molecular formula C9H18O B1339773 (3,3-Dimethylcyclohexyl)methanol CAS No. 102369-67-5

(3,3-Dimethylcyclohexyl)methanol

Cat. No. B1339773
CAS RN: 102369-67-5
M. Wt: 142.24 g/mol
InChI Key: VJZDBRGSBDTGKQ-UHFFFAOYSA-N
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Overview

1. Description
4. Properties
2. Scientific research applications
5. Disclaimer
3. Safety and hazards

Description

The compound (3,3-Dimethylcyclohexyl)methanol is not directly mentioned in the provided papers, but related compounds and methodologies can offer insights into its chemical nature. The synthesis and properties of structurally related compounds have been explored, which can provide a foundation for understanding the synthesis, structure, and reactivity of (3,3-Dimethylcyclohexyl)methanol.

Synthesis Analysis

The synthesis of complex organic molecules often involves multi-step reactions and the use of catalysts. For instance, a versatile method for synthesizing 4-substituted 6-methyl-3-oxabicyclo[3.3.1]non-6-ene-1-methanol derivatives has been developed using a Prins-type cyclization reaction catalyzed by hafnium triflate . This method could potentially be adapted for the synthesis of (3,3-Dimethylcyclohexyl)methanol by choosing appropriate starting materials and reaction conditions.

Molecular Structure Analysis

The molecular structure of organic compounds is crucial for their reactivity and physical properties. For example, the crystal structure of a related compound, (3-methyl-1,5-dioxaspiro[5.5]undecan-3-yl)methanol, was determined using single-crystal X-ray diffraction, revealing a non-planar 1,3-dioxane ring with a chair conformation . This information on ring conformation and intermolecular interactions could be relevant when considering the molecular structure of (3,3-Dimethylcyclohexyl)methanol.

Chemical Reactions Analysis

The reactivity of a compound is influenced by its functional groups and molecular structure. The synthesis of 1,3-dimethyl-5,10-methanocycloundeca[4,5]furo[2,3-d]pyrimidin-2,4(1,3H)-dionylium tetrafluoroborate involved acidic cyclization and exhibited interesting reactivity with nucleophiles . Although this compound is not directly related to (3,3-Dimethylcyclohexyl)methanol, the principles of reactivity, such as the influence of a methano-bridge on nucleophilic attacks, could be informative.

Physical and Chemical Properties Analysis

The physical and chemical properties of a compound are determined by its molecular structure. For instance, the synthesis of chiral methanols and their conversion to various derivatives was described, highlighting the importance of stereochemistry and isotopic labeling in determining physical properties like melting points and enantiomeric excess . These aspects are essential for understanding the properties of (3,3-Dimethylcyclohexyl)methanol, especially if chiral or isotopically labeled versions of the compound are of interest.

Scientific Research Applications

Catalytic Conversion of CO2 to Methanol

Research has demonstrated the feasibility of converting carbon dioxide to methanol via catalytic processes, which is a crucial step in carbon recycling and the development of renewable energy sources. A study outlined the hydrogenation of CO2 to methanol using tandem catalysis with dimethylamine and a ruthenium complex, achieving over 95% conversion of CO2 to a mixture of methanol and dimethylformamide under basic conditions (Rezayee, Huff, & Sanford, 2015). Another work on the reaction mechanism of methanol carboxylation to dimethyl carbonate highlights the different catalytic routes possible for methanol derivatives, offering insights into the efficiency of various catalysts (Aresta, Dibenedetto, Pastore, Pápai, & Schubert, 2006).

Methanol as a Building Block for Cleaner Fuels

The synthesis of dimethyl ether (DME) from methanol represents a promising route for producing cleaner combustion fuels. A computational study suggested a novel synthesis route for methanol dehydration to DME through the application of strong electric fields, showcasing the potential of methanol in the "Methanol Economy" scenario for energy production in an environmentally friendly manner (Cassone, Pietrucci, Saija, Guyot, Šponer, & Saitta, 2017).

Methanol for Hydrogen Production and Utilization

The role of methanol in hydrogen generation for fuel cell applications has been explored, with methanol serving as a critical component for obtaining hydrogen through various reforming processes. This aligns with strategies for reducing CO2 emissions and leveraging methanol as a sustainable energy carrier (Dalena, Senatore, Basile, Knani, Basile, & Iulianelli, 2018).

Electrochemical and Photocatalytic Applications

Studies have also delved into the electrochemical and photocatalytic uses of methanol, including its role in the selective hydrogenation of CO2 to methanol and the synthesis of dimethyl carbonate from CO and methanol. These processes are fundamental to the development of technologies for carbon capture and utilization, offering pathways to convert greenhouse gases into valuable chemicals (Figueiredo, Trieu, Eiden, & Koper, 2017).

Safety And Hazards

The compound has been classified with the GHS07 pictogram and has the signal word "Warning" . Hazard statements include H315, H319, and H335, indicating that it can cause skin irritation, serious eye irritation, and may cause respiratory irritation .

properties

IUPAC Name

 (3,3-dimethylcyclohexyl)methanol
Source PubChem
URL https://pubchem.ncbi.nlm.nih.gov
Description Data deposited in or computed by PubChem

InChI

 InChI=1S/C9H18O/c1-9(2)5-3-4-8(6-9)7-10/h8,10H,3-7H2,1-2H3
Source PubChem
URL https://pubchem.ncbi.nlm.nih.gov
Description Data deposited in or computed by PubChem

InChI Key

 VJZDBRGSBDTGKQ-UHFFFAOYSA-N
Source PubChem
URL https://pubchem.ncbi.nlm.nih.gov
Description Data deposited in or computed by PubChem

Canonical SMILES

 CC1(CCCC(C1)CO)C
Source PubChem
URL https://pubchem.ncbi.nlm.nih.gov
Description Data deposited in or computed by PubChem

Molecular Formula

C9H18O
Source PubChem
URL https://pubchem.ncbi.nlm.nih.gov
Description Data deposited in or computed by PubChem

DSSTOX Substance ID

 DTXSID80554758
Record name (3,3-Dimethylcyclohexyl)methanol
Source EPA DSSTox
URL https://comptox.epa.gov/dashboard/DTXSID80554758
Description DSSTox provides a high quality public chemistry resource for supporting improved predictive toxicology.

Molecular Weight

142.24 g/mol
Source PubChem
URL https://pubchem.ncbi.nlm.nih.gov
Description Data deposited in or computed by PubChem

Product Name

 (3,3-Dimethylcyclohexyl)methanol

CAS RN

 102369-67-5
Record name 3,3-Dimethylcyclohexanemethanol
Source CAS Common Chemistry
URL https://commonchemistry.cas.org/detail?cas_rn=102369-67-5
Description CAS Common Chemistry is an open community resource for accessing chemical information. Nearly 500,000 chemical substances from CAS REGISTRY cover areas of community interest, including common and frequently regulated chemicals, and those relevant to high school and undergraduate chemistry classes. This chemical information, curated by our expert scientists, is provided in alignment with our mission as a division of the American Chemical Society.
Explanation The data from CAS Common Chemistry is provided under a CC-BY-NC 4.0 license, unless otherwise stated.
Record name (3,3-Dimethylcyclohexyl)methanol
Source EPA DSSTox
URL https://comptox.epa.gov/dashboard/DTXSID80554758
Description DSSTox provides a high quality public chemistry resource for supporting improved predictive toxicology.

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Please be aware that all articles and product information presented on BenchChem are intended solely for informational purposes. The products available for purchase on BenchChem are specifically designed for in-vitro studies, which are conducted outside of living organisms. In-vitro studies, derived from the Latin term "in glass," involve experiments performed in controlled laboratory settings using cells or tissues. It is important to note that these products are not categorized as medicines or drugs, and they have not received approval from the FDA for the prevention, treatment, or cure of any medical condition, ailment, or disease. We must emphasize that any form of bodily introduction of these products into humans or animals is strictly prohibited by law. It is essential to adhere to these guidelines to ensure compliance with legal and ethical standards in research and experimentation.

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