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400939

Sigma-Aldrich

Lithium titanate

greener alternative

−80 mesh

Synonim(y):

LTO

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About This Item

Wzór liniowy:
Li2TiO3
Numer CAS:
12031-82-2
Masa cząsteczkowa:
109.75
Numer WE:
234-759-6
Numer MDL:
MFCD00016181
Kod UNSPSC:
12352300
Identyfikator substancji w PubChem:
24864970
NACRES:
NA.23

Formularz

powder

charakterystyka ekologicznej alternatywy

Design for Energy Efficiency
Learn more about the Principles of Green Chemistry.

sustainability

Greener Alternative Product

wielkość cząstki

−80 mesh

kategoria ekologicznej alternatywy

Enabling,

ciąg SMILES

[Li+].[Li+].[O-][Ti]([O-])=O

InChI

1S/2Li.3O.Ti/q2*+1;;2*-1;

Klucz InChI

GLUCAHCCJMJHGV-UHFFFAOYSA-N

Powiązane kategorie

Opis ogólny

Lithium titanate (LTO) (-80 mesh) is a class of electrode material that can be used in the fabrication of lithium-ion batteries. Lithium-ion batteries consist of anode, cathode, and electrolyte with a charge-discharge cycle. These materials enable the formation of greener and sustainable batteries for electrical energy storage.
We are committed to bringing you Greener Alternative Products, which adhere to one or more of The 12 Principles of Greener Chemistry. This product has been enhanced for energy efficiency. Find details here.

Zastosowanie

Lithium titanate (LTO) can be used as an anode material, which shows an ion conductivity of 10−3 Scm−1 at room temperature. It can also be used as an alternative to conventional graphite materials. LTO can further be used in the fabrication of high-performance lithium-ion batteries for electric vehicles (EVs).
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Kod klasy składowania

11 - Combustible Solids

Klasa zagrożenia wodnego (WGK)

WGK 3

Temperatura zapłonu (°F)

Not applicable

Temperatura zapłonu (°C)

Not applicable

Środki ochrony indywidualnej

Eyeshields, Gloves, type N95 (US)

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Certyfikaty analizy (CoA)

Lot/Batch Number
MKCQ4011
MKCM9580
MKCM7654
MKCF6055
MKBV5571V

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Dokumenty związane z niedawno zakupionymi produktami zostały zamieszczone w Bibliotece dokumentów.

Odwiedź Bibliotekę dokumentów

Maedeh Amirmaleki et al.
Nanoscale, 11(40), 18730-18738 (2019-10-09)
All-solid-state batteries (ASSBs) have attracted much attention due to their enhanced energy density and safety as compared to traditional liquid-based batteries. However, cyclic performance depreciates due to microcrack formation and propagation at the interface of the solid-state electrolytes (SSEs) and
Woo Jin Hyun et al.
ACS nano, 13(8), 9664-9672 (2019-07-19)
Solid-state electrolytes based on ionic liquids and a gelling matrix are promising for rechargeable lithium-ion batteries due to their safety under diverse operating conditions, favorable electrochemical and thermal properties, and wide processing compatibility. However, gel electrolytes also suffer from low
Desiree Camara Miraldo et al.
Motor control, 1-13 (2020-08-19)
This study describes an open data set of inertial, magnetic, foot-ground contact, and electromyographic signals from wearable sensors during walking at different speeds. These data were acquired from 22 healthy adults using wearable sensors and walking at self-selected comfortable, fast
Sungmook Jung et al.
Scientific reports, 5, 17081-17081 (2015-11-26)
Wearable devices have attracted great attentions as next-generation electronic devices. For the comfortable, portable, and easy-to-use system platform in wearable electronics, a key requirement is to replace conventional bulky and rigid energy devices into thin and deformable ones accompanying the
Ling Ding et al.
ACS applied materials & interfaces (2020-11-18)
Electrode materials with a high performance and stable cycling have been commercialized, but the utilization of state-of-the-art Li-ion batteries in high-current rate applications is restricted because of limitations in other battery components, in particular, the lack of an efficient binder.
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