半导体异质结
![异质结](https://imgs.wantubizhi.com/img/A1A61BAA66193547F3A6DD7D8EE527E9EE159A0123AE8274357377369395ECD05086BA2E947171511D16BC6682AB8B3894B35EF7791837AD2606CAF862A96B8E66FDEB714159D3721A1BB930AA659A65275E8D4092BC3C3E344A1A949A991D5C)
异质结
图片尺寸640x581![范德华异质结:超越极限的电子学材料](https://imgs.wantubizhi.com/img/ADDA3C5D760C6828B77B505A29D43E832C7FE0100F4E5AE2A754CC6576F7980C45857B822577B299256FC165A05207EA99ADA6F3F1797AE857B44E1B6D86D3688E12FB818D111E5246F033202CC7CC64CC5E48BEF3387A26D94118221723AD80)
范德华异质结:超越极限的电子学材料
图片尺寸1080x546![2. cdte/pbte(111)扭转界面异质结](https://imgs.wantubizhi.com/img/ADDA3C5D760C6828B77B505A29D43E833860DE0D4822EDD726512588E6839C07F497F3EA36AA61B2F1E8ADE1544A7418B0CC5C6B8BE3BBD46C3788D22163935015C13AEC16C92B4C84E9854697F6A4F049F8EA61E496D21EAEA6ABE296E9D2B7)
2. cdte/pbte(111)扭转界面异质结
图片尺寸4016x1831![2022-6-30 二维半导体异质结生长与光电性能调控-江南大学肖少庆](https://imgs.wantubizhi.com/img/ADDA3C5D760C6828B77B505A29D43E83A8B7A7EB6AC0F9F314999ADBE2B02697579212E977297E7502F89191612F8DDE42CF4B2D45AB0BCD77D42A3FB289E6E22D3ACE4CE9D7AFE758A964D3632C3963442E25C926BDD19E38A0988BB84D22C9)
2022-6-30 二维半导体异质结生长与光电性能调控-江南大学肖少庆
图片尺寸1440x1080![《炬丰科技-半导体工艺》宽带隙半导体材料的多型异质结](https://imgs.wantubizhi.com/img/ADDA3C5D760C6828B77B505A29D43E8368F6C80FBBF6C3310D9E11094D9CF25454FA66A1C49DA16F4171814ADF89BC46EB2CCF980D7CF35838D5DBD699342D76CCEE9EAC818AE61D7D3348390DDBB4BE6C515C5CD0BA2042C8357F03DC803380)
《炬丰科技-半导体工艺》宽带隙半导体材料的多型异质结
图片尺寸629x247![我校教师在钙钛矿纳米晶异质结研究中取得新进展](https://imgs.wantubizhi.com/img/ADDA3C5D760C6828B77B505A29D43E83A6CB8D6BF1C71B2380B88BE6D5907206276356D48457AD9BF92AE792A1C10C90A27A6FEDB204B6992EC3931E6738500F28060A48C08BB01FC13754B765A40271BA33994FA24EB4572D49069F8FE980EA)
我校教师在钙钛矿纳米晶异质结研究中取得新进展
图片尺寸550x335![njuese|异质结|半导体物理核心知识点|南京大学电子科学与工程学院](https://imgs.wantubizhi.com/img/735A5D1F980B52A636CC46F12F2D1A73776880CB48B816A8079A44A380A7D3E259C70E055EF3DAD608FA08FA502A194CE90F3C0524B9C2D3B51E7E7419164F512971E53AFF467E243FC2330CD113F7AC094C1749940CBF785E37B09F7F76C33E)
njuese|异质结|半导体物理核心知识点|南京大学电子科学与工程学院
图片尺寸1012x594![异质结ppt](https://imgs.wantubizhi.com/img/ADDA3C5D760C6828B77B505A29D43E83F20DE1267C4AD3D78BA892832FF5F0B8DBCFE9286AE50EE258052F55D59BEFEB1DEF7424C46D6DC556C5CBD1918B93B5C262312D3E1DF97B83C07892F4FB078F8A64BC6B0C2D89EA5D0685EF3299DFE1)
异质结ppt
图片尺寸1080x810![北航nanoletters异质结结构对钠离子电池负极的巨大提升作用](https://imgs.wantubizhi.com/img/A1A61BAA66193547F3A6DD7D8EE527E97AC27B8E776DB86CDE78105525F713FE6759270E6DA82D4C56276503474ACF98E55B55BAA6A1D586AD44517A21C13573ADE1516D6703CF9A5A8E9F9AAE72CC03A9712FED7ECEE3AE7A6DC67E7245D9E8)
北航nanoletters异质结结构对钠离子电池负极的巨大提升作用
图片尺寸640x355![scms外延生长金属半导体异质结用于增强晶体管和光电探测器性能](https://imgs.wantubizhi.com/img/A1A61BAA66193547F3A6DD7D8EE527E92CAC8448CD5F3B341D70817BAA26131C0C7BBAF5DF52884523E6F03B96088CFA26415BE7B9A1AB1831C7B54A8894370BC2A15B6A2D636E7D4CB6DCC2FE19A63208C1D3094212798AE0901C969436B8C6)
scms外延生长金属半导体异质结用于增强晶体管和光电探测器性能
图片尺寸900x828![从吃货的角度分析范德瓦尔斯异质结成为热点是必然趋势](https://imgs.wantubizhi.com/img/A1A61BAA66193547F3A6DD7D8EE527E948AD6D2B53A0FD3E7CDE8D3A0F501B918A616DD08E949EF7905F85729ADE0D227B5CEF0F9E749E72403437335188491AFDB59E062704040462EC98912F6A0964681903453E8E0783072F9BA876891CED)
从吃货的角度分析范德瓦尔斯异质结成为热点是必然趋势
图片尺寸600x406![target="_blank" href="/item/半导体">半导体 /a>的 b>异质结 /b>是](https://imgs.wantubizhi.com/img/735A5D1F980B52A636CC46F12F2D1A73990F8BFB006A75F4B81476BCB728E504B2FA60000AA715B03BC990A0891400C7BBDA45EEFC4BAB72B62A0DE70B79B54A84ECE4B124E8CB667A1204C6987330C6E5F7BB9066C18EC8F828DC30D301D33D)
target="_blank" href="/item/半导体">半导体 /a>的 b>异质结 /b>是
图片尺寸390x236![cspbx3zns量子点异质结一种稳定性高光电性能可调的新型功能材料](https://imgs.wantubizhi.com/img/735A5D1F980B52A636CC46F12F2D1A73FBF48E347FC3BC57FEA7BCBCD3B915FBCEFA5F1B888043EB5A1A1E131B23118711B8ACED49F0A1C39F43D69CDB5CB0D971F77B0F726DEC00F5D7D602EC02B30DE0797044520BBF677D9435FDCEAC3BC4)
cspbx3zns量子点异质结一种稳定性高光电性能可调的新型功能材料
图片尺寸601x500![异质结材料是由两种不同元素或不同成分材料所构成的一定结型的半导体](https://imgs.wantubizhi.com/img/735A5D1F980B52A636CC46F12F2D1A738D834B18F62C85235CBF2677CE64B0036A25992746E7033B05B4A725CEB04156311B7AB97E142BE65934EB2DA8CC7CFF256C9F3065DC46B31CBC5EC07C7C9D049BB85B85A7E1EA1E50F6A8DE411091A5)
异质结材料是由两种不同元素或不同成分材料所构成的一定结型的半导体
图片尺寸700x467![南大缪峰团队在二维光电异质结加密电路方面取得重要进展](https://imgs.wantubizhi.com/img/ADDA3C5D760C6828B77B505A29D43E8392502BC39237C9699A0E20F541B3612C229ECBFC7A08DDB9370B4B88476536A07AF12F91514BDFC9E74FD3CBEC2CFD6902565E6C6185D45584285305956A88B1B65F691360864CEFCB40462124250B14)
南大缪峰团队在二维光电异质结加密电路方面取得重要进展
图片尺寸908x856![npj:mos2-范德华异质结—催化析氢新高度](https://imgs.wantubizhi.com/img/A1A61BAA66193547F3A6DD7D8EE527E9DECDB993B590AB69EF50B7A0C0742E0500E53D33EC56EC6E344C3B9FC8FB33BEFA52589027844C16FAED10C9EE9AA4585F56FCF0D1F63D4C2B072246FAA6511B861219664714910E29DE841C52E03062)
npj:mos2-范德华异质结—催化析氢新高度
图片尺寸786x368![acs nano:中科院半导体所-异质结一步生长及缺陷诱导生成理论](https://imgs.wantubizhi.com/img/735A5D1F980B52A636CC46F12F2D1A731F967310B11828A8607CB36F8F48BF2819186CD83EE9C1E2E2E0A76A7C74E94FF49CCF3D4180FA871A6BBCB9084B83AE81D34F684944385D45DE64A527C03DFE202C2F61DF61128C2F8106BE0DBF51E4)
acs nano:中科院半导体所-异质结一步生长及缺陷诱导生成理论
图片尺寸600x658![science综述二维材料范德华异质结](https://imgs.wantubizhi.com/img/735A5D1F980B52A636CC46F12F2D1A73CA9528F1C675FA262E709EE6002707368AC00A66F85A727DC8F518B3DE39D9C28B80E8AA1A67332C4CBF1D6B5121002E7DC6726608DDF3BE111CB7C309E97017B69A005386FBD7A243FD20216B033FCB)
science综述二维材料范德华异质结
图片尺寸755x1096![南科大俞大鹏北大廖志敏advmater2d3d狄克拉半金属异质结](https://imgs.wantubizhi.com/img/ADDA3C5D760C6828B77B505A29D43E83597EFCE27F74E4D98A061FA9BA7B0E3BADF3E0AD928FE4946E5D0B59AC927EA95D2A520BD4E6230DB0312AB2EAFFDFDFF3704DC68560A2BEE66EAD07FECD4937C5AB749F7C57580BF5BCF8B2DF170379)
南科大俞大鹏北大廖志敏advmater2d3d狄克拉半金属异质结
图片尺寸600x442![李振兴团队advscico‐ldhmof核壳异质结界面结构高效析氧便宜好用](https://imgs.wantubizhi.com/img/A1A61BAA66193547F3A6DD7D8EE527E97979FA37476830E1F02377506D3B4CDD28EF591FFF0CFEB8F41B67FC6AC559CB313BD996BCEA68A75C3AA2CFB83058783A17D6A9FC38B9375465CE6CD1C5A86E1D8CD6521433A8B0E03B142D17E66220)
李振兴团队advscico‐ldhmof核壳异质结界面结构高效析氧便宜好用
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