As a leading N-Methyl-gamma-(1-naphthalenyloxy)-2-thiophenepropanamine supplier, we deliver high-quality products across diverse grades to meet evolving needs, empowering global customers with safe, efficient, and compliant chemical solutions.
What is the chemical structure of N-Methyl-γ - (1-naphthalenyloxy) -2-thiophenepropanamine?
This is the name of an organic compound, and its chemical structure needs to be analyzed according to the naming rules. In "N - Methyl - γ - ( 1 - naphthalenyloxy) - 2 - thiophenepropanamine", "N - Methyl" means that the nitrogen atom is connected with methyl ;“γ - ( 1 - naphthalenyloxy) "The epitope γ position (the third position from the carbon atom connected to the functional group) is connected with 1 - naphthoxy group;" 2 - thiophenepropanamine "refers to the 2 positions of propylamine connected with thiophene group.
According to this, the main body of its chemical structure is propylamine. The nitrogen atom of propylamine is connected with methyl group, the γ position of the propylamine carbon chain is connected to 1-naphthoxy group, and the 2 position is connected to thiophenyl group. The structure of this compound is complex, the naphthoxy group contains a naphthalene ring, which is connected to the main chain through oxygen atoms; the thiophenyl group is also connected to a specific position in the main chain.
In general, the structure of this compound is composed of the propylamine main chain and the methyl group on the nitrogen atom, the 1-naphthoxy group at the γ position and the thiophenyl group at the 2 position. Each part is connected to each other, showing a specific spatial
What are the main uses of N-Methyl-γ - (1-naphthalenyloxy) -2-thiophenepropanamine?
N-methyl - γ -( 1-naphthoxy) -2-thiophenopropylamine is an organic compound. It has a wide range of uses and may have important effects in the field of medicine.
It often plays a key role in the creation of drugs for the treatment of mental disorders. Due to the special chemical structure of this compound, it can interact with the human neurotransmitter system and regulate the transmission of nerve signals. For example, in the treatment of depression, studies have found that it may affect the metabolism and function of neurotransmitters such as serotonin and dopamine, thereby improving the emotional state of patients and relieving depression symptoms.
It also has its role in the development of drugs for neurological diseases. For example, for Parkinson's disease, it is expected to provide a new path for the treatment of Parkinson's disease by acting on related neural pathways and regulating nerve cell activity.
Furthermore, in the field of scientific research, as an important chemical tool, it helps scientists to deeply explore neurobiological mechanisms. By studying the interaction between this compound and biological macromolecules, the fine process of neural signaling can be clarified, and a solid theoretical foundation can be laid for the development of drugs for more neurological diseases. It plays an indispensable role in the process of medical research, bringing new hope and opportunities for human beings to overcome many difficult diseases.
What are the physical properties of N-Methyl-γ - (1-naphthalenyloxy) -2-thiophenepropanamine?
N - Methyl - γ - ( 1 - naphthalenyloxy) - 2 - thiophenepropanamine, is a kind of organic compound. Its physical properties are particularly important, and it is related to its performance in various environments and reactions.
In terms of its appearance, it is usually solid, but it also depends on the change of surrounding conditions. The color of this substance, or white to off-white powder, has a fine texture and is quite uniform in terms of eyesight.
Melting point is crucial in determining its purity and characteristics. According to many experimental measurements, its melting point is within a specific range. This value can provide accurate indicators for related research and applications. If the melting point is deviated, it may suggest that the purity of the substance is questionable or impurities are mixed.
Solubility is also one of its important physical properties. In common organic solvents, such as ethanol and dichloromethane, it exhibits a certain solubility. In ethanol, under moderate stirring, it can gradually dissolve to form a homogeneous solution. This property makes it easy to participate in various chemical reactions during the operation of organic synthesis, which can effectively improve the efficiency and uniformity of the reaction. However, in water, its solubility is relatively limited, which is also closely related to the molecular structure and polarity of the compound.
In addition, density is also a key consideration. Although accurate determination requires the help of specific instruments, its density values are of guiding significance for the measurement, mixing, and process design of materials in practical applications.
The physical properties of this compound, such as appearance, melting point, solubility, and density, are related and influenced, laying the foundation for its application in chemical synthesis, drug development, and many other fields. According to its characteristics, researchers can rationally plan experiments and production processes.
What is the synthesis method of N-Methyl-γ - (1-naphthalenyloxy) -2-thiophenepropanamine?
To prepare N-methyl - γ -( 1-naphthoxy) -2-thiophenopropane, the method is as follows:
First take 1-naphthol, and use an appropriate base, such as sodium hydroxide, to form a salt to obtain sodium naphthol. In a suitable reaction vessel, add an appropriate amount of organic solvent, such as N, N-dimethylformamide (DMF), to dissolve the sodium naphthol evenly. < Br >
Take another 2-thiophenyl propionyl chloride, slowly drop it into the above solution containing sodium naphthol salt, control the reaction temperature, generally at a moderate temperature, such as 50-60 ° C, when stirring the reaction number. In this step, the oxygen atom of the sodium naphthol salt nucleophilically attacks the carbonyl carbon of 2-thiophenyl propionyl chloride, and is nucleophilically substituted to obtain gamma - (1-naphthoxy) - 2-thiophenyl propionate intermediates.
Add an appropriate amount of reducing agent, such as lithium aluminum hydride (LiAlH), in anhydrous ether and other inert organic solvents, react at low temperature such as 0-5 ° C. Be careful, because the activity of lithium aluminum hydride is very high. In this reduction step, the ester group is reduced to an alcoholic hydroxyl group to obtain gamma - (1-naphthoxy) -2-thiophenopropanol.
Then, gamma - (1-naphthoxy) -2-thiophenopropanol reacts with p-toluenesulfonyl chloride (TsCl) in the presence of basic catalysts such as pyridine to form the corresponding sulfonate, which is a good leaving group. < Br >
methylamine and then the alcoholic solution was added to the above reaction system containing sulfonate, heated to reflux, the nitrogen atom of methylamine nucleophilic attack sulfonate carbon, nucleophilic substitution, to give N - methyl - γ -( 1 - naphthoxy) - 2 - thiophenopropylamine.
The reaction ended, after post-treatment, such as extraction, washing, drying, column chromatography and other means to purify the product, to obtain pure N - methyl - γ -( 1 - naphthoxy) - 2 - thiophenopropylamine.
N-Methyl-γ - (1-naphthalenyloxy) -2-thiophenepropanamine What are the precautions during use?
For N-methyl - γ -( 1-naphthoxy) -2-thiophenopropylamine, when using it, all kinds of matters should be paid attention to.
This medicine is a chemical with different properties, and it must be stored in a suitable environment. It should be dry, cool and well ventilated, away from fire and heat sources to prevent unexpected changes. In case of hot topic, there may be a risk of explosion.
When taking it, it must be done with rigor. Those who handle it should wear protective equipment, such as gloves, goggles and protective clothing, to prevent it from touching the body and causing damage to the skin, eyes and eyes. If you accidentally dip it, rinse it with plenty of water as soon as possible. If you are in a serious situation, seek medical treatment urgently.
In the method of use, be careful to follow the established procedures, and do not make it easier to dose and use without authorization. When using this medicine, you should also pay attention to the surrounding environment, so as not to let it escape, stain and other things. After use, dispose of the remaining material properly, and do not dispose of it at will. According to relevant regulations, dispose of it in an appropriate way to avoid polluting the environment.
Furthermore, those who coexist with it should know its nature in detail, and in case of an emergency, know the emergency plan. All of these are to ensure the safety of use, and must not be ignored lightly, so as to avoid the disaster before it occurs, and the safety of all people.
