-SPFRGO화10-SPFRGO)。이공능화환원양화석묵희재료위전자수체,취3-기기새분(P3HT)위전자급체,제비복합막。결과표명:GO유3-5층조성,경수열환원후양품표면잉함유—C O,—COOH등함양관능단;공능화후석묵희재린이록분중분산성량호,여P3HT능급상필배,만족작위취합물태양능전지수체재료요구;이5-SPFRGO주위수체재료여P3HT복합제비적복합막표면규정치밀,광흡수강도고,형광광보강도저,성능최우。
Graphene oxide ( GO) prepared by the Hummers method was hydrothermally reduced for 5 and 10 h to obtain 5-RGO and 10-RGO, respectively. The GO and RGOs reacted with phenyl isocyanate to obtain three solution-processable functionalized graphenes ( SPFGO, 5-SPFRGO and 10-SPFRGO) , which were used as electron acceptors to prepare composite films with poly 3-hexylthiophene (P3HT) as an electron donor in polymer solar cells. Results indicate that GO consists of about 3-5 layers, and the RGOs still have some oxygen-containing functional groups such as —COOH and CO after the reduction. Functionalized GOs have good dispersibility in dichlorobenzene and exhibit energy levels matching P3HT, indicating that they can be used as the electron acceptor materials of polymer solar cells. A5-SPFRGO/P3HT composite film exhibits good compatibility, strong light absorption and obvious fluorescence quenching, suggesting that 5-SPFRGO is an excellent electron acceptor material.
