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(2,2-Difluorocyclopropyl)methanol, commonly referred to as DFCM, is an organofluorine compound with a wide range of applications in the scientific and industrial fields. DFCM is a colorless, volatile liquid with a low boiling point and a relatively low toxicity. It is primarily used as a solvent in organic synthesis an...
(2,2-Difluorocyclopropyl)methanol, commonly referred to as DFCM, is an organofluorine compound with a wide range of applications in the scientific and industrial fields. DFCM is a colorless, volatile liquid with a low boiling point and a relatively low toxicity. It is primarily used as a solvent in organic synthesis and as a reagent in the production of other fluorinated compounds. In addition, DFCM has been used in a variety of scientific research applications, including studies on the effects of fluorine on biological systems.
Methanotrophs, bacteria that utilize methane as their sole carbon source, demonstrate the biotechnological potential of methane-derived compounds such as methanol. These bacteria can produce a variety of valuable products including single-cell proteins, biopolymers, nanotechnology components, and biofuels, highlighting the versatility of methane and methanol in sustainable biotechnology applications (Strong, Xie, & Clarke, 2015).
The conversion of methanol to hydrogen represents a significant application in sustainable energy. Methanol steam reforming, partial oxidation, and autothermal reforming are processes that can produce high-purity hydrogen, a clean energy carrier. This underscores methanol's role in facilitating a transition towards a hydrogen economy and highlights the importance of catalyst development and reactor technology in improving efficiency and sustainability (García et al., 2021) .
DMFCs directly convert chemical energy from methanol into electrical energy. The technology faces challenges such as methanol crossover and requires advancements in polymer electrolyte materials. Despite these challenges, DMFCs present a promising option for portable power sources, leveraging methanol's high energy density and ease of handling (Heinzel & Barragán, 1999).
In the electrical power industry, methanol serves as a chemical marker for assessing the condition of solid insulation in power transformers. Its presence can indicate the degradation of insulating paper, making it a valuable tool for maintenance and reliability assessments (Jalbert et al., 2019).
Methanol and methanol-gasoline blends have been studied for their performance and emission characteristics in spark ignition engines. These studies reveal that methanol can improve engine efficiency and reduce emissions, demonstrating its potential as a cleaner alternative fuel (Kowalewicz, 1993).
Product Name : | 2,2-Difluorocyclopropanemethanol | ||
CAS No. : | 509072-57-5 | Molecular Weight : | 108.09 |
MDL No. : | MFCD06797748 | Purity/ Specification : | |
Molecular Formula : | C4H6F2O | Storage : | Sealed in dry,2-8°C |
Boiling Point : | - |
GHS Pictogram : | |||
Signal Word : | Danger | Precautionary Statements : | P501-P240-P210-P233-P243-P241-P242-P264-P280-P370+P378-P337+P313-P305+P351+P338-P362+P364-P303+P361+P353-P332+P313-P403+P235 |
UN# : | 1987 | Class : | 3 |
Hazard Statements : | H225-H315-H319-H335 | Packing Group : | Ⅱ |