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D79403

Bicyclohexyl

Name: Bicyclohexyl
Brand: ALDRICH

99%

Sinonimo/i:

1,1′-Bi(cyclohexyl), BCH, Dicyclohexyl

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About This Item

Formula condensata:

C₆H₁₁C₆H₁₁

Numero CAS:

92-51-3

Peso molecolare:

166.30

Beilstein:

1848266

Numero CE:

202-161-4

Numero MDL:

MFCD00003815

Codice UNSPSC:

12352100

ID PubChem:

24894172

NACRES:

NA.22

Saggio

99%

Forma fisica

liquid

Temp. autoaccensione

473 °F

Indice di rifrazione

n20/D 1.478 (lit.)

P. eboll.

227 °C (lit.)

Punto di fusione

3-4 °C (lit.)

Densità

0.864 g/mL at 25 °C (lit.)

Stringa SMILE

C1CCC(CC1)C2CCCCC2

InChI

1S/C12H22/c1-3-7-11(8-4-1)12-9-5-2-6-10-12/h11-12H,1-10H2
WVIIMZNLDWSIRH-UHFFFAOYSA-N

Informazioni sul gene

human ... CYP1A2(1544) , ESR1(2099)

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Categorie correlate

Building block organici

Chimica e biochimica

Applicazioni

Bicyclohexyl can be used as a reactant:

To synthesize 1-azido-1,1′-bi(cyclohexane) by Mn-catalyzed oxidative azidation method using nucleophilic NaN₃ as an azide source.
To prepare 1-fluoro-1,1′-bicyclohexyl using elemental fluorine.
In the aliphatic Friedel-Crafts reaction to prepare novel bicyclohexyl based oxygenated building block via C-H activation with aluminum trichloride and acetyl chloride.

Pittogrammi

GHS08,GHS07,GHS09

Avvertenze

Danger

Indicazioni di pericolo

H302,H304,H335,H410

Consigli di prudenza

P261 - P264 - P270 - P273 - P301 + P310 - P331

Classi di pericolo

Acute Tox. 4 Oral - Aquatic Acute 1 - Aquatic Chronic 2 - Asp. Tox. 1 - STOT SE 3

Organi bersaglio

Respiratory system

Codice della classe di stoccaggio

10 - Combustible liquids

Classe di pericolosità dell'acqua (WGK)

WGK 3

Punto d’infiammabilità (°F)

197.6 °F - closed cup

Punto d’infiammabilità (°C)

92 °C - closed cup

Dispositivi di protezione individuale

Eyeshields, Gloves, multi-purpose combination respirator cartridge (US)

Certificati d'analisi (COA)

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Manganese-Catalyzed Oxidative Azidation of C(sp3)-H Bonds under Electrophotocatalytic Conditions.

Linbin Niu et al.

Journal of the American Chemical Society, 142(41), 17693-17702 (2020-09-18)

The selective installation of azide groups into C(sp3)-H bonds is a priority research topic in organic synthesis, particularly in pharmaceutical discovery and late-stage diversification. Herein, we demonstrate a generalized manganese-catalyzed oxidative azidation methodology of C(sp3)-H bonds using nucleophilic NaN3 as

Aliphatic C-H activation with aluminium trichloride-acetyl chloride: expanding the scope of the Baddeley reaction for the functionalisation of saturated hydrocarbons.

Catherine L Lyall et al.

Organic & biomolecular chemistry, 11(9), 1468-1475 (2012-12-25)

The functionalisation of decalin by means of an "aliphatic Friedel-Crafts" reaction was reported over fifty years ago by Baddeley et al. This protocol is of current relevance in the context of C-H activation and here we demonstrate its applicability to

Understanding the contamination of food with mineral oil: the need for a confirmatory analytical and procedural approach.

Lionel W Spack et al.

Food additives & contaminants. Part A, Chemistry, analysis, control, exposure & risk assessment, 34(6), 1052-1071 (2017-03-28)

The contamination of food by mineral oil hydrocarbons (MOHs) found in packaging is a long-running concern. A main source of MOHs in foods is the migration of mineral oil from recycled board into the packed food products. Consequently, the majority

Evaluation of injection methods for fast, high peak capacity separations with low thermal mass gas chromatography.

Brian D Fitz et al.

Journal of chromatography. A, 1392, 82-90 (2015-03-31)

Low thermal mass gas chromatography (LTM-GC) was evaluated for rapid, high peak capacity separations with three injection methods: liquid, headspace solid phase micro-extraction (HS-SPME), and direct vapor. An Agilent LTM equipped with a short microbore capillary column was operated at

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