在數(shù)據(jù)庫(kù)中���,破冰根據(jù)材料的某些屬性可以建立機(jī)器學(xué)習(xí)模型����,便可快速對(duì)材料的性能進(jìn)行預(yù)測(cè)����,甚至是設(shè)計(jì)新材料,解決了周期長(zhǎng)�、成本高的問(wèn)題這也說(shuō)明,和利家具企業(yè)的對(duì)手可能將不是本行業(yè)���,而是來(lái)自外界�����,他們所做的將是從用戶(hù)開(kāi)始���,這種逆向思維將會(huì)對(duì)傳統(tǒng)家具企業(yè)發(fā)起革命。家具企業(yè):時(shí)國(guó)年技術(shù)創(chuàng)新現(xiàn)在的企業(yè)基本都是以占據(jù)市場(chǎng)為目的研發(fā)產(chǎn)品����,時(shí)國(guó)年再加上行業(yè)的各種潛規(guī)則導(dǎo)致好的產(chǎn)品不被接納,消費(fèi)者對(duì)行業(yè)的認(rèn)知度較低���,沒(méi)有辨別能力����,這種惡性循環(huán)阻礙了行業(yè)的技術(shù)研發(fā),同時(shí)價(jià)格主導(dǎo)市場(chǎng)的因素也讓眾多的中小企業(yè)沒(méi)有更多的精力與財(cái)力來(lái)做產(chǎn)品的研發(fā)與創(chuàng)新����。
同時(shí)大家也各自為政,發(fā)展很多的優(yōu)勢(shì)與資源(資金與人才分散)沒(méi)有得到有效的利用��,發(fā)展自然也就降低企業(yè)的競(jìng)爭(zhēng)力了�����,所以行業(yè)資源整合必然會(huì)成為下一個(gè)話(huà)題���。財(cái)富中國(guó)網(wǎng)訊��,破冰經(jīng)濟(jì)在發(fā)展�,破冰市場(chǎng)在進(jìn)步��,市場(chǎng)變化也是一息之間��,那么在家具行業(yè)中�����,大魚(yú)吃小魚(yú)的現(xiàn)象逐漸凸顯���,疏于創(chuàng)新的企業(yè)無(wú)疑是落后的��,在落后就要挨打的年代�,無(wú)疑給企業(yè)敲響了創(chuàng)新的警鐘����,家具企業(yè)今天不加快創(chuàng)新,明天必定被別人所取代��。
在市場(chǎng)發(fā)生急劇變化的情況下����,和利并不是硬挺過(guò)來(lái)就沒(méi)事的,家具企業(yè)要抓住變化趨勢(shì)��,贏得客戶(hù)�����,才能化險(xiǎn)為夷�����。
家具企業(yè):時(shí)國(guó)年加強(qiáng)技術(shù)創(chuàng)新以消費(fèi)者為核心發(fā)展(圖片來(lái)源網(wǎng)絡(luò))家具企業(yè):時(shí)國(guó)年資源整合由于家具行業(yè)的起點(diǎn)門(mén)檻低�,導(dǎo)致于現(xiàn)在的家具企業(yè)產(chǎn)能過(guò)剩�,品牌泛濫����,然而大多數(shù)的企業(yè)日子過(guò)得并不輕松,產(chǎn)品同質(zhì)化日益嚴(yán)重����。發(fā)展圖4Zn2+誘導(dǎo)H47RhuA-C(2H)自組裝成3D晶體(A)?Zn2+誘導(dǎo)的3DH47RhuA-C(2H)晶體結(jié)構(gòu)示意圖。
文獻(xiàn)鏈接:破冰NoncovalentSelf-AssemblyofProteinCrystalswithTunableStructures(NanoLett.,?2021�����,破冰DOI:10.1021/acs.nanolett.0c04587)【團(tuán)隊(duì)在該領(lǐng)域工作匯總】MingmingDu,KunZhou,RunzeYu,YufengZhai,GangChen,QiangbinWang*.NoncovalentSelf-AssemblyofProteinCrystalswithTunableStructures.?NanoLett.,2021,DOI:10.1021/acs.nanolett.0c04587.KunZhou+,YihaoZhou+,HongchaoYang,HuileJin,YonggangKe*,QiangbinWang*.InterfaciallyBridgingCovalentNetworkYieldsHyperstableandUltralongVirus-basedFibersforEngineeringFunctionalMaterials.Chem.Int.Ed.,2020,59,18249-18255.JinyiDong+,MengWang+,YihaoZhou,ChaoZhou*,?QiangbinWang*.DNA-BasedAdaptivePlasmonicLogicGates.?Chem.Int.Ed.,?2020,59,15038-15042.KunZhou,YihaoZhou,VictorPan,QiangbinWang*,YonggangKe*.ProgrammingDynamicAssemblyofViralProteinswithDNAOrigami.?Am.Chem.Soc.,2020,142,5929-5932.MingmingDu,KunZhou*,XiaoWang,JiantingZhang,YejunZhang,JinchenDong,LonglongWu,ZhiQiao,GangChen*,QiangbinWang*.PreciseFabricationofDeNovoNanoparticleLatticesonDynamic2DProteinCrystallineLattices.NanoLett.,2020,20,1154-1160.JiantingZhang,KunZhou,YejunZhang,MingmingDu,QiangbinWang*.PreciseSelf-AssemblyofNanoparticlesintoOrderedNanoarchitecturesDirectedbyTobaccoMosaicVirusCoatProtein.?Mater.,?2019,31,?1901485.KunZhou,YonggangKe,QiangbinWang*.SelectiveinSituAssemblyofViralProteinontoDNAOrigami.Am.Chem.Soc.,?2018,140,8074-8077.ChenqiShen,XiangLan,ChengganZhu,WeiZhang,LeyuWang*,?QiangbinWang*.SpiralPatterningofAuNanoparticlesonAuNanorodSurfacetoFormChiralAuNR@AuNPHelicalSuperstructuresTemplatedbyDNAOrigami.?Adv.Mater.,?2017,?29,1606533.ChenqiShen,XiangLan,XuxingLu,TravisA.Meyer,WeihaiNi,YonggangKe*,?QiangbinWang*.Site-SpecificSurfaceFunctionalizationofGoldNanorodsUsingDNAOrigamiClamps.Am.Chem.Soc.,2016,138,1764-1767.XiangLan,XuxingLu,ChenqiShen,YonggangKe,WeihaiNi,?QiangbinWang*.AuNanorodHelicalSuperstructureswithDesignedChirality.?J.Am.Chem.Soc.,?2015,137,457-462.【相關(guān)優(yōu)質(zhì)文獻(xiàn)推薦】MingmingDu,KunZhou*,XiaoWang,JiantingZhang,YejunZhang,JinchenDong,LonglongWu,ZhiQiao,GangChen*,QiangbinWang*.PreciseFabricationofDeNovoNanoparticleLatticesonDynamic2DProteinCrystallineLattices.NanoLett.,2020,20,1154-1160.JiantingZhang,KunZhou,YejunZhang,MingmingDu,QiangbinWang*.PreciseSelf-AssemblyofNanoparticlesintoOrderedNanoarchitecturesDirectedbyTobaccoMosaicVirusCoatProtein.?Mater.,?2019,31,?1901485.KunZhou,YonggangKe,QiangbinWang*.SelectiveinSituAssemblyofViralProteinontoDNAOrigami.Am.Chem.Soc.,?2018,140,8074-8077.ChenqiShen,XiangLan,ChengganZhu,WeiZhang,LeyuWang*,?QiangbinWang*.SpiralPatterningofAuNanoparticlesonAuNanorodSurfacetoFormChiralAuNR@AuNPHelicalSuperstructuresTemplatedbyDNAOrigami.?Adv.Mater.,?2017,?29,1606533.ChenqiShen,XiangLan,XuxingLu,TravisA.Meyer,WeihaiNi,YonggangKe*,?QiangbinWang*.Site-SpecificSurfaceFunctionalizationofGoldNanorodsUsingDNAOrigamiClamps.Am.Chem.Soc.,2016,138,1764-1767.XiangLan,XuxingLu,ChenqiShen,YonggangKe,WeihaiNi,?QiangbinWang*.AuNanorodHelicalSuperstructureswithDesignedChirality.?J.Am.Chem.Soc.,?2015,137,457-462.本文由木文韜翻譯��,材料牛整理編輯���。和利【引言】操控納米級(jí)構(gòu)筑基元組裝成高度有序的晶體結(jié)構(gòu)已經(jīng)吸引了大量的研究興趣��。
時(shí)國(guó)年圖3H47RhuA-C(2H)蛋白通過(guò)非共價(jià)相互作用自組裝成3D晶體(A)3D晶體的熒光照片���。發(fā)展插圖顯示了沿白色箭頭的輪廓。