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What is the chemical structure of tert-butyl 5-oxohexahydrocyclopenta [c] pyrrole-2 (1H) -carboxylate?
Eh! This "tert - butyl 5 - oxohexahydrocyclopenta [c] pyrrole - 2 (1H) -carboxylate" has the name of the compound. To clarify its transformation, the name of the process is to analyze it.
"tert - butyl", tert - butyl is also, its -C (CH) 😉. This group is the main group of the compound, a substituent.
"5 - oxohexahydrocyclopenta [c] pyrrole - 2 (1H) -carboxylate", the "cyclopenta [c] pyrrole", is and [c] pyrrole. " Hexahydro - "indicates that there are hexapyrrole atoms on the skeleton of pentopyrrole that are added to the sum or part of the sum." 5-oxo - "indicates that there is a carbonyl group (C = O) at the 5th position of the pentopyrrole skeleton." 2 (1H) -carboxylate "indicates that there is a monocarboxylate group at the 2nd position (and the atom of this 2nd position is of 1H).
In general, this compound is based on the sum or part of the pentopyrrole and the skeleton. The 5th position has a carbonyl group, the 2nd position has a carboxylate group, and the alkyl moiety of this carboxylic acid ester is tert-butyl. Which is the embodiment of the, can be thought of as follows: first pentyl pyrrole and or part of the and skeleton, in the 5-bit carbonyl, 2-bit carboxylic acid ester of, and then alkyl carboxylate for tert-butyl -C (CH 🥰). This is the "tert - butyl 5 - oxohexahydrocyclopenta [c] pyrrole - 2 (1H) -carboxylate" of is also important.
What are the main uses of tert-butyl 5-oxohexahydrocyclopenta [c] pyrrole-2 (1H) -carboxylate?
Tert-butyl 5 - oxohexahydrocyclopenta [c] pyrrole-2 (1H) -carboxylate, that is, 5-oxo-hexahydrocyclopento [c] pyrrole-2 (1H) -tert-butyl formate, is widely used.
In the field of pharmaceutical chemistry, it is often used as a key intermediate to facilitate the synthesis of many biologically active compounds. For example, when developing specific anti-cancer drugs, it can participate in the construction of the core structure of drug molecules. With its unique chemical structure and reactivity, it can interact with specific targets of cancer cells, inhibit the proliferation of cancer cells, or induce apoptosis of cancer cells, providing an important material basis for the creation of anti-cancer drugs. < Br >
In the field of organic synthetic chemistry, it is an important building block for the construction of complex cyclic compounds. Because its molecular structure contains unique ring systems and functional groups, it can use a variety of organic reactions, such as nucleophilic substitution, addition reactions, etc., to achieve ring system expansion and functional group transformation, so as to synthesize organic compounds with diverse structures and potential application value, such as some new materials or natural product analogs.
In the process of drug development, its tert-butyl ester functional group can enhance the lipid solubility of compounds, which is conducive to drug penetration through biofilms and improve bioavailability. At the same time, under specific conditions, tert-butyl ester can be selectively removed to achieve precise regulation of molecular activity and metabolic properties, and help develop innovative drugs with high efficiency and low toxicity.
This compound plays an important role in the field of medicine and organic synthesis, contributing to the creation of new drugs and the development of new organic compounds.
What are the synthesis methods of tert-butyl 5-oxohexahydrocyclopenta [c] pyrrole-2 (1H) -carboxylate?
The method of preparing tert-butyl 5-oxo-hexahydrocyclopenta [c] pyrrole-2 (1H) -formate has been explored by many parties throughout the ages, and there are various paths.
First, it can be started by a suitable cyclopentene derivative. First, cyclopentene and a specific electrophilic reagent are added to add functional groups. This step requires mild reaction conditions to prevent side reactions and ensure accurate addition check points. Subsequently, through the cyclization step, a pyrrole ring is constructed, or a condensation reaction is used to adapt the reaction of amines and carbonyl compounds. In the process, a catalyst may be required to assist it to make the reaction smooth. After further oxidation steps, the 5-oxo structure in the target product is obtained. The choice of oxidation reagents is very important, and the oxidation ability and selectivity need to be weighed.
Second, we can also start from the raw materials containing pyrrole rings. Modify the existing pyrrole ring and introduce suitable substituents at specific positions by substitution reaction to gradually construct the structure of hexahydrocyclopentyl. During the substitution reaction, pay attention to the activity of the reagent and the selectivity of the reaction check point. Subsequent or through protection and deprotection strategies, the formation of tert-butyl ester structure can be achieved. The selection of protective groups needs to be easy to introduce and can be removed under suitable conditions without damaging other parts of the molecule.
Or, based on the intracellular cyclization rearrangement reaction. Select a specific bifunctional compound, under suitable conditions, initiate an intramolecular reaction, and build a complex ring system in one step. This path requires fine regulation of reaction conditions, such as temperature, solvent, etc., to ensure that the reaction proceeds in the desired direction and the target product is obtained.
All synthesis methods have their own advantages and disadvantages. In practice, it is necessary to choose carefully according to many factors such as the availability of raw materials, the ease of control of reaction conditions, and the yield and purity of the product.
What are the physical properties of tert-butyl 5-oxohexahydrocyclopenta [c] pyrrole-2 (1H) -carboxylate?
Tert-butyl 5 - oxohexahydrocyclopenta [c] pyrrole-2 (1H) -carboxylate, Chinese name or 5-oxo-hexahydrocyclopento [c] pyrrole-2 (1H) -tert-butyl formate. The physical properties of this substance, let me tell you in detail.
Looking at its morphology, under normal temperature and pressure, it is mostly white to white solid. The melting point of this substance is within a certain range, but it fluctuates slightly due to the different preparation methods and purity. The determination of its melting point is very important for studying its purity and crystal structure.
When it comes to solubility, the performance of this substance in organic solvents varies. In common organic solvents such as dichloromethane and chloroform, it exhibits good solubility. This property makes it better to disperse and participate in the reaction in the reaction system of organic synthesis. However, in water, its solubility is poor, which is closely related to the molecular structure of the substance. Most of its molecules are hydrophobic groups, so it is difficult to dissolve in water.
In terms of stability, it is relatively stable under conventional storage conditions. However, it needs to avoid direct light and hot topic environment to prevent decomposition or other chemical reactions. High temperature may promote the breaking of chemical bonds in the molecule, and strong light may also cause luminescent chemical reactions to change its chemical structure and properties. < Br >
Its density is also an important physical property. Although the exact value varies according to the specific measurement conditions, its density characteristics have an impact on the phase distribution and separation operation in the mixed system.
The physical properties of this substance are of key significance in many fields such as organic synthesis and drug development, providing an important basic basis for related research and applications.
What is the market outlook for tert-butyl 5-oxohexahydrocyclopenta [c] pyrrole-2 (1H) -carboxylate?
Nowadays, the name of the compound is tert-butyl 5 - oxohexahydrocyclopenta [c] pyrrole-2 (1H) -carboxylate, and its market prospects can be explored. This compound is in the field of chemistry, or has an important role in synthesis. From the synthesis angle, if the synthesis method is convenient and efficient, the cost can be effectively controlled, and the engineering, chemical and biological aspects are expected to meet the new world.
In the field of research and development, if in-depth research is carried out, it can be used as a starting point for new research and development, and the market demand may increase significantly. However, the road to new research is arduous, and it requires a lot of rigorous measures, such as efficiency, safety evaluation, etc. Only by passing many tests can we truly enter the market and create benefits.
In terms of materials science, if we can improve the multi-performance of materials, such as improving the mechanical properties and qualitative properties of materials, it will also have a place in the materials market. However, it is necessary for materials scientists to deeply study the interaction of various materials in order to determine their value in the material field.
Therefore, the market prospect of tert - butyl 5 - oxohexahydrocyclopenta [c] pyrrole - 2 (1H) -carboxylate is based on the in-depth research of scientific researchers in the fields of synthesis, technology, materials, etc. If it can successfully mine its value, it will definitely set off a wave in the market. On the contrary, it is better to gain a position in the market.
