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2-Bromo-4-(trifluoromethyl)pyridine is an organic compound, with the Molecular formula of C6H3BrF3N, CAS 175205-81-9, and the molecular weight of 228.99 g/mol. It is a colorless to light yellow liquid with a pungent and pungent odor. Its vapor is heavier than air and can spread to distant places. It is in a liquid state at room temperature, but can evaporate. Has good solubility. It can be dissolved in many organic solvents, such as ethanol, di N-Methylformamide, dichloromethane, etc. However, its solubility is relatively low in water. It is an aromatic compound composed of a pyridine ring containing nitrogen, a bromine atom, a trifluoromethyl group, and a fluorine atom substituted in the pyridine ring. As an important organic compound, it has extensive applications in chemical synthesis, drug research and development, pesticide manufacturing, optoelectronic materials, and chemical catalysis. Its unique structure and chemical properties make it a key intermediate for synthesizing complex organic molecules and drug frameworks, and play an important role in many important industrial processes. With in-depth research on its properties and reactivity, its application fields will continue to expand and expand.
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Chemical Formula |
C6H3BrF3N |
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Exact Mass |
225 |
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Molecular Weight |
226 |
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m/z |
225 (100.0%), 227 (97.3%), 226 (6.5%), 228 (6.3%) |
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Elemental Analysis |
C, 31.89; H, 1.34; Br, 35.36; F, 25.22; N, 6.20 |
2-Bromo-4-(trifluoromethyl)pyridine is an organic compound with multiple important uses.
It can also serve as a research tool for exploring the fundamental mechanisms and regulatory mechanisms of biochemical processes.
Enzyme catalyzed reaction research: Enzymes are important proteins that catalyze chemical reactions in living organisms. By introducing this substance as a substrate or inhibitor, the kinetic characteristics of specific enzymatic reactions, substrate specificity, and the mechanism of action of inhibitors can be studied. This research method helps to reveal the basic laws and regulatory mechanisms of enzymatic reactions.
Participate in research on biochemical processes
Research on signal transduction pathways: Signal transduction pathways are one of the important pathways for intercellular information transmission in living organisms. By introducing analogs or antagonists as signaling molecules, the activation mechanism of specific signaling pathways, the interaction of signaling molecules, and the regulation mechanism of signaling pathways can be studied. This research method helps to reveal the complex signaling networks and regulatory mechanisms within living organisms.
Research on gene expression regulation: Gene expression regulation is one of the key steps in the realization of gene functions in organisms. By introducing this substance as a ligand or inhibitor for specific transcription factors or regulatory proteins, the regulatory mechanism of specific gene expression, the function of transcription factors, and the mode of action of regulatory proteins can be studied. This research method helps to reveal the basic laws and regulatory mechanisms of gene expression regulation.
It can also be used as a modifier to improve the physical properties, chemical stability, or biocompatibility of biomaterials or organic compounds.
Improving physical properties: By introducing this substance, the mechanical strength, hardness, wear resistance, and other physical properties of biomaterials or organic compounds can be improved. This modification method helps to improve the service life and reliability of materials.
Improving chemical stability: The trifluoromethyl group in this compound has excellent chemical stability and can significantly enhance the resistance of biomaterials or organic compounds to chemicals such as acids, bases, and oxidants. This modification method helps to extend the service life of materials and reduce maintenance costs.
Enhancing biocompatibility: In the biomedical field, biocompatibility is one of the important indicators for evaluating the performance of biomaterials. By introducing this substance, the compatibility between biomaterials and living organisms can be improved, reducing the risk of immune and rejection reactions. This modification method helps to enhance the application value of biomaterials in the biomedical field.
Application in environmental monitoring and pollution control
It can also serve as one of the important tools for environmental monitoring and pollution control.
In terms of environmental monitoring, it can serve as an indicator or biomarker for specific pollutants. By detecting indicators such as concentration and distribution characteristics in the environment, the degree and scope of environmental pollution, as well as the types and sources of pollution sources, can be evaluated. This method helps provide scientific basis and support for environmental protection and pollution control.
In terms of pollution control, it can serve as a degradation or transformation agent for pollutants. By reacting or co metabolizing with other chemicals or microorganisms, it can be converted into harmless or low toxicity compounds, thereby reducing its pollution risk to the environment. This method helps to provide new ideas and methods for the treatment of environmental pollution.
What are the alternatives to this compound?
Other fluorinated pyridine compounds
For example, 2-fluoro-4- (trifluoromethyl) pyridine, 3-fluoro-4- (trifluoromethyl) pyridine, etc. These compounds are structurally similar to -4- (trifluoromethyl) pyridine and may have similar reactivity and biological activity, making them suitable as substitutes for certain specific applications
Non fluorinated pyridine compounds
Such as 2-methylpyridine, 3-methylpyridine, 4-methylpyridine, etc. Although these compounds do not contain fluorine atoms, they may exhibit properties similar to -4- (trifluoromethyl) pyridine in certain chemical reactions, and therefore may also be used as substitutes. However, it should be noted that the introduction of fluorine atoms often alters the physical and chemical properties of compounds, so these alternatives may differ significantly from -4- (trifluoromethyl) pyridine in some aspects
What factors should be considered for substitutes
- Chemical similarity: Substitutes for 2-Bromo-4- (trifluoromethyl) pyridine should have similar chemical properties, including reactivity, stability, solubility, etc. This helps ensure that substitutes exhibit similar behavior in chemical reactions and produce the expected product.
- Functional equivalence: Substitutes should be able to provide similar functionality or effects in the target application. For example, in the field of pesticides, alternatives should have similar insecticidal, bactericidal, or herbicidal activities; In the field of medicine, substitutes should have similar pharmacological effects.
- Cost effectiveness: The cost of alternatives should be reasonable to ensure economic feasibility. This includes raw material costs, production costs, as well as transportation and storage costs. Meanwhile, it is also necessary to consider the impact of substitutes on overall production efficiency and product costs.
- Environmental friendliness: Alternative products should minimize their impact on the environment as much as possible. This includes reducing the emission of harmful substances, lowering energy consumption, and improving resource recycling efficiency. Choosing environmentally friendly alternatives helps to comply with current environmental trends and regulatory requirements.
- Patents and intellectual property: When choosing alternatives, it is necessary to consider the issues of patents and intellectual property. Ensure that the selected substitute does not infringe on the patent or intellectual property rights of others to avoid potential legal disputes and cost increases.
- Supply chain reliability: The supply chain of substitutes should be reliable and stable to ensure the continuous supply of the required quantity and quality of products. This includes the stability of raw material sources, controllability of production processes, and reliability of transportation and storage.
- Safety and regulatory compliance: Substitutes should comply with relevant safety standards and regulatory requirements. This includes classification, labeling, and packaging requirements for chemicals, as well as regulatory restrictions in specific application areas. Ensuring the safety and regulatory compliance of substitutes helps to protect the safety of personnel and the environment.
- Technical feasibility and process adaptability: Consider the feasibility and adaptability of alternatives in existing production processes. Substitutes should be compatible with existing production equipment, process conditions, and operating procedures to ensure a smooth transition to new raw materials without interrupting production or reducing product quality.
Is this compound used for all purposes in drug development?
As a biomarker and diagnostic reagent
2-Bromo-4- (trifluoromethyl) pyridine and its derivatives can also be used as biomarkers and diagnostic reagents for diagnosing and monitoring diseases. By detecting the content or activity of specific compounds in biological samples, the progression and therapeutic effect of diseases can be determined, providing important basis for clinical diagnosis and treatment.
Biomarkers: Certain derivatives have specific metabolic pathways and distribution characteristics in organisms and can be used as biomarkers for disease diagnosis. For example, by detecting changes in the levels of these compounds in biological samples such as blood and urine, the progression or therapeutic effect of certain diseases can be determined.
Diagnostic reagents: In addition, it and its derivatives can also be used as diagnostic reagents for disease detection. By binding these compounds with specific antibodies or probes, specific detection of disease-related molecules can be achieved, providing strong support for early diagnosis and treatment of diseases.
Application in drug metabolism and pharmacokinetics research
Drug metabolism and pharmacokinetics research are important links in drug development. It and its derivatives have potential application value in these studies, which can help researchers understand the metabolic and excretion pathways of drugs, as well as the distribution and elimination patterns of drugs in the body.
Drug metabolism research: By studying the metabolic pathways and metabolites of this substance and its derivatives in the body, we can understand the metabolic mechanism and stability of drugs. These pieces of information are of great significance for optimizing drug structure, improving drug efficacy, and reducing side effects.
Pharmacokinetic studies: On the other hand, by measuring parameters such as concentration time curves of drugs and their derivatives in the body, the absorption, distribution, metabolism, and excretion processes of drugs in the body can be understood. These pieces of information are of great significance for developing reasonable dosing regimens and predicting the efficacy and safety of drugs.
Application in the research and development of pesticides and veterinary drugs
In addition to the pharmaceutical field, its derivatives also have potential application value in the research and development of pesticides and veterinary drugs. By introducing specific substituents or functional groups, compounds with insecticidal, bactericidal, or antiparasitic activities can be synthesized, providing strong support for agricultural production.
Insecticides: Some derivatives have significant insecticidal activity and can be used to control agricultural pests. These compounds may achieve insecticidal effects by interfering with the nervous system or metabolic processes of pests.
bactericide. In addition, some derivatives also have bactericidal activity and can be used to prevent and control plant diseases. These compounds may protect plant health by inhibiting the growth and reproduction of pathogens.
Antiparasitic drugs: In the development of veterinary drugs, their derivatives can also be used to synthesize antiparasitic drugs. These compounds may achieve the effect of expelling or killing parasites by interfering with their life cycle or metabolic processes.
Applications in Materials Science and Nanotechnology
This compound and its derivatives also have potential application value in materials science and nanotechnology. By combining these compounds with specific materials or nanoparticles, new materials or nanodevices with special properties can be prepared.
Preparation of functional materials: Some derivatives have special physical and chemical properties, such as fluorescence, conductivity, etc. By combining these compounds with specific materials, new materials with special functions can be prepared, such as fluorescent materials, conductive materials, etc.
Preparation of nanodevices: In addition, it and its derivatives can also be used to prepare nanodevices. By combining these compounds with nanoparticles, it is possible to regulate and modify the surface properties of nanoparticles, thereby preparing nanodevices with specific functions.
Application in Environmental Science and Ecological Protection
Environmental science and ecological protection are important issues in today's society. This substance and its derivatives also have potential application value in these fields, and can be used for monitoring and treating environmental pollutants.
Monitoring of environmental pollutants: By combining the substance and its derivatives with specific sensors, real-time monitoring of environmental pollutants can be achieved. These sensors have the advantages of high sensitivity and good selectivity, which can provide strong support for monitoring and early warning of environmental pollution.
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