Kummandla we-silicon yesinyithi, ukuqhubela phambili kwamva nje kuphawule ukutsibela phambili okubalulekileyo kuzo zombini usetyenziso lwemizi-mveliso kunye nokwenziwa kwezinto ezintsha zobuchwepheshe. Nalu ushwankathelo lweendaba zamva nje:
I-Metal Silicon kwiTekhnoloji yeBattery: Imboni ye-silicon yensimbi ibone uphuhliso oluphantsi ngokufika kweebhetri zetsimbi ze-lithium ezisebenzisa amasuntswana e-silicon kwi-anode. Abaphandi baseHarvard John A. Paulson School of Engineering and Applied Sciences baye baphuhlisa ibhetri entsha ye-lithium yentsimbi ekwazi ukuhlawuliswa kwaye ikhutshwe ubuncinane ngamaxesha angama-6,000, kunye nokukwazi ukuhlaziya kwakhona kwimizuzu. Olu phuhliso lunokuguqula izithuthi zombane ngokwandisa kakhulu umgama wabo wokuqhuba ngenxa yomthamo ophezulu we-lithium metal anode xa kuthelekiswa ne-graphite anode yorhwebo.
I-Industrial Silicon Futures Trading: I-China isungule ikamva le-silicon yokuqala yehlabathi, inyathelo elijolise ekuzinziseni amaxabiso esinyithi, esetyenziswa kakhulu kwiitshiphusi kunye neepaneli zelanga. Eli nyathelo lilindeleke ukuba liphucule amandla okulawula umngcipheko kwizigqeba zentengiso kwaye libe negalelo kwisantya sokukhula kwamandla amatsha kunye nophuhliso lohlaza. Ukuphehlelelwa kweekontraka zexesha elizayo ze-silicon kunye nokhetho kwakhona kuya kunceda ekwenzeni ixabiso laseTshayina elihambelana nesikali semalike yelizwe.
Ukufunda okuNzulu kwe-Metal Silicon Content Forecasting: Kwishishini lensimbi, indlela yenoveli esekelwe kwiSigaba se-LSTM (iMemori ende yeXesha elifutshane) iye yacetywa ukuqikelela umxholo we-silicon yentsimbi eshushu. Le ndlela ijongana nokunganyaniseki kwazo zombini igalelo kunye neempendulo eziguquguqukayo ezithathwe kwi-asynchronous intervals, zibonelela ngophuculo olubalulekileyo kwiimodeli zangaphambili. Olu kuqhubela phambili kumxholo we-silicon wokuxela kwangaphambili kunokukhokelela ekusebenzeni ngcono kunye nolawulo lobushushu kwinkqubo yokwenza intsimbi.
Ukuqhubela phambili kwi-Silicon-Based Based Composite Anodes: Uphando lwakutsha nje lujolise ekuguquleni i-silicon-based composite anodes kunye ne-metal-organic frameworks (MOFs) kunye nezinto eziphuma kuzo kwi-lithium-ion battery applications. Olu hlengahlengiso lujolise ekuphuculeni ukusebenza kwe-electrochemical ye-silicon anodes, enyanzelwa yi-intrinsic conductivity ephantsi kunye nokutshintsha kwevolumu enkulu ngexesha lokuhamba ngebhayisikili. Ukuhlanganiswa kwee-MOF kunye nezixhobo ezisekelwe kwi-silicon kunokukhokelela kwiinzuzo ezongezelelweyo ekusebenzeni kokugcinwa kwe-lithium-ion.
Uyilo lwebhetri yeState-State: Uyilo olutsha lwebhetri yelizwe elomeleleyo luphuhlisiwe olunokutshaja ngemizuzu kwaye luhlale amawaka emijikelo. Olu lutsha lusebenzisa amasuntswana e-silicon yobungakanani be-micron kwi-anode ukunqanda ukusabela kwe-lithiation kunye nokuququzelela i-homogeneous plating yomaleko oshinyeneyo wesinyithi se-lithium, ukuthintela ukukhula kweedendrites kunye nokuvumela ukutshaja ngokukhawuleza.
Olu phuhliso lubonisa ikamva elithembisayo le-silicon yesinyithi kumashishini ahlukeneyo, ngakumbi kugcino lwamandla kunye ne-semiconductors, apho iipropati zayo zidityaniswe ukudala itekhnoloji esebenzayo kunye neyomeleleyo.
Ixesha lokuposa: Oct-25-2024
