What is the future of organic synthesis? What does an organic synthesizer do?

There is definitely a prospect for doing organic synthesis. Organic synthesis is a very meaningful thing, can synthesize new things, new things may have a revolutionary new effect on the society, think about it is exciting, especially in terms of organic synthesis drugs, if the drugs made by themselves can solve the pain of others, how meaningful is this? With such rapid social development, organic synthesis has penetrated into all aspects of our lives, and we eat food additives.

Drugs, pesticides, nutraceuticals (vitamins), plastics. The development direction should be a little better in the direction of green organic synthesis. The old synthesis method of low energy consumption, low emission technology improvement, this aspect should be greatly improved, such as nanofiltration technology, in which the membrane used is organic synthesis.

Then it's saving energy and reducing emissions.

The contribution has been revolutionary. In the past, how much energy was consumed to treat a ton of wastewater? How much does the wastewater discharged pollute...

Through nanofiltration technology, the organic matter in the wastewater can be clearly separated, on the one hand, it can be the best product, on the other hand, the wastewater discharge can be reduced, and all this can be achieved with only a membrane and a pump. <>

Ever since I entered the lab, I've been trying to lose ......my hairTo tell the truth, depending on the specific direction of organic, in general, there is no future, but total synthesis, especially natural product full synthesis, has no future. To what extent? Other branches can ensure that they can graduate with a master's degree or a doctorate for five years or at most for one or two years, and there are ...... for those who can't finish their studies in ten years, especially natural product synthesisAnd that's not even taking into account miserable employment.

You teachers will definitely not be able to recruit students, and you will start fooling around. Organic chemistry is a research field that has developed very maturely, and the society also has a certain demand for personnel in this area, so it can be said that as long as you enter the industry, it is not a problem to find a job, although the future will not be good enough to be promoted to CEO to marry Bai Fumei, but it is still much stronger than many other fields, at least it is not a problem to work more. However, organic synthesis is very hard work.

How tired are you, so tired that you often feel very powerless to ask questions like "is it harmful to the body?" It is true that the current laboratory technology can ensure that you are not infringed to the greatest extent, but this direction still requires you to have a little dedication, if you have such and such trivial worries before entering the industry, then forget it, you will be very painful in the future. <>

The applications and prospects of synthetic biology are as follows:

Synthetic biology will give birth to the next biotechnology revolution. At present, the scientific scholars are no longer limited to the very painstaking work of gene splicing, but have begun to construct the genetic code, with a view to using synthetic genetic factors to construct new organisms. Synthetic biology is expected to make rapid progress in the coming years.

It is estimated that synthetic biology will have excellent applications in many areas, including the production of more effective vaccines, new and improved medicines, biologically-based manufacturing, the production of sustainable energy from renewable energy, bioremediation of environmental pollution, and biosensors that can detect toxic chemicals.

While most commercial applications of synthetic biology are still years away, researchers are already using synthetic organisms to develop the next generation of clean, renewable biofuels and some scarce drugs. First-generation synthetic microorganisms are simple applications of synthetic biology that may be similar to those currently recombinant with DNA, and their risk assessment may not be a problem, so there are fewer challenges for legislators.

However, as synthetic biology technology continues to mature, complex organisms may be developed, and their genomes may be recombined from various gene sequences, including artificial gene sequences designed and developed in the laboratory. Although the risk and risk assessment questions are similar to those posed by genetically modified organisms, it is much more difficult to find answers to these questions for this complex group of synthetic microorganisms.

In the case of genetically modified biotechnology, legislators generally conduct risk assessments of genetically modified organisms by comparing them with non-genetically modified organisms of the same known congeneracy, in order to understand the function of the increased genetic material. Legislators ensure that new organisms are "as safe" as their traditionally inferior counterparts by comparing naturally occurring species with genetically modified species.

However, for a complex organism made by synthetic biology, it is difficult to determine its "genetic lineage" if it is composed of a combination of various genetic sequences or contains artificial DNA. In addition, it is also questionable whether the recombined genetic sequence retains its original function, or whether there will be a synergistic reaction between the new components that can lead to different functions or behaviors.

As knowledge of genetic components increases, scientists may be able to learn about the functions of genetic modification, but organisms synthesized from genetic components derived from synthetic and natural substances may exhibit "new behaviors" that were not previously available.

The work mainly includes: (1) measuring, proportioning, mixing or dissolving raw materials separately; (2) Use a special machine pump to send the prepared materials into the synthesis kettle; (3) Operate the synthesis kettle, regulate the process parameters such as temperature and pressure, and carry out the residual of the energy-machine synthesis reaction; (4) Regularly sample and analyze the changes or physical constants of the composition of the first empty material in the reaction, and confirm the end point of the reaction; (5) Release the reacted materials for specific unit operation post-processing; (6) Packaging and storage of products.

The following types of work are classified as occupations:

There are erection machine synthesizers (16-113).

There is no essential difference between drug synthesis and organic synthesis. The key is that medicine is a special commodity, which is closely related to human life, and its safety, effectiveness and uniformity of nature must be guaranteed. Therefore, drug synthesis has stricter requirements and more restrictions than ordinary organic synthesis, and it is a special organic synthesis that is resistant to merging mountains.

I think these requirements and restrictions are mainly to prevent adverse reactions.

For example, the quality of ordinary Huachang middle school products can be reduced in price, but it must not be used as a drug if it does not meet the drug standards; The solvent used for drug synthesis must be low toxicity, and so on. The products of drug synthesis meet certain quality requirements, and the synthesis process cannot make the quality of different batches of products different.

Organic synthesis is usually synthesized out of the stool, that is, it doesn't matter what the impurities are.

However, from an experimental point of view, there should be no difference.

Organic synthesis or drug synthesis, which is more anterior? In the past, 100 said that it must be drug synthesis, and there must be prospects, but now it is said that it should be organic synthesis, and the drug must be better than the drug synthesis prospect, and now that science and technology are developed, organic synthetic drugs must be several times better than drug synthesized drugs, so the sedan stupid words are general, and now it is definitely the best to use organic synthesis.

The synthesis method of organic silver as celery, so that the direction of Feng Bi is very good, because the synthetic product itself will be more effective in terms of its functional effects.

The work mainly includes: (1) measuring, proportioning, mixing or dissolving raw materials separately; (2) Use a special machine pump to send the prepared materials into the synthesis kettle; (3) Operate the synthesis kettle, regulate the process parameters such as temperature and pressure, and carry out the residual of the energy-machine synthesis reaction; (4) Regularly sample and analyze the changes or physical constants of the composition of the first empty material in the reaction, and confirm the end point of the reaction; (5) Release the reacted materials for specific unit operation post-processing; (6) Packaging and storage of products.

The following types of work are classified as occupations:

There are erection machine synthesizers (16-113).

Organic chemistry courses include organic chemistry, analytical chemistry, etc., and the research focus of organic chemistry focuses on the synthesis of organic synthesis methods oriented to the synthesis of specific functional molecules.

Main research directions:

Organic Synthesis Methodology, Organometallic Chemistry, Natural Products and Medicinal Chemistry, Chemistry of Organic Functional Materials.

Specific Research Courses:

1. Research on the methodological research of organic synthesis reactions related to the functionalization of inactive chemical bonds, the green synthesis of ionic liquids, and asymmetric synthetic chemistry;

2. The basic reactions and mechanisms of organometallic chemistry are studied, and the design, synthesis and properties of functional organometallic compounds are studied, and the synthesis of efficient and highly selective synthesis is developed based on the primitive reactions of pure organic chemistry.

The work mainly includes: (1) measuring, proportioning, mixing or dissolving raw materials separately; (2) Use a special machine pump to send the prepared materials into the synthesis kettle; (3) Operate the synthesis kettle, regulate the process parameters such as temperature and pressure, and carry out the residual of the energy-machine synthesis reaction; (4) Regularly sample and analyze the changes or physical constants of the composition of the first empty material in the reaction, and confirm the end point of the reaction; (5) Release the reacted materials for specific unit operation post-processing; (6) Packaging and storage of products.

The following types of work are classified as occupations:

There are erection machine synthesizers (16-113).

The work mainly includes: (1) measuring, proportioning, mixing or dissolving raw materials separately; (2) Use a special machine pump to send the prepared materials into the synthesis kettle; (3) Operate the synthesis kettle, regulate the process parameters such as temperature and pressure, and carry out the residual of the energy-machine synthesis reaction; (4) Regularly sample and analyze the changes or physical constants of the composition of the first empty material in the reaction, and confirm the end point of the reaction; (5) Release the reacted materials for specific unit operation post-processing; (6) Packaging and storage of products.

The following types of work are classified as occupations:

There are erection machine synthesizers (16-113).

The work mainly includes: (1) measuring, proportioning, mixing or dissolving raw materials separately; (2) Use a special machine pump to send the prepared materials into the synthesis kettle; (3) Operate the synthesis kettle, regulate the process parameters such as temperature and pressure, and carry out the residual of the energy-machine synthesis reaction; (4) Regularly sample and analyze the changes or physical constants of the composition of the first empty material in the reaction, and confirm the end point of the reaction; (5) Release the reacted materials for specific unit operation post-processing; (6) Packaging and storage of products.

The following types of work are classified as occupations:

There are erection machine synthesizers (16-113).