返回
effect of low-temperature supercritical fluid technology :低温超临界流体技术的影响

effect of low-temperature supercritical fluid technology :低温超临界流体技术的影响

ID:9297590

大小:211.50 KB

页数:16页

时间:2018-04-27

effect of low-temperature supercritical fluid technology :低温超临界流体技术的影响_第1页
effect of low-temperature supercritical fluid technology :低温超临界流体技术的影响_第2页
effect of low-temperature supercritical fluid technology :低温超临界流体技术的影响_第3页
effect of low-temperature supercritical fluid technology :低温超临界流体技术的影响_第4页
effect of low-temperature supercritical fluid technology :低温超临界流体技术的影响_第5页
资源描述:

《effect of low-temperature supercritical fluid technology :低温超临界流体技术的影响》由会员上传分享,免费在线阅读,更多相关内容在教育资源-天天文库

1、PaperNumber: abstractnumber(667),programnumber(GP-28)TitleofPaper:Effectoflow-temperaturesupercriticalfluidtechnologytreatmentontheperformanceofZnOTFTsName:Min-ChenChenCorrespondingAuthor:Ting-ChangChangFullMailingAddress: DepartmentofPhysics,NationalSunYat-SenUniversity,70Lien-HaiRoad,Kaohsiun

2、g,Taiwan80424,ROC.Telephone:+886-7-5252000-3708Fax:+886-7-5253709e-mail:tcchang@mail.phys.nsysu.edu.twKeywords:ZnO,supercriticalfluidEstimationofthelengthofthemanuscript NumberofPages13x2503250NumberofTables1x150150NumberofFigures8x1501200TOTALNUMBEROFWORDS=4600Effectoflow-temperaturesupercriti

3、calfluidtechnologytreatmentontheperformanceofZnOTFTsMin-ChenChen(a,Ting-ChangChang(a,b,Sheng-YaoHuang(a,Kuan-ChangChang(c,Hui-ChunHuang(d,Shih-ChingChen(a,JinLu(a,Der-ShinGan(d,New-JinHo(d,Tai-FaYoung(c,Geng-WeiJhang(e,Ya-HsiangTai(ea.DepartmentofPhysics,NationalSunYat-SenUniversity,Kaohsiung,8

4、04,Taiwan,R.O.C.b.CenterforNanoscience&Nanotechnology,NationalSunYat-SenUniversity,Kaohsiung,804,Taiwan,R.O.C.c.DepartmentofMechanicalandElectro-MechanicalEngineering,NationalSunYat-SenUniversity,Kaohsiung,804,Taiwan,R.O.C.d.DepartmentofMaterialsScienceandEngineering,NationalSunYat-SenUniversit

5、y,Kaohsiung,804,Taiwan,R.O.C.e.DepartmentofDisplayInstitute,NationalChiaoTungUniversity,Hsin-Chu,300,Taiwan,R.O.C.AbstractInthispaper,thesupercriticalCO2(SCCO2)fluidtechnologyissuccessfullyappliedtoimprovetheelectricalcharacteristicsofsputteredZnOTFTsatlowtemperature(150°C).AfterthetreatmentofS

6、CCO2fluidsmixedwithwater,theZnOTFTexhibitedsuperiortransfercharacteristicsandlowerthresholdvoltage.AccordingtoX-rayphotoelectronspectroscopy(XPS)analyses,theimprovementswereattributedtotheincreaseofbindingenergiesofZn-Obonds,hydrogen-relateddonorsandthereductionoftrapsatthegrainboundaryinZnOthi

7、nfilms.Inaddition,thecrystallinequality,physicalstructure,andtransmittanceofZnOthinfilmswerealsoinvestigatedbyusingX-raydiffraction(XRD),transmissionelectronmicroscopy(TEM)andN&Kanalyzer.IntroductionIntherecentyears,thinfilmtransi

当前文档最多预览五页,下载文档查看全文

此文档下载收益归作者所有

当前文档最多预览五页,下载文档查看全文
温馨提示:
1. 部分包含数学公式或PPT动画的文件,查看预览时可能会显示错乱或异常,文件下载后无此问题,请放心下载。
2. 本文档由用户上传,版权归属用户,天天文库负责整理代发布。如果您对本文档版权有争议请及时联系客服。
3. 下载前请仔细阅读文档内容,确认文档内容符合您的需求后进行下载,若出现内容与标题不符可向本站投诉处理。
4. 下载文档时可能由于网络波动等原因无法下载或下载错误,付费完成后未能成功下载的用户请联系客服处理。