Lithium ion betri ea matla a phahameng a silicon carbon SI-C lisebelisoa tsa anode

The capacity of lithium-ion batteries with silicon carbide (SiC) as anode material can be influenced by various factors such as the type and quality of the materials, temperature, charge-discharge rate, etc. The most commonly used parameters for determining the capacity of SiC-based batteries include:

(Lithium ion betri ea matla a phahameng a silicon carbon SI-C lisebelisoa tsa anode)

.Overview of Lithium ion battery high capacity silicon carbon SI-C composition anode materials

Silicon anode material ke mokhoa o mong oa maemo a holimo ho feta li-anode tsa setso tsa graphite ka libeteri tsa lithium-ion.. Silicone, ka matla a eona a phahameng haholo a theory e khethehileng (ka 4200 mAh/g ha e bapisoa le ea graphite 372 mAh/g), e tšepisa ho eketsa matla a matla a betri. Karolo ena e entse li-anode tsa silicon e le ntlha ea mantlha ea lipatlisiso le nts'etsopele ea libeteri tsa moloko o latelang, haholo-holo lits'ebetsong tse hlokang bophelo bo bolelele ba betri kapa boima bo fokolitsoeng, joalo ka likoloi tsa motlakase (EVs) le lisebelisoa tsa elektronike tse nkehang.

Features of Lithium ion battery high capacity silicon carbon SI-C composition anode materials

Matla a phahameng a lithium-ion: Silicon e ka boloka lithium tse ngata ho feta graphite, ka khopolo e bakang lintlafatso tse kholo tsa matla a betri.

Nala le Moshoelella: Silicon ke ntho ea bobeli e ngata ka ho fetisisa karolong e ka holimo ea Lefatše, ho etsa hore e be kgetho e fumanehang habonolo le e tsitsitseng bakeng sa tlhahiso ya betri.

Monyetla o Tlase oa Phokotso: E thusa ho kenya lithium hantle nakong ea ho tjhaja betri.

Ha e na Chefo: Ho fapana le lisebelisoa tse ling tsa maemo a holimo, silicon ha e na chefo ebile ha e na tikoloho.

Mathata ka Katoloso ea Molumo: Silicon e na le katoloso ea volumetric ea ho fihla ho 400% ka ho kenngoa ha lithium, e lebisang khatellong ea mochini le ho senyeha ho ka bang teng ha li-electrode.

(Lithium ion betri ea matla a phahameng a silicon carbon SI-C lisebelisoa tsa anode)

Parameters of Lithium ion battery high capacity silicon carbon SI-C composition anode materials

The capacity of lithium-ion batteries with silicon carbide (SiC) as anode material can be influenced by various factors such as the type and quality of the materials, temperature, charge-discharge rate, etc. The most commonly used parameters for determining the capacity of SiC-based batteries include:

* Cell voltage: The voltage at which the cell reaches a stable state under continuous charging.
* Cell current: The maximum current that the cell can sustain while maintaining its stable state.
* Cell discharge capacity: The amount of energy stored in the cell during a full discharge cycle.
* Cycle life: The number of cycles through which the battery is operated before it fails.

Other important parameters to consider include:

* Cell thermal stability: The ability of the cell to maintain its structural integrity and avoid overheating during operation.
* Safety factors: The safety margin against overcharging, overdischarging, or short circuits.
* Cost-effectiveness: The affordability of the product, including both raw materials and manufacturing costs.

Ka kakaretso, the performance of a lithium-ion battery with SiC as anode material depends on a complex interplay of many factors, and it is important to carefully evaluate each parameter and take appropriate design decisions based on the specific application requirements.

(Lithium ion betri ea matla a phahameng a silicon carbon SI-C lisebelisoa tsa anode)

Applications of Lithium ion battery high capacity silicon carbon SI-C composition anode materials

Likoloi tsa Motlakase (EVs): Li-node tsa silicon li ka holisa maemo a ho khanna a EV haholo ka ho eketsa matla a betri.

Electronics ea bareki: Ntlafatsa bophelo ba betri ho li-smartphones, li-laptops, le tse aparoang, ho nolofalletsa disebediswa tse tshesane kapa nako e telele ya tshebediso.

Mekhoa ea ho boloka matla (ESS): Ntlafatsa bokhoni ba polokelo ea matla a grid-scale le nako bakeng sa mehloli ea matla e ka nchafatsoang joalo ka letsatsi le moea.

Sepakapaka: Lumella libeteri tse bobebe le tse matla ho feta bakeng sa likoloi tse sa sebetseng tsa sefofane (Li-UAV) le lisathelaete.

Boemo ba Khoebo

Graphite-Corp ke mokhatlo o tšepahalang lefatšeng ka bopharakhemikhale mofani oa thepa & moetsi ea nang le boiphihlelo bo fetang lilemo tse 12 ho fana ka phofo ea boleng bo holimo ea graphite le lihlahisoa tsa graphene.

Khampani e na le lefapha la litsebi tsa theknoloji le Lefapha la Tlhokomelo ea Boleng, laboratori e nang le lisebelisoa hantle, hape e na le lisebelisoa tse tsoetseng pele tsa tlhahlobo le setsi sa litšebeletso tsa bareki ka mor'a thekiso.

Haeba u batla phofo ea boleng bo holimo ea graphite le lihlahisoa tse amanang, ka kopo ikutloe u lokolohile ho ikopanya le rona kapa tobetsa lihlahisoa tse hlokahalang ho romella lipatlisiso.

Mekhoa ea Tefo

L/C, T/T, phetiso ea chelete e bitsoang western union, Paypal, Credit Card etc.

Thomello

E ne e ka tsamaisoa ka sekepe, ka moea, kapa ka ho senola ASAP hang feela ha resiti ea tefo.

FAQs of Lithium ion battery high capacity silicon carbon SI-C composition anode materials

Q: Ke hobane'ng ha silicon e se e sebelisoa haholo libeteri tsa khoebo haeba e na le matla a phahameng joalo?
A: Keketseho e kholo ea molumo oa silicon nakong ea ho tjhaja e lebisa ho senyeha ha li-electrode le ho fokotsa bophelo ba potoloho. Bafuputsi ba sebetsa ho hlola taba ena ka boenjineri ba lintho tse bonahalang le boqapi ba boqapi.

Q: Bafuputsi ba sebetsana joang le taba ea ho atolosoa ha molumo oa silicon?
A: Maano a kenyelletsa ho sebelisa silicon e nang le nanostructured, ho theha metsoako ea silicon e nang le k'habone kapa lisebelisoa tse ling, le ho rala meaho e nang le masoba ho amohela katoloso.

Q: Is Lithium ion battery high capacity silicon carbon SI-C composition anode materials more expensive than graphite ones?
A: Silicone e hloekileng e theko e tlaase ho feta graphite, empa ts'ebetso le boenjiniere bo hlokahalang ho etsa hore e sebetse e le thepa ea anode e ka eketsa litšenyehelo. Leha ho le joalo, ntlafatso ea mekhoa ea tlhahiso e lebelletsoe ho fokotsa litšenyehelo ha nako e ntse e ea.

Q: Does Lithium ion battery high capacity silicon carbon SI-C composition anode materials affect battery charging time?
A: Silicon anode feela ha e ame ka tlhaho lebelo la ho tjhaja, empa moralo oa betri le khetho ea likarolo tse ling li ka ama litefiso tsa ho tjhaja.

Q: Boemo ba hajoale ba theknoloji ea silicon anode ka libeteri tsa khoebo ke bofe?
A: Baetsi ba bang ba se ba ntse ba kenyelletsa silicon ho graphite anode ka mokhoa o kopantsoeng ho ntlafatsa bokhoni ka mokhoa o itekanetseng., ha ba bang ba ntse ba hlahisa silicon e hloekileng kapa silicon composite anode bakeng sa lisebelisoa tse phahameng. Leha ho le joalo, khoebo e atileng ea li-anode tse hloekileng tsa silicon e ntse e tsoela pele ha bafuputsi ba ntse ba sebetsa ho ntlafatsa bophelo ba potoloho le tlhahiso..

(Lithium ion betri ea matla a phahameng a silicon carbon SI-C lisebelisoa tsa anode)

(Lithium ion betri ea matla a phahameng a silicon carbon SI-C lisebelisoa tsa anode)