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Merck

400939

Sigma-Aldrich

Lithium titanate

greener alternative

−80 mesh

Sinónimos:

LTO

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About This Item

Fórmula lineal:
Li2TiO3
Número de CAS:
Peso molecular:
109.75
EC Number:
MDL number:
UNSPSC Code:
12352300
PubChem Substance ID:
NACRES:
NA.23

form

powder

Quality Level

greener alternative product characteristics

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

sustainability

Greener Alternative Product

particle size

−80 mesh

greener alternative category

SMILES string

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

InChI

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

Inchi Key

GLUCAHCCJMJHGV-UHFFFAOYSA-N

General description

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.

Application

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).

Storage Class

11 - Combustible Solids

wgk_germany

WGK 3

flash_point_f

Not applicable

flash_point_c

Not applicable

ppe

Eyeshields, Gloves, type N95 (US)


Certificados de análisis (COA)

Busque Certificados de análisis (COA) introduciendo el número de lote del producto. Los números de lote se encuentran en la etiqueta del producto después de las palabras «Lot» o «Batch»

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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.
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
Arailym Nurpeissova et al.
Nanomaterials (Basel, Switzerland), 10(10) (2020-10-15)
Low dimensional Si-based materials are very promising anode candidates for the next-generation lithium-ion batteries. However, to satisfy the ever-increasing demand in more powerful energy storage devices, electrodes based on Si materials should display high-power accompanied with low volume change upon
Man Huang et al.
Small (Weinheim an der Bergstrasse, Germany), 16(33), e2001391-e2001391 (2020-07-21)
The fast development of electrochemical energy storage devices necessitates rational design of the high-performance electrode materials and systematic and deep understanding of the intrinsic energy storage processes. Herein, the preintercalation general strategy of alkali ions (A = Li+ , Na+

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