夏暉教授團(tuán)隊(duì)近年來在三維薄膜電極和全固態(tài)薄膜鋰電池方向的代表性文章匯總?cè)缦拢捍紴殚L總[1]?QiuyingXia+,QinghuaZhang+,ShuoSun,FiazHussain,ChunchenZhang,XiaohuiZhu,FanqiMeng,KaimingLiu,HaoGeng,JingXu,FengZan,PengWang,LinGu*,HuiXia*,TunnelIntergrowthLixMnO2?NanosheetArraysas3DCathodeforHigh‐PerformanceAll-Solid-StateThinFilmLithiumMicrobatteries,AdvancedMaterials(2021)https://doi.org/10.1002/adma.202003524.[2]?XiaohuiZhu+,FanqiMeng+,QinghuaZhang+,LiangXue,HeZhu,SiLan,QiLiu*,JingZhao,YuhangZhuang,QiuboGuo,BoLiu,LinGu*,XiaLu,YangRen,HuiXia*,LiMnO2?cathodestabilizedbyinterfacialorbitalorderingforsustainablelithium-ionbatteries,NatureSustainability(2021)https://doi.org/10.1038/s41893-020-00660-9.[3]?Xiaohui+,QiuyingXia+,XinyiLiu,QinghuaZhang,JingXu,BaoweiLin,ShungLi,YuhangZhuang,CeQiu,LiangXue,LinGu*,HuiXia*,Retardedlayered-to-spinelphasetransitioninstruturereinforcedbirnessitewithhighLicontent,ScienceBulletin(2021)https://doi.org/10.1016/j.scib.2020.09.032.[4]?ShuoSun+,QiuyingXia+,JiziLiu,JingXu,FengZan,JiliYue,SergueiV.Savilov,ValeryV.Lunin,HuiXia*,Self-standingoxygen-deficientα-MnO3-xnanoflakearraysas3Dcathodeforadvancedall-solid-statethinfilmlithiumbatteries,JournalofMateriomics5(2019)229.[5]QiuyingXia+,MingzhuNi+,MinghuaChen,HuiXia*,Low-temperaturesynthesizedself-supportedsingle-crystallineLiCoO2?nanoflakearraysasadvanced3Dcathodesforflexiblelithium-ionbatteries,?JournalofMaterialsChemistryA?7(2019)6187.[6]?LiangXue+,QinghuaZhang+,XiaohuiZhu,LinGu*,JiliYue,QiuyingXia,TingXing,TingtingChen,YaoYao,HuiXia*,3DLiCoO2?nanosheetsassemblednanorodarraysviaconfineddissolution-recrystallizationforadvancedaqueouslithium-ionbatteries,NanoEnergy56(2019)463.[7]?QiuyingXia+,ShuoSun+,JingXu,FengZan,JiliYue,QinghuaZhang,LinGu,HuiXia*,Self-standing3DCathodesforAll-Solid-StateThinFilmLithiumBatterieswithImprovedInterfaceKinetics,Small14(2018)1804149.[8]?LiangXue,SergueiV.Savilov,ValeryV.Lunin,andHuiXia*,Self-StandingPorousLiCoO2?NanosheetArraysas3DCathodesforFlexibleLi-IonBatteries,AdvancedFunctionalMaterials28(2018)1705836.[9]夏求應(yīng),醇為長總孫碩,徐璟���,昝峰�,岳繼禮�,夏暉*,薄膜型全固態(tài)鋰電池��,儲能科學(xué)與技術(shù)�����,7(2018)565.[10]孫碩�����,倪明珠����,昝峰*,夏求應(yīng)���,徐璟���,岳繼禮,夏暉*�,非晶無機(jī)固態(tài)電解質(zhì)的研究進(jìn)展,硅酸鹽學(xué)報����,10(2019)1357.�����。電科董事(g)柔性3DLMO-TFBLED在不同彎曲狀態(tài)下的光學(xué)圖像。院選國際鋰電池學(xué)會青年科學(xué)家獎(2012)����。
根據(jù)STEM結(jié)果和DFT計算����,舉胡經(jīng)理1×3和1×2隧道結(jié)構(gòu)非常穩(wěn)定,允許1Li占據(jù)隧道位置���,大約0.7Li可逆地從LixMnO2中插層/脫出���。醇為長總(f)LixMnO2在充放電過程中的電化學(xué)反應(yīng)過程示意圖。
至今為止已經(jīng)發(fā)表150余篇SCI論文��,電科董事包括Nat.Sustain.、Nat.Commun.���、Adv.Mater.等�,論文引用11000余次�����,H因子57����。
(e)在電流密度為200mAg-1時,院選3DLMO-TFB在2.0-4.3V之間的不同循環(huán)次數(shù)下的充放電曲線��。揚(yáng)聲器模式:舉胡經(jīng)理將LGOLEDR1屏幕卷曲收納到底座中�,并配合4.2聲道100W揚(yáng)聲器與杜比全景聲為用戶提供歌曲播放。
全景模式:醇為長總即電視模式����,用戶可以通過LGOLEDR1觀看影視內(nèi)容把它的狗糧和一些它喜歡的食物混合在一起,電科董事可以讓它更愿意吃狗糧�����。
如果狗糧的質(zhì)量不佳�,院選您的小狗可能會拒絕它����。最后���,舉胡經(jīng)理您也可以嘗試給它的狗糧加一些潤味劑���。