High capacity high efficiency silicon oxide SIO-C composite anode material for EV battery

The parameter of High capacity high efficiency silicon oxide SIO-C composite anode material for EV battery can vary depending on the specific application and design requirements. Sibẹsibẹ, some common parameters that may be relevant include:

(High capacity high efficiency silicon oxide SIO-C composite anode material for EV battery)

oOverview of High capacity high efficiency silicon oxide SIO-C composite anode material for EV battery

Ohun elo Silicon anode jẹ yiyan agbara giga si awọn anodes graphite ibile ni awọn batiri litiumu-ion. Silikoni, pẹlu awọn oniwe- significantly ti o ga tumq si pato agbara (nipa 4200 mAh/g akawe si graphite 372 mAh/g), ileri lati bosipo mu iwuwo agbara ti awọn batiri. Ẹya yii ti jẹ ki awọn anodes silikoni jẹ aaye idojukọ ti iwadii ati idagbasoke fun awọn batiri iran ti nbọ, pataki ni awọn ohun elo to nilo igbesi aye batiri ti o gbooro sii tabi iwuwo dinku, gẹgẹbi awọn ọkọ ayọkẹlẹ itanna (EVs) ati ẹrọ itanna to ṣee gbe.

Features of High capacity high efficiency silicon oxide SIO-C composite anode material for EV battery

Agbara Litiumu-Ion ti o ga: Ohun alumọni le fipamọ pupọ diẹ sii litiumu ju lẹẹdi, Abajade nipa imọ-jinlẹ ni awọn ilọsiwaju idaran ninu iwuwo agbara batiri.

Ọpọlọpọ ati Alagbero: Silikoni jẹ ẹya keji ti o pọ julọ ni erunrun Earth, ṣiṣe ni imurasilẹ wa ati aṣayan alagbero fun iṣelọpọ batiri.

O pọju Idinku kekere: Ṣe irọrun ifibọ litiumu to munadoko lakoko gbigba agbara batiri.

Ti kii ṣe Oloro: Ko dabi diẹ ninu awọn ohun elo ti o ni agbara giga, silikoni kii ṣe majele ati ore ayika.

Awọn italaya pẹlu Imugboroosi Iwọn didun: Ohun alumọni ni iriri a volumetric imugboroosi ti to 400% lori gbigba litiumu, yori si darí wahala ati ki o pọju elekiturodu ibaje.

(High capacity high efficiency silicon oxide SIO-C composite anode material for EV battery)

Parameters of High capacity high efficiency silicon oxide SIO-C composite anode material for EV battery

The parameter of High capacity high efficiency silicon oxide SIO-C composite anode material for EV battery can vary depending on the specific application and design requirements. Sibẹsibẹ, some common parameters that may be relevant include:

1. Electric field strength: This is the maximum voltage that anode can withstand before it breaks down or is damaged.
2. Ah rating: This refers to the amount of energy stored in one hour of operation.
3. Energy density: This is the amount of energy per unit volume of the anode material.
4. Cycle life: This is the number of times an anode material is recycled before it becomes worn out.
5. Safety factor: This is a measure of the safe level of voltage that can be applied to the anode material without causing damage.
6. Thermal stability: This refers to the ability of the anode material to maintain its structural integrity at elevated temperatures.

These parameters can provide insight into the performance characteristics of a particular high capacity high efficiency silicon oxide SIO-C composite anode material for EV batteries, but they should not be used as the sole determinant of the material’s suitability for use in electric vehicles. Other factors such as cost, manufacturing process, and environmental impact also need to be considered.

(High capacity high efficiency silicon oxide SIO-C composite anode material for EV battery)

Applications of High capacity high efficiency silicon oxide SIO-C composite anode material for EV battery

Awọn ẹrọ itanna (EVs): Awọn ohun alumọni ohun alumọni le fa awọn sakani awakọ EV ni pataki nipasẹ jijẹ iwuwo agbara batiri.

Onibara Electronics: Ṣe ilọsiwaju igbesi aye batiri ni awọn fonutologbolori, kọǹpútà alágbèéká, ati wearables, muu awọn ẹrọ tinrin tabi awọn akoko lilo to gun.

Awọn ọna ipamọ Agbara (ESS): Ṣe ilọsiwaju ṣiṣe ibi-itọju agbara iwọn akoj ati iye akoko fun awọn orisun agbara isọdọtun bii oorun ati afẹfẹ.

Ofurufu: Mu awọn batiri fẹẹrẹfẹ ati agbara diẹ sii fun awọn ọkọ ofurufu ti ko ni eniyan (UAVs) ati awọn satẹlaiti.

Ifihan ile ibi ise

Graphite-Corp jẹ igbẹkẹle agbayekemikali ohun elo olupese & olupese pẹlu diẹ sii ju ọdun 12-iriri ni ipese Super ga-didara lulú graphite ati awọn ọja graphene.

Ile-iṣẹ naa ni ẹka imọ-ẹrọ ọjọgbọn ati Ẹka Abojuto Didara, yàrá ti o ni ipese daradara, ati ipese pẹlu to ti ni ilọsiwaju igbeyewo ẹrọ ati lẹhin-tita onibara iṣẹ aarin.

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FAQs of High capacity high efficiency silicon oxide SIO-C composite anode material for EV battery

Q: Kini idi ti ohun alumọni ko ti lo ni lilo pupọ ni awọn batiri iṣowo ti o ba ni iru agbara giga bẹ?
A: Imugboroosi iwọn didun nla ti Silikoni lakoko gbigba agbara yori si ibajẹ elekiturodu ati igbesi aye ọmọ ti o dinku. Awọn oniwadi n ṣiṣẹ lori bibori ọran yii nipasẹ imọ-ẹrọ ohun elo ati awọn imotuntun apẹrẹ.

Q: Bawo ni awọn oniwadi ṣe koju ọran ti imugboroja iwọn silikoni?
A: Awọn ilana pẹlu lilo ohun alumọni nanostructured, ṣiṣẹda ohun alumọni composites pẹlu erogba tabi awọn ohun elo miiran, ati siseto awọn ẹya la kọja lati gba imugboroja.

Q: Is High capacity high efficiency silicon oxide SIO-C composite anode material for EV battery more expensive than graphite ones?
A: Ohun alumọni mimọ jẹ din owo ju lẹẹdi, ṣugbọn sisẹ ati imọ-ẹrọ ti o nilo lati jẹ ki o ṣee ṣe bi ohun elo anode le mu awọn idiyele pọ si. Sibẹsibẹ, awọn ilọsiwaju ninu awọn ilana iṣelọpọ ni a nireti lati dinku awọn idiyele lori akoko.

Q: Does High capacity high efficiency silicon oxide SIO-C composite anode material for EV battery affect battery charging time?
A: Awọn anodes silikoni nikan ko ni ipa lori iyara gbigba agbara, ṣugbọn apẹrẹ batiri ati yiyan awọn paati miiran le ni agba awọn oṣuwọn gbigba agbara.

Q: Kini ipo lọwọlọwọ ti imọ-ẹrọ anode silikoni ni awọn batiri iṣowo?
A: Diẹ ninu awọn aṣelọpọ ti n ṣafikun ohun alumọni tẹlẹ sinu awọn anodes graphite ni fọọmu idapọpọ lati jẹki agbara niwọntunwọnsi, nigba ti awọn miiran n ṣe idagbasoke ohun alumọni mimọ tabi awọn anodes composite silikoni fun awọn ohun elo ipari-giga. Sibẹsibẹ, Iṣowo kaakiri ti awọn anodes ohun alumọni mimọ tun wa ni ilọsiwaju bi awọn oniwadi ṣe n ṣiṣẹ lati mu ilọsiwaju igbesi aye ọmọ ati iṣelọpọ.

(High capacity high efficiency silicon oxide SIO-C composite anode material for EV battery)

(High capacity high efficiency silicon oxide SIO-C composite anode material for EV battery)