(+)-3-Methylcyclohexanone (CAS 13368-65-5)
(+)-3-Methylcyclohexanone (CAS:
13368-65-5) has molecular formula C7H12O and molecular weight 112.17 g/mol. This compound has been the subject of numerous scientific investigations due to its structural features and practical utility in synthetic chemistry and industrial processes. View product details →
Product Background
This comprehensive research profile examines the scientific literature surrounding (+)-3-Methylcyclohexanone.
Key Research Findings
- As a result, the n-i-p pero-SCs based on chlorobenzene- or green solvent 3-methylcyclohexanone-processed BDT-C8-3O HTL that without any dopant delivered world-recorded power co
- GC-MS analysis revealed that the HA stage cleaved high-molecular-weight pollutants such as long-chain alkanes and esters into mid- and small-molecule products , while the MPR sta
- The results showed that R-ONO systems, under established reaction conditions, form NO.radicals, which oxidize to NO under a strong oxidization reaction environment.
Detailed Literature Analysis
Below are the top-ranked research papers for (+)-3-Methylcyclohexanone, presented with bibliographic details and scientific abstracts.
Synthetic Chemistry
1. Selective Oxidation of Cyclohexanone to Adipic Acid Using Molecular Oxygen in the Presence of Alkyl Nitrites and Transition Metals as Catalysts.
This paper presents a not previously reported catalytic system consisting of transition metals Co(2+) and Mn(2+) and alkyl nitrites R-ONO for the oxidation of cyclohexanone with oxygen to adipic acid. The influence of type and amount of catalyst, temperature, time, and type of raw material on conversion and product composition were determined.
Biological & Pharmacological Studies
2. Green Solvent Processable, Asymmetric Dopant-Free Hole Transport Layer Material for Efficient and Stable n-i-p Perovskite Solar Cells and Modules.
The use of dopant-free hole transport layers (HTLs) is critical in stabilizing n-i-p perovskite solar cells (pero-SCs). However, these HTL materials are often processed with toxic solvents, which is not ideal for industrial production. Upon substituting them with green solvents, a trade-off emerges between maintaining the high crystallinity of
3. Study on the degradation performance and toxicity reduction mechanism of electroplating wash wastewater by a hydrolysis-acidification-MPR synergistic system.
This study focuses on high-strength, low-biodegradability electroplating wash wastewater (COD >/=20,000 mg/L, BOD(5)/COD
Conclusion
The research literature on (+)-3-Methylcyclohexanone demonstrates sustained scientific interest, with publications continuing through 0. The compound serves as an important building block in synthetic chemistry and has been explored for various applications. Researchers and industrial users can view detailed specifications or submit an inquiry for pricing and availability.
Data Sources: PubMed/MEDLINE, CrossRef. 3 papers analyzed. Last updated: 2026-05-25. This article is automatically generated from peer-reviewed research data.