Tris Dimethylamino Sulfur Trimethylsilyl Difluoride
| Chemical Formula | C9H27F2NSiS |
| Molecular Weight | 245.46 |
| Appearance | Typically a colorless to pale - yellow liquid |
| Boiling Point | Data may vary, but around [X] °C under certain pressure |
| Density | [X] g/cm³ |
| Solubility | Soluble in common organic solvents like dichloromethane, toluene |
| Vapor Pressure | Relatively low at room temperature |
| Flash Point | Caution: Flammable, flash point around [X] °C |
| Reactivity | Reactive with water, strong bases and some nucleophiles |
| Chemical Formula | C9H27F2NSiS |
| Appearance | Typically a colorless to pale - yellow liquid |
| Boiling Point | Approximately [specific value] °C (under specific pressure conditions) |
| Melting Point | Approximately [specific value] °C |
| Density | [specific value] g/cm³ |
| Solubility | Soluble in some organic solvents like dichloromethane |
| Flash Point | Approximately [specific value] °C |
| Vapor Pressure | [specific value] Pa at [specific temperature] °C |
| Reactivity | Reactive towards nucleophiles |
| Name | tris(dimethylamino)sulfur(trimethylsilyl)difluoride |
| Chemical Formula | C9H27F2NSiS |
| Molar Mass | 259.47 g/mol |
| Appearance | Colorless to pale yellow liquid |
| Solubility | Soluble in common organic solvents |
| Density | ~0.98 g/cm³ |
| Boiling Point | ~85 - 87 °C (at reduced pressure) |
| Flash Point | Combustible, flash point data may vary |
| Reactivity | Reactive, can act as a fluorinating agent |
| Storage Conditions | Stored in a cool, dry, well - ventilated place away from moisture and heat sources |
| Chemical Formula | C9H27F2NSiS |
| Molar Mass | 259.47 g/mol |
| Appearance | Colorless to pale yellow liquid |
| Density | Approx. 0.95 g/cm³ |
| Boiling Point | Around 180 - 185 °C |
| Solubility | Soluble in common organic solvents like dichloromethane |
| Flash Point | Moderate, requires proper handling |
| Purity | Typically high - purity available in commercial products |
| Reactivity | Reactive, can be used in fluorination reactions |
| Storage Conditions | Stored in a cool, dry place away from moisture |
| Name | tris(dimethylamino)sulfur(trimethylsilyl)difluoride |
| Chemical Formula | C9H27F2NSiS |
| Molar Mass | 259.56 g/mol |
| Appearance | Colorless to pale yellow liquid |
| Density | Approx. 0.94 g/cm³ |
| Boiling Point | Approx. 140 - 142 °C at 10 mmHg |
| Solubility | Soluble in common organic solvents like dichloromethane |
| Reactivity | Highly reactive, especially as a fluorinating agent |
| Odor | Pungent odor |
| Stability | Sensitive to moisture and air |
What is the main use of tris (dimethylamino) sulfur (trimethylsilyl) difluoride
Tri (dimethylamino) sulfur (trimethylsilyl) difluoride, this substance has a wide range of uses in the field of chemical synthesis. Its primary use is as a fluorination reagent. In many reactions in organic synthesis, fluorine atoms can be introduced, which is of great significance. The introduction of fluorine atoms can greatly change the physical and chemical properties of compounds, such as improving the stability, lipophilicity, or changing their electronic properties.
Looking at the history of organic synthesis, the application of fluoride is often the key to creating novel compounds with unique properties. Tri (dimethylamino) sulfur (trimethylsilyl) difluoride plays an important role in this trend. It has made significant contributions in the research and development of fluorinated drugs and the creation of functional materials. < Br >
On the synthesis path of fluorine-containing drugs, with the help of this reagent, fluorine atoms can be precisely introduced to obtain molecular structures with specific biological activities. The activity, metabolic properties and toxicity of drugs are optimized due to the ingenious introduction of fluorine atoms, thereby improving drug efficacy and reducing side effects.
In the creation of functional materials, it helps to synthesize fluorine-containing polymer materials, optoelectronic materials, etc. Due to the characteristics endowed by fluorine atoms, such materials may have excellent thermal stability, chemical stability, or unique optical and electrical properties, and have broad application prospects in cutting-edge fields such as electronics and aerospace. Therefore, tris (dimethylamino) sulfur (trimethylsilyl) difluoride, with its function as a fluorination reagent, has an indispensable position in the development of organic synthesis and related industries, promoting many fields to new frontiers.
What are the physical properties of tris (dimethylamino) sulfur (trimethylsilyl) difluoride
Tris (dimethylamino) sulfur (trimethylsilyl) difluoride is an organic compound. Its physical properties are quite specific and have been used in various fields of chemistry.
Looking at its shape, under normal conditions, it may be a colorless to light yellow liquid with a clear texture, like the morning dew in autumn, without obvious turbidity or impurities. Its smell is also unique, and it smells slightly irritating, but it is not unbearable. This smell has also become one of the important characteristics for identifying this substance.
When it comes to boiling point, its boiling point value is quite high, and it needs to reach a certain temperature before it can be converted from liquid to gas. This property is of great significance in chemical operations such as separation and purification. It can be separated from other substances with different boiling points by precisely controlling the temperature. And its melting point also has a specific value. When the ambient temperature drops below this melting point, the substance will solidify from liquid to solid, just like lake water freezes in winter, showing a different physical state.
Furthermore, its solubility is also a major feature. In specific organic solvents, such as some polar organic solvents, tris (methdiylamino) sulfur (trimethylsilyl) difluoride exhibits good solubility, and can dissolve with it to form a uniform solution. In water, its solubility is relatively limited or only slightly soluble. This difference in solubility also provides a basis for its selection of suitable solvents in chemical experiments and industrial production.
In addition, its density may be different from that of common solvents. When participating in chemical reactions or mixing substances, the density characteristics will affect the distribution and interaction between substances. During the experimental operation and product preparation process, this physical property needs to be carefully considered to ensure the accuracy of the experiment and the quality of the product.
What are the chemical properties of tris (dimethylamino) sulfur (trimethylsilyl) difluoride
The tris (dimethylamino) sulfur (trimethylsilyl) difluoride is also a chemical substance. Its properties are very interesting and special.
In terms of its anti-activity, this compound is very active. Because of the interaction of groups in its molecules, it is easy to polymorphize. If it is synthesized in the field of synthesis, it is often used as a fluorination agent, which can introduce fluorine atoms into the molecules in a phase-efficient manner. This fluorination reaction can be carried out in the next phase of the synthesis, providing a convenient way to synthesize fluorine-containing compounds.
Furthermore, its physical rationality is also acceptable. Under normal conditions, this substance may appear in a specific state, such as liquid or solid, and it has a surrounding environment. In terms of solubility, tris (dimethylamino) sulfur (trimethylsilyl) difluoride or some soluble substances exhibits good solubility. This property makes it easier to disperse and react in the solution of the solution phase. The poor solubility in different solutions can also provide a means of controlling the reaction. For example, according to the needs of the reaction, the reaction rate and the solubility of the reaction.
However, this material also needs to be properly treated. Due to its high chemical activity, or the strong reaction of some substances, it is necessary to follow the safety standard in the storage and use, so as to ensure the safety of human beings and the benefit of the industry. In addition, tris (dimethylamino) sulfur (trimethylsilyl) difluoride has a place in the field of chemical synthesis due to its specialization, providing many possibilities for chemical research.
What is the synthesis method of tris (dimethylamino) sulfur (trimethylsilyl) difluoride
Alas! If you want to know the synthesis method of tris (dimethylamino) sulfur (trimethylsilyl) difluoride, you are here today.
Starting materials need to be carefully selected. Dimethylamine, sulfur-containing compounds and reagents with trimethylsilyl groups are all the cornerstones of synthesis. First, dimethylamine and specific sulfur-containing reagents are met in a suitable reaction vessel, and the temperature, pressure and reaction time are controlled. If the temperature is too high, the reaction will be excessive and by-products will be easily generated; if the temperature is too low, the reaction will be slow and take a long time. The control of pressure is also related to the reaction rate and product purity.
When the initial reaction of the two is completed, the reagent containing trimethylsilyl group is slowly introduced. This step requires caution to prevent sudden reactions. And the pH of the reaction environment should also be paid attention to. It can be adjusted with buffers to ensure the stability of the reaction environment.
During the reaction process, analytical means are often used to monitor, such as chromatography, to understand the degree of reaction and product purity. If there are too many impurities, the reaction conditions need to be adjusted in time.
When the reaction is coming to an end, the separation and purification of the product is also the key. Distillation, extraction and other methods can be used to remove impurities to obtain pure tris (dimethylamino) sulfur (trimethylsilyl) difluoride. During distillation, precise temperature control is used to fractionate the target product according to the difference in boiling points of different substances. Extraction selects an appropriate extractant to enrich the product.
All of these are the main methods for synthesizing tris (dimethylamino) sulfur (trimethylsilyl) difluoride, which require careful operation and detailed study by the experimenter to obtain ideal results.
What are the precautions for using tris (dimethylamino) sulfur (trimethylsilyl) difluoride?
Tris (dimethylamino) sulfur (trimethylsilyl) difluoride is also a chemical substance, and many matters must not be ignored during use.
The first person to pay attention to is the property of this substance. Its chemical activity, or other substances react, so it is familiar with its chemical properties to prevent accidents. When using it, you must follow the correct method of operation. For example, the order of taking the amount and adding is fixed, and there is a slight difference, or it may cause abnormal behavior.
Furthermore, this substance may be toxic, corrosive and other hazards. When handling it, you must use equipment such as gloves, eyes, and gas masks to prevent it from affecting you and your body. And the place where it is used, the communication is good. If there is a harmful problem that can escape, it can be quickly dispersed, so as not to gather and cause damage.
And its method of storage, it is also necessary. It should be stored in the dry place, to avoid the co-location of incompatible things, to prevent backlash. Seal the seal, to prevent it from being connected with air, moisture, etc.
times, before use, it must be clear and written, and know the things it uses, and pay attention to things. Or in the middle of the raw world, the heart should be inspected and reversed. If there is an image, quickly stop the operation to find out the reason, and do not be reckless.
Therefore, the use of tris (dimethylamino) sulfur (trimethylsilyl) difluoride should be handled with caution to ensure safe and efficient operation.
