Chemical Synthesis
Chemical synthesis refers to the process of converting simple chemical substances into more complex compounds through chemical reactions. This process is usually achieved by controlling specific chemical reactions, catalysts, temperature, pressure and other conditions. It has a wide range of applications in industry, pharmaceutical manufacturing, materials science, and biochemistry.
Chemical Synthesis
Chemical synthesis refers to the process of converting simple chemical substances into more complex compounds through chemical reactions. This process is usually achieved by controlling specific chemical reactions, catalysts, temperature, pressure and other conditions. It has a wide range of applications in industry, pharmaceutical manufacturing, materials science, and biochemistry.
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Organoaluminum
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Organotin
Organotin compounds refer to compounds containing tin and organic groups (such as methyl, phenyl, ethyl, etc.) connected by covalent bonds. They play an important role in many industrial and scientific research fields, especially in catalysis, sterilization, plastic stabilizers, antibacterial and anti-algae agents.
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Organoarsenic
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Organoselenium
Organic selenium compounds refer to organic compounds containing selenium atoms, in which the selenium atoms are connected to organic groups (such as methyl, phenyl, etc.) through covalent bonds. Selenium has special properties in chemical reactions, so organic selenium compounds have a wide range of applications in various fields, including catalysis, drug development, anti-oxidation, environmental protection, etc.
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Organosilicon
Silicone compounds are compounds containing silicon atoms and organic groups (such as methyl, phenyl, etc.) connected by covalent bonds. Their unique properties make silicones widely used in many fields, especially in materials science, chemical industry, medicine, electronics and environmental protection.
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Organoboron
Organoboron compounds are widely used in many fields such as organic synthesis, catalysis, materials science and biochemistry. They play an important role in various chemical reactions by providing electronic effects, promoting reaction processes and improving catalytic performance. Especially in the fields of cross-coupling reactions, CH bond activation reactions and polymerization reactions, the use of organoboron compounds has greatly promoted the improvement of chemical reaction efficiency and product selectivity.
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Enzyme-Mediated Synthesis
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Ionic Liquids
Substances composed of ions that are liquid at or near room temperature are called room temperature ionic liquids,room temperature molten salts,organic ionic liquids,etc.,referred to as ionic liquids.
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Solid Supported Synthesis
Solid Supported Synthesis is the synthesis of a reactant attached to an insoluble solid phase carrier.
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Acids, Bases
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Aryne Precursors, Heteroaryne Precursors
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C-C Bond Formation
C-C bond is formed by two carbon atoms coming close to each other along the bond axis in SP3 hybrid orbitals and reaching maximum overlap.
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C-X(Halogen) Bond Formation
CX(halogen) bond formation refers to the chemical bond formed between halogen atoms and carbon atoms. This kind of chemical bond is very important in organic chemistry and is widely used in molecular self-assembly, supramolecular chemistry, crystal engineering and drug design.
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C-X(Non-Halogen) Bond Formation
CX(Non-Halogen) Bond Formation is the formation of chemical bonds between carbon atoms and other non-halogen atoms, such as oxygen, nitrogen, and sulfur.
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Chelation/Complexation Compounds
Chelation/Complexation Compounds Chemicals formed by coordination bonds between a central metal ion and a ligand.
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Coupling
Coupling reactions have important applications in organic synthesis, helping to form carbon-carbon bonds to build complex organic molecules.
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Dehydrating Reagents
Dehydrating Reagents are chemical agents used to remove water from compounds, solutions, or solids.
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Fluorination Reagents
Fluorinated agents are chemical agents that introduce fluorine atoms into a synthetic reaction.
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Hypervalent Iodine Compounds
Hypervalent iodine, also called hypervalent iodine, is an organic molecule containing iodine that has more than eight electrons surrounding the iodine atom in comparison to the conventional structure of ordinary organic compounds.
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Inorganic Salts
In chemistry, inorganic salts are a class of metal ions or ammonium ions combined with acid ions, such as calcium sulfate, copper chloride, sodium acetate and so on.
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Oxidation
The reaction of organic matter to introduce oxygen or dehydrogenate.
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Phase Transfer Catalysts
Phase Transfer Catalysts can accelerate the reaction rate of heterogeneous systems by transferring the reactants from one phase to another.
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Precursors for Preparation of Highly Reactive Reagents
Precursors for Preparation of Highly Reactive Reagents Precursors for preparation of highly reactive reagents are usually more stable compounds, but can be converted to more reactive substances by reaction under certain conditions.
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Protection, Deprotection, Derivatization
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Radical Chemistry
Radical Chemistry is an atom or group with unpaired electrons formed by homogeneous splitting of covalent bonds in the molecules of a compound under external conditions such as light and heat.
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Reduction
A reduction reaction is a reaction in which a substance (molecule, atom, or ion) acquires electrons or electron pairs.
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Polymer-Supported Reagents
Polymer-supported reagents are a class of chemicals that are produced by loading a chemical agent onto a Polymer carrier. This form of reagent is commonly used in organic synthesis, catalytic reactions, and molecular separation.
C-X(Non-Halogen) Bond Formation
- Alkyl Transfer
- Alkylation (Esterification)
- Amination
- Azidation, Diazo Transfer
- Boration
- C-H Bond Activation Reaction
- C-S Bond Formation
- C-Se Bond Formation
- Cyanation
- Ethynylation
- Formylation
- Guanidinylation
- Mitsunobu Reaction
- Nitration
- Phosphorylation
- Vinylation
- C-X(Non-Halogen) Bond Formation (Other)
- Arylation