What's the difference between bioengineering and biotechnology? What job prospects are better?

Professional training objectives of bioengineering editors in this paragraph:

Master the basic theories and skills of biotechnology and its industrialization, technological process and engineering design, and be able to engage in design, production management, new technology research and new product development in the field of biotechnology and engineering.

Main course:

Inorganic and Analytical Chemistry Organic Chemistry Physical Chemistry Biochemistry Basic Biology Microbiology Chemical Engineering Principles Biochemical Engineering Fermentation Equipment

Study time: four years

Degree awarded: Bachelor of Engineering

Similar majors: biotechnology, bioengineering, bioscience, quality and reliability engineering.

Professional analysis

1). Advantages

High social recognition and high expectations for this major.

Wide knowledge, strong biological foundation, solid and organic combination of engineering knowledge.

With a solid foundation and wide application, it is easy to transfer to the direction of biological science or other related application majors, such as food science and pharmacy.

Strong rational thinking, good at analyzing and solving problems; Pay attention to hands-on ability, be able to conduct experiments and submit professional papers independently.

The postgraduate entrance examination rate is very high, and many students have the opportunity to go abroad for further study.

2) Disadvantages

Professional courses are not very mature and schools are uneven.

Whether it is a biological science course or an engineering knowledge study, the depth is limited.

There are many compulsory subjects and heavy homework. If you want to learn the essence well, you must invest a lot of energy, so spare time is not enough.

The prospect of undergraduate graduation is not very clear, and the relevant employment fields require higher education.

3). Opportunities

The discipline of cultivating senior scientific and technological talents has a large proportion abroad, and famous universities attach great importance to its development.

This major has a wide range of applications and it is easy to change majors. You can further study the upstream life sciences and downstream practical engineering disciplines. There are many fields of employment, such as pharmacy, food, scientific research or technology development.

Linking advanced and high-end life sciences with applications is a very popular major with very broad prospects.

4). Challenges

Compared with the requirements of higher education in stomatology, it is relatively difficult to find a job after graduation. Because of this, many students pursue advanced studies, and generally engage in lower-level technical jobs or simply give up their majors.

If you are interested in related scientific research and engage in related scientific research work, you need to cultivate a solid spirit of research and exploration, and pay attention to training your hands-on ability for further study. You will certainly become a senior scientific talent in this field.

export

1. Go abroad

Bioengineering is a comprehensive and cross-developing discipline, which is closely combined with application. Many famous foreign schools attach great importance to its development, so there are great opportunities for further study abroad and more room for development.

You can study life science instead, and there are more advanced research and development abroad. Famous universities in China have generally established friendly exchanges with foreign universities and will recommend many students of this major to study abroad.

If you change your major to a discipline closely related to engineering, such as food fermentation, the Netherlands, Japan and other countries are also ideal places to go.

Go to graduate school

The proportion of graduate students is very large. If you want to make achievements in this subject or engage in advanced technical work, you must go to graduate school for further study. Generally, more than half of the students choose to go to graduate school.

The choice of graduate school can be transferred to many related fields, such as biology, pharmacy, food, etc. The probability of scientific research support is relatively high, and the probability of cross-support between schools and research institutes is very high.

If you choose life science as your major, you will develop in the direction of scientific research. Generally, you will always be engaged in research work, such as continuing your major or turning to fermentation engineering, pharmaceutical engineering, food science and so on. After graduation, you will have a good employment prospect.

to apply for a job

It is suitable for the technical development, engineering design, production management, product performance testing and analysis of biological products in medicine, food, environmental protection, commodity inspection and other departments, as well as the scientific research and teaching work of teaching departments.

It is impossible for undergraduates to engage in scientific research directly. Some graduates turn to other industries, and some graduates engage in downstream technical work in related majors.

Graduates are directly employed in medicine, food and other fields, and their work content is generally monotonous technical work, which requires further experience accumulation and practical operation ability training.

Future employer

Related research institutions: Bioengineering Research Center of China Academy of Sciences, Bioengineering of Tsinghua University, Institute of Bioengineering of Peking Union Medical College, etc.

Related companies: Huamei Bioengineering Company, Beijing Baisai Bioengineering Company, China Bioengineering Company, Beijing Bioengineering Company, Shanghai Bioengineering Company, etc.

Business Training Objectives of Biotechnology Major [Edit this paragraph] Business Training Objectives: This major trains basic theories, basic knowledge and basic skills of biotechnology with basic theories and systems of life sciences, and can engage in scientific research or teaching in scientific research institutions or colleges and universities, and can engage in applied research and technical work related to biotechnology in enterprises, institutions and administrative departments in industries such as industry, medicine, food, agriculture, forestry, animal husbandry and fishery, environmental protection and gardening. [Edit this paragraph] Business training requires students of this major to learn the basic theory and knowledge of biotechnology, to be trained in scientific thinking and scientific experiments in applied basic research and technology development, and to have good scientific literacy and basic abilities of initial teaching, research, development and management. [Edit this paragraph] Graduates should acquire the following knowledge and abilities 1. Master the basic theories and knowledge of mathematics, physics and chemistry;

2. Master the basic theories, knowledge and experimental skills of basic biology, biochemistry, molecular biology, microbiology, genetic engineering, fermentation engineering and cell engineering, as well as the basic principles and methods of biotechnology and its product development;

3. Understand the general principles and knowledge of similar majors;

4. Familiar with the national biotechnology industry policy, intellectual property rights and bioengineering safety regulations and other related policies and regulations;

5. Understand the theoretical frontier, application prospect and latest development trends of biotechnology, as well as the development of biotechnology industry;

6. Master the basic methods of information inquiry, document retrieval and obtaining relevant information by using modern information technology; Have the ability to design experiments, create experimental conditions, summarize, sort out and analyze experimental results, write papers and participate in academic exchanges. [Edit this paragraph] Main course: Biology

Main courses: microbiology, cell biology, genetics, biochemistry, molecular biology, genetic engineering, cell engineering, microbial engineering, biochemical engineering, downstream technology of bioengineering, fermentation engineering equipment and so on.

Main practical teaching links: including teaching practice, production practice and graduation thesis (design). , usually arranged in 10-20 weeks.

Study time: four years

Awarded Degree: Bachelor of Science [Edit this paragraph] Similar major Biological Science Biotechnology Bioinformatics Bioscience and Biotechnology Animal and Plant Quarantine Biochemistry and Molecular Biology Medical Informatics Plant Biotechnology Animal Biotechnology Bioengineering Biosafety

Biotechnology is one of the fastest developing high technologies in the world. In 1970s, recombinant DNA technology and hybridoma technology were invented. Large-scale cell culture transgenic technology was established in the 1980s, and modern biotechnology pharmacy, especially the invention of pcr technology, began in the early 1980s, which made the development of modern biotechnology advance by leaps and bounds. In the 1990s, with the implementation of the human genome project, the genome project of important crops and microorganisms and the penetration of information technology, a series of automatic analytical testing and drug screening technologies and equipment such as functional genomics, bioinformatics, combinatorial chemistry and biochip technology were developed one after another. At present, all kinds of emerging biotechnology have been widely used in medical treatment, agriculture, biological processing, resource development and utilization, environmental protection and other fields, and have had a far-reaching impact on the development of pharmaceutical industry.

The development of biotechnology has gone through two stages: traditional biotechnology and modern biotechnology. At present, we often talk about modern biotechnology. It includes genetic engineering, cell engineering, enzyme engineering and fermentation engineering, in which genetic engineering is the core technology. Because biotechnology will open up broad prospects for solving major problems such as food, health, environment and energy, it is considered as the core of science and technology in 2 1 century, along with computer microelectronics technology, new materials, new energy and aerospace technology. At present, the most active application field of biotechnology is biomedical industry, and biopharmaceuticals (usually referred to as recombinant drugs) are regarded by investors as one of the industries with the highest growth. Major pharmaceutical companies in the world aim at the target, invest huge sums of money to develop biological drugs, and launch unprecedented fierce competition for 2 1 century. [Edit this paragraph] Set up colleges and universities in Beijing

Beijing Institute of Technology Capital Medical University Beijing Jiaotong University

Shanghai

Fudan University, Shanghai Jiaotong University

Chongqing

Chongqing University of Posts and Telecommunications Chongqing Institute of Technology

Hebei Province

North China Electric Power University (Headquarters) hebei mechanical and electrical Vocational and Technical College Shijiazhuang Yanshan University Railway College

Henan Province

Henan University Zhengzhou University Zhengzhou Institute of Light Industry Luoyang Teachers College

Shandong (province)

Shandong Agricultural University Shandong University of Technology Shandong University of Science and Technology

Shanxi

Changzhi Medical College

Anhui province

Hefei University of Technology

Jiangxi

Nanchang Institute of Aeronautical Technology

Jiangsu Province

Nanjing Medical University Nanjing University of Posts and Telecommunications Nanjing Forestry University Nanjing Agricultural University Xuzhou Normal University

Zhejiang Province

China Ji Liang University Zhejiang University of Traditional Chinese Medicine

Hunan

Central South University Central South University of Forestry and Technology Xiangtan University Hunan University of Science and Technology Hunan Normal University Jishou University

Guangdong

Yingdong College of Biological Engineering

South China Agricultural University (SCAU)

Sun Yat-sen University

South China Normal University

South China University of Technology

Southern medical university

Guangdong University of Technology

Guangdong Pharmaceutical University

Zhaoqing university

Guangxi

Guilin medical college