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915777

Sigma-Aldrich

1-Ethyl-3-methylimidazolium tetracyanoborate Solarpur®

Sinonimo/i:

EMIM TCB Solarpur®, [EMIM][B(CN)4]

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25 G
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25 G
157,00 €

About This Item

Formula empirica (notazione di Hill):
C10H11BN6
Numero CAS:
Peso molecolare:
226.05
Numero MDL:
Codice UNSPSC:
12352103
NACRES:
NA.23

157,00 €


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Saggio

≥99.5% (HPLC)

Livello qualitativo

Stato

liquid

Impurezze

≤100 ppm Halides
≤100 ppm Water

Stringa SMILE

[B-](C#N)(C#N)(C#N)C#N.[n+]1(c[n](cc1)C)CC

InChI

1S/C6H11N2.C4BN4/c1-3-8-5-4-7(2)6-8;6-1-5(2-7,3-8)4-9/h4-6H,3H2,1-2H3;/q+1;-1
CPZCMVDICTVHIP-UHFFFAOYSA-N

Applicazioni

1-Ethyl-3-methylimidazolium tetracyanoborate can be utilized as an electrolyte or component in the electrolyte formulation of dye-sensitized solar cells. Ionic liquids, including1-Ethyl-3-methylimidazolium tetracyanoborate, can be used as components in advanced energy storage systems such as supercapacitors or batteries.
EMIM TCB Solarpur® is high-purity, low friction electronic grade ionic liquid electrolyte for various applications including transparent electrodes for stretchable electronics[1][2], DSSCs[3], and gas separation membranes[4].

Solarpur® electrolyte components for DSSC applications meet the highest purity standards regarding water and other impurities required for this technology.

Note legali

Solarpur is a registered trademark of Merck KGaA, Darmstadt, Germany

Pittogrammi

Skull and crossbones

Avvertenze

Danger

Indicazioni di pericolo

Classi di pericolo

Acute Tox. 2 Oral

Codice della classe di stoccaggio

6.1A - Combustible acute toxic Cat. 1 and 2 / very toxic hazardous materials

Classe di pericolosità dell'acqua (WGK)

WGK 3

Punto d’infiammabilità (°F)

Not applicable

Punto d’infiammabilità (°C)

Not applicable


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Mei Ying Teo et al.
ACS applied materials & interfaces, 9(1), 819-826 (2016-12-20)
Stretchable conductive materials have received great attention owing to their potential for realizing next-generation stretchable electronics. However, the simultaneous achievement of excellent mechanical stretchability and high electrical conductivity as well as cost-effective fabrication has been a significant challenge. Here, we
Mingshi Jin et al.
Journal of nanoscience and nanotechnology, 12(1), 815-821 (2012-04-25)
The light harvesting efficiency of dye-sensitized solar cells was enhanced by using a scattering layer. Such as sphere type TiO2, inverse photonic crystal TiO2, hollow spherical TiO2. Among these materials, the TiO2 with inverse photonic crystal (IPC) structure, synthesized by
Scalable application of thin film coating techniques for supported liquid membranes for gas separation made from ionic liquids.
Gruenauer J, et al.
Journal of Membrane Science , 518, 178-191 (2016)
Enhanced Efficiency of Dye-Sensitized Solar Cells with Mesoporous-Macroporous TiO2 Photoanode Obtained Using ZnO Template.
Pham T T T, et al.
Journal of Electronic Materials, 46(6), 3801-3807 (2017)
Seyoung Kee et al.
Advanced materials (Deerfield Beach, Fla.), 30(3) (2017-12-07)
Despite the high expectation of deformable and see-through displays for future ubiquitous society, current light-emitting diodes (LEDs) fail to meet the desired mechanical and optical properties, mainly because of the fragile transparent conducting oxides and opaque metal electrodes. Here, by

Articoli

To achieve net-zero emissions by 2050, renewable power contributions must triple. Photovoltaic stations provide vital utility power, achieved primarily through third- and fourth-generation technology. Promising trends include recycling and revolutionary, ultra-lightweight, flexible, and printable solar cells.

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