功能材料
功能材料
공능재료
JOURNAL OF FUNCTIONAL MATERIALS
2012年
14期
1894-1898
,共5页
夏卫民%张志成%陈源清%曹从军
夏衛民%張誌成%陳源清%曹從軍
하위민%장지성%진원청%조종군
复合材料界面%聚偏氟乙烯-三氟氯乙烯%钛酸锶钡%储能
複閤材料界麵%聚偏氟乙烯-三氟氯乙烯%鈦痠鍶鋇%儲能
복합재료계면%취편불을희-삼불록을희%태산송패%저능
composites interface%P(VDF-co-CTFE)%BST%discharged energy density
用溶胶-凝胶法合成了钛酸锶钡(BaSrTiO3,BST)陶瓷,获得了粒径为50nm左右的高活性纳米陶瓷粉体,并通过硅烷偶联剂(KH550)进行了表面处理。将表面处理后的BST粉末与含氟铁电聚合物聚偏氟乙烯-三氟氯乙烯(P(VDF-co-CTFE))采用0-3方式进行了复合。然后通过溶液流延法在石英片上制备了P(VDF-co-CTFE)/BaSrTiO3复合材料厚膜,并进行了淬火处理。采用XRD、TEM、TGA和SEM表征了纳米陶瓷和复合材料形貌。结果表明KH550可以有效地作用于高介电常数BST陶瓷颗粒表面。KH550处理后的复合材料具有更大的介电常数(εr〉33),更高耐电场强度(Eb〉270MV/m)和较低的损耗。界面处理同时可以有效提高复合材料的饱和极化强度(Ps),降低剩余极化强度(Pr),使其储能密度(Ue)达6.8J/cm3。总体结果表明,两相界面改善后的聚合物/陶瓷复合材料在高储能密度领域中具有广泛的应用前景。
用溶膠-凝膠法閤成瞭鈦痠鍶鋇(BaSrTiO3,BST)陶瓷,穫得瞭粒徑為50nm左右的高活性納米陶瓷粉體,併通過硅烷偶聯劑(KH550)進行瞭錶麵處理。將錶麵處理後的BST粉末與含氟鐵電聚閤物聚偏氟乙烯-三氟氯乙烯(P(VDF-co-CTFE))採用0-3方式進行瞭複閤。然後通過溶液流延法在石英片上製備瞭P(VDF-co-CTFE)/BaSrTiO3複閤材料厚膜,併進行瞭淬火處理。採用XRD、TEM、TGA和SEM錶徵瞭納米陶瓷和複閤材料形貌。結果錶明KH550可以有效地作用于高介電常數BST陶瓷顆粒錶麵。KH550處理後的複閤材料具有更大的介電常數(εr〉33),更高耐電場彊度(Eb〉270MV/m)和較低的損耗。界麵處理同時可以有效提高複閤材料的飽和極化彊度(Ps),降低剩餘極化彊度(Pr),使其儲能密度(Ue)達6.8J/cm3。總體結果錶明,兩相界麵改善後的聚閤物/陶瓷複閤材料在高儲能密度領域中具有廣汎的應用前景。
용용효-응효법합성료태산송패(BaSrTiO3,BST)도자,획득료립경위50nm좌우적고활성납미도자분체,병통과규완우련제(KH550)진행료표면처리。장표면처리후적BST분말여함불철전취합물취편불을희-삼불록을희(P(VDF-co-CTFE))채용0-3방식진행료복합。연후통과용액류연법재석영편상제비료P(VDF-co-CTFE)/BaSrTiO3복합재료후막,병진행료쉬화처리。채용XRD、TEM、TGA화SEM표정료납미도자화복합재료형모。결과표명KH550가이유효지작용우고개전상수BST도자과립표면。KH550처리후적복합재료구유경대적개전상수(εr〉33),경고내전장강도(Eb〉270MV/m)화교저적손모。계면처리동시가이유효제고복합재료적포화겁화강도(Ps),강저잉여겁화강도(Pr),사기저능밀도(Ue)체6.8J/cm3。총체결과표명,량상계면개선후적취합물/도자복합재료재고저능밀도영역중구유엄범적응용전경。
High-activity barium strontium titanate(BST) nanoparticles with diameter of 50nm were synthesized via sol-gel method.The BST particles were surface modified with a silane coupling agent(KH550).After that,the BST nanoparticles were then compounded with poly(vinylidene fluoride-co-chlorotrifluoroethylene)(P(VDF-co-CTFE)) in 0-3 connecting form.Using solution casting method,P(VDF-co-CTFE) /BST nanocomposite thick films were prepared on quartz slides.And water-quenching experiments were finally performed on the composite thick films.XRD,TEM,TGA,and FE-SEM were used to characterize the BST particles and the obtained films.Results indicate that the interface of the BST nanoparticles has been effectively improved by surface modification with KH550.Compared with the nanocomposite films with uncoupled BST particles,the ones with KH550-coupled BST particles possess higher dielectric constant(〉33),larger breakdown electric field(〉270MV/m),and lower dielectric loss.Moreover,the surface modification is also helpful to improve the film saturation polarization(Ps),and decrease the film remnant electric polarization(Pr),thus finally enhancing the film electrical energy density(〉6.8J/cm3 for a film sample with BST of 10vol%).The overall results indicate that the surface modification for polymer/ceramic compounds shows great potential in the field of high-energy storage devices.
