如果发现母猫阴门内有黏液流出,体验则说明马上又要分娩了,此时要将母猫放回产窝内。
一直从事纳米材料化学与纳米器件研究,下卫当前研究兴趣包括石墨烯、下卫拓扑绝缘体、二维硫族半导体等高迁移率二维材料的制备方法、化学调制与光电器件应用基础研究。图3.石墨烯在金属表面的生长示意图在制备高质量石墨烯的过程中,传奇往往需要引入氢气来促进碳源裂解,提高石墨烯的均匀性和质量。
1983年毕业于长春工业大学,霸业1984年留学日本,1990年获东京大学博士,1991-1993年东京大学和国立分子科学研究所博士后。还担任国家自然科学基金委员会第十四届专家评审组专家、体验中国化学会常务理事及纳米化学专业委员会创始主任、中国微米纳米技术学会常务理事。欢迎大家到材料人宣传科技成果并对文献进行深入解读,下卫投稿邮箱[email protected]。
文献链接:传奇BridgingtheGapbetweenRealityandIdealinChemicalVaporDepositionGrowthofGraphene.(Chem.Rev.118,18,9281-9343.DOI:10.1021/acs.chemrev.8b0032)【部分参考文献】[1] X.Li,W.Cai,L.Colombo,etal.Evolutionofgraphenegrowthonniandcubycarbonisotopelabeling[J].NanoLett,2009,9(12):4268-72.[2] W.Liu,S.Kraemer,D.Sarkar,etal.Controllableandrapidsynthesisofhigh-qualityandlarge-areabernalstackedbilayergrapheneusingchemicalvapordeposition[J].ChemMater,2014,26(2):907-15.[3] K.Yan,H.Peng,Y.Zhou,etal.Formationofbilayerbernalgraphene:Layer-by-layerepitaxyviachemicalvapordeposition[J].NanoLett,2011,11(3):1106-10.[4] L.Liu,H.Zhou,R.Cheng,etal.High-yieldchemicalvapordepositiongrowthofhigh-qualitylarge-areaab-stackedbilayergraphene[J].ACSNano,2012,6(9):8241-9.[5] Y.Hao,L.Wang,Y.Liu,etal.Oxygen-activatedgrowthandbandgaptunabilityoflargesingle-crystalbilayergraphene[J].NatureNanotechnology,2016,11(426).[6] T.Ma,Z.Liu,J.Wen,etal.Tailoringthethermalandelectricaltransportpropertiesofgraphenefilmsbygrainsizeengineering[J].NatureCommunications,2017,8(14486).[7] X.Li,C.W.Magnuson,A.Venugopal,etal.Graphenefilmswithlargedomainsizebyatwo-stepchemicalvapordepositionprocess[J].NanoLett,2010,10(11):4328-34.[8] H.Zhou,W.J.Yu,L.Liu,etal.Chemicalvapourdepositiongrowthoflargesinglecrystalsofmonolayerandbilayergraphene[J].NatureCommunications,2013,4(2096).[9] X.Li,C.W.Magnuson,A.Venugopal,etal.Large-areagraphenesinglecrystalsgrownbylow-pressurechemicalvapordepositionofmethaneoncopper[J].JAmChemSoc,2011,133(9):2816-9.[10] A.Mohsin,L.Liu,P.Liu,etal.Synthesisofmillimeter-sizehexagon-shapedgraphenesinglecrystalsonresolidifiedcopper[J].ACSNano,2013,7(10):8924-31.[11] J.-H.Lee,E.K.Lee,W.-J.Joo,etal.Wafer-scalegrowthofsingle-crystalmonolayergrapheneonreusablehydrogen-terminatedgermanium[J].Science,2014,344(6181):286-9.[12] L.Gao,W.Ren,H.Xu,etal.Repeatedgrowthandbubblingtransferofgraphenewithmillimetre-sizesingle-crystalgrainsusingplatinum[J].NatureCommunications,2012,3(699).[13] Z.Zhang,J.Du,D.Zhang,etal.Rosin-enabledultracleananddamage-freetransferofgrapheneforlarge-areaflexibleorganiclight-emittingdiodes[J].NatureCommunications,2017,8(14560).团队简介刘忠范中科院院士,传奇教授北京大学化学与分子工程学院个人简介北京大学博雅讲席教授(2016.11.21)、中国科学院院士(2011.12.10)、发展中国家科学院院士(2015.11)。霸业衬底的选择对于石墨烯的生长来说尤其重要。
外界条件控制主要包括温度、体验压强、气体的流速和种类、等离子化、加热方式等。
第十二届全国人大代表,下卫九三学社第十三届中央委员和院士工作委员会副主任,北京市人民政府专家咨询委员会委员,九三学社北京市主任委员。传奇石墨烯制备过程中有时采用化学性质稳定的氩气作为载气来调控碳源的浓度和体系压强。
文献链接:霸业BridgingtheGapbetweenRealityandIdealinChemicalVaporDepositionGrowthofGraphene.(Chem.Rev.118,18,9281-9343.DOI:10.1021/acs.chemrev.8b0032)【部分参考文献】[1] X.Li,W.Cai,L.Colombo,etal.Evolutionofgraphenegrowthonniandcubycarbonisotopelabeling[J].NanoLett,2009,9(12):4268-72.[2] W.Liu,S.Kraemer,D.Sarkar,etal.Controllableandrapidsynthesisofhigh-qualityandlarge-areabernalstackedbilayergrapheneusingchemicalvapordeposition[J].ChemMater,2014,26(2):907-15.[3] K.Yan,H.Peng,Y.Zhou,etal.Formationofbilayerbernalgraphene:Layer-by-layerepitaxyviachemicalvapordeposition[J].NanoLett,2011,11(3):1106-10.[4] L.Liu,H.Zhou,R.Cheng,etal.High-yieldchemicalvapordepositiongrowthofhigh-qualitylarge-areaab-stackedbilayergraphene[J].ACSNano,2012,6(9):8241-9.[5] Y.Hao,L.Wang,Y.Liu,etal.Oxygen-activatedgrowthandbandgaptunabilityoflargesingle-crystalbilayergraphene[J].NatureNanotechnology,2016,11(426).[6] T.Ma,Z.Liu,J.Wen,etal.Tailoringthethermalandelectricaltransportpropertiesofgraphenefilmsbygrainsizeengineering[J].NatureCommunications,2017,8(14486).[7] X.Li,C.W.Magnuson,A.Venugopal,etal.Graphenefilmswithlargedomainsizebyatwo-stepchemicalvapordepositionprocess[J].NanoLett,2010,10(11):4328-34.[8] H.Zhou,W.J.Yu,L.Liu,etal.Chemicalvapourdepositiongrowthoflargesinglecrystalsofmonolayerandbilayergraphene[J].NatureCommunications,2013,4(2096).[9] X.Li,C.W.Magnuson,A.Venugopal,etal.Large-areagraphenesinglecrystalsgrownbylow-pressurechemicalvapordepositionofmethaneoncopper[J].JAmChemSoc,2011,133(9):2816-9.[10] A.Mohsin,L.Liu,P.Liu,etal.Synthesisofmillimeter-sizehexagon-shapedgraphenesinglecrystalsonresolidifiedcopper[J].ACSNano,2013,7(10):8924-31.[11] J.-H.Lee,E.K.Lee,W.-J.Joo,etal.Wafer-scalegrowthofsingle-crystalmonolayergrapheneonreusablehydrogen-terminatedgermanium[J].Science,2014,344(6181):286-9.[12] L.Gao,W.Ren,H.Xu,etal.Repeatedgrowthandbubblingtransferofgraphenewithmillimetre-sizesingle-crystalgrainsusingplatinum[J].NatureCommunications,2012,3(699).[13] Z.Zhang,J.Du,D.Zhang,etal.Rosin-enabledultracleananddamage-freetransferofgrapheneforlarge-areaflexibleorganiclight-emittingdiodes[J].NatureCommunications,2017,8(14560).团队简介刘忠范中科院院士,霸业教授北京大学化学与分子工程学院个人简介北京大学博雅讲席教授(2016.11.21)、中国科学院院士(2011.12.10)、发展中国家科学院院士(2015.11)。在Cu表面生长单层石墨烯的过程主要包括(碳源前驱体以甲烷为例:体验(1)CH4在Cu表面的吸附与催化分解形成活性C碎片(CHx,x=0-3)(2)活性C碎片的表面迁移(3)活性C碎片形成稳定石墨烯核(4)石墨烯核的长大,体验进而畴区拼接成连续薄膜。
因此,下卫扩大晶畴的尺寸和控制晶畴的晶向一致并实现无缝拼接是增加单晶面积,减少晶界的关键要素。传奇金属Cu是目前生长石墨烯最理想的催化基底。
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