Master the scientific principles of biotechnology and its industrialization, process technology and engineering design and other basic theories, basic skills, can be engaged in the field of biotechnology and engineering design and production management and research of new technologies, new product development of engineering and technical personnel.
Main Courses:
Inorganic and Analytical Chemistry Organic Chemistry Physical Chemistry Biochemistry Basic Biology Microbiology Chemical Principles Biochemical Engineering Fermentation Equipment
Year of Study: 4 Years
Granted Degree: Bachelor of Engineering
Similar Majors: Biotechnology Bioengineering Bioscience Quality and Reliability Engineering
Professions Analysis
1). Advantages
High social recognition, high expectations for this major
Wide range of knowledge, strong foundation in biology, solid knowledge of engineering, an organic combination of the two
Solid foundation, wide range of applications, can easily be transferred to the direction of biological sciences or other related application of the profession, such as food science, pharmaceutical science
Strong rational thinking, good at analyzing and problem solving; focus on hands-on ability, can be used to solve problems. Problem solving; focus on hands-on ability, can carry out independent experiments and submit professional papers
The ratio of guaranteed graduate school examination is very large, and many students have the opportunity to go abroad for further study
2). Disadvantages
Specialized courses are not very mature, and vary from school to school
Biological sciences and engineering knowledge are limited in depth
More subjects are required, and the coursework is heavy, so students have to put in a lot of energy to learn well, so they don't have enough time outside of class
The job prospect of graduating from undergraduate school is not very clear, and the related employment areas require Higher Education
3). Opportunities
To cultivate high-level scientific research and technical personnel disciplines, the proportion of going abroad is large, the major famous universities are very much focused on its development
Specialty applicable to a wide range of easy to change majors, you can further study the upstream of the life sciences, but also downstream of the practical engineering disciplines. Wide range of employment areas, such as pharmaceutical, food, research, or technology development
Linking advanced and high-end life sciences with applications, it is a very hot specialty with a very promising future
4). Challenges
Relative to the mouth of the professional requirements of higher education, undergraduate work after graduation is relatively difficult to find, for this reason, many students to further study, employment is generally engaged in a lower level of technical work or simply give up the profession and change profession
If you are interested in engaging in the relevant scientific research, you need to cultivate the spirit of solid research and exploration and focus on the hands-on ability to exercise, and to further study and learning will be become a senior scientific talent in this area.
The way out
1. abroad
Bioengineering belongs to the comprehensive cross-development of disciplines, and with the application of a close combination of many famous foreign universities are very concerned about its development, so the opportunity to go abroad for further study is very large, but also there will be more space for the development of
You can turn to the study of life sciences, which has a more advanced development of the research in foreign countries, China's famous universities are generally established with foreign universities, and the development of life sciences, the development of life sciences and the development of life sciences. Universities generally have established friendly exchange relations with foreign universities, and will recommend many students of such majors to study abroad
If you change your major to study disciplines closely related to engineering, such as food fermentation, etc., Holland, Japan and other countries is also a more desirable place to go
2.Graduate studies
Graduate studies are a large proportion of the students who want to make progress in the discipline or want to engage in advanced technical work must go to graduate school for further study. If you want to make a difference in your discipline or want to engage in advanced technology, you must go to graduate school to further your education, generally more than half of the students will choose to go to graduate school
Go to graduate school to choose a wide range of options, you can turn to a lot of related fields, such as biology, pharmaceuticals, food, etc.; the chances of guaranteed graduate school is greater, and schools, research institutes, cross-bonding opportunities
Go to graduate school such as choosing the life sciences class, then the development of the direction of the science research, will be engaged in the general research work. Undergraduates are unlikely to be directly engaged in scientific research, some graduates turn to other industries, some graduates are engaged in the downstream technical work of related professions
Graduates directly in the direction of pharmaceuticals, food, etc., the content of the work of the general more monotonous technical work, and the need for further experience and practical ability to cultivate
Future employers
Related
Related
Related
Topics Institutes: Chinese Academy of Sciences Bioengineering Research Center, Tsinghua University Bioengineering, Beijing Union Bioengineering Institute, etc.
Related companies: Huamei Bioengineering, Beijing Bayside Bioengineering, China Bioengineering, Beijing Bioengineering, Shanghai Bioengineering, etc.
Bio-technology Major [Edit this paragraph] Business Training Objectives Business Training Objectives This specialty is to cultivate people with basic theories of life science and more systematic basic theories, basic knowledge and basic skills of biotechnology, who are able to engage in scientific research or teaching in scientific research institutes or schools of higher education, and who are able to engage in biotechnology-related applied research, technological development, production management and administrative management in enterprises, undertakings and administrations in the industries of industry, pharmaceuticals, food, agriculture, forestry, animal husbandry, fisheries, environmental protection and gardening. Administration and management of senior specialists. [Edit paragraph] Business Training Requirements Students of this major mainly study the basic theory and basic knowledge of biotechnology, receive scientific thinking and scientific experimental training in applied basic research and technological development, and have good scientific literacy and preliminary basic ability of teaching, research, development and management. [Edit Paragraph] Graduates should acquire the following knowledge and abilities 1. master the basic theory and basic knowledge in mathematics, physics and chemistry;
2. master the basic theory, basic knowledge and basic experimental skills in basic biology, biochemistry, molecular biology, microbiology, genetic engineering, fermentation engineering and cell engineering, and the basic principles and basic methods of biotechnology and its product development;
3. master the basic theory, basic knowledge and basic experimental skills of biotechnology and its product development;
4. Basic principles and methods of biotechnology and its product development;
3. Understand the general principles and knowledge of similar specialties;
4. Be familiar with the national biotechnology industry policy, intellectual property rights and bioengineering safety regulations and other relevant policies and regulations;
5. Understand the theoretical frontiers of biotechnology, the prospects for application and the latest developments, as well as the state of development of the biotechnology industry;
6. Master the basic methods of data inquiry, literature search and the use of modern information technology to obtain relevant information; have the ability to design experiments, create experimental conditions, summarize, organize and analyze the results of experiments, write papers and participate in academic exchanges. [edit]Main Courses Main Discipline: Biology
Major Courses: Microbiology, Cell Biology, Genetics, Biochemistry, Molecular Biology, Genetic Engineering, Cellular Engineering, Microbial Engineering, Biochemical Engineering, Bioengineering Downstream Technology, and Fermentation Engineering Equipment.
The main practical teaching links: including teaching internship, production internship and thesis (design, etc., generally arranged for 10-20 weeks.
Year of study: four years
Degree conferred: Bachelor of Science [编辑本段]相近专业 Biological Sciences Biotechnology Bioinformatics Bioinformatics Bioscience and Biotechnology Plant and Animal Quarantine Biochemistry and Molecular Biology Medical Informatics Plant Biotechnology Animal Biotechnology Bioengineering Biosafety
Biotechnology is one of the world's fastest-growing high technologies. In the 1970s, recombinant DNA technology and hybridoma technology were invented; in the 1980s, transgenic technology for large-scale cell culture was established; modern biotechnology (genetic engineering) pharmaceuticals began in the early 1980s, especially with the invention of pcr technology, which has led to the development of modern biotechnology by leaps and bounds; in the 1990s, with the implementation of the Human Genome Project and the Important Crops and Microorganisms Genome Project and the infiltration of information technology, there have been successive developments in biotechnology and biotechnology. In the 1990s, with the implementation of the human genome program and important crops and microbial genome program and the infiltration of information technology, the development of functional genomics, bioinformatics, combinatorial chemistry, biochip technology and a series of automated analysis and testing and drug screening technology and equipment. At present, a variety of emerging biotechnology has been widely used in medicine, agriculture, bioprocessing, resource development and utilization, environmental protection, and the development of pharmaceutical and other industries have had a profound impact.
The development of biotechnology has gone through two stages of traditional biotechnology and modern biotechnology development, and at present we often talk about refers to modern biotechnology. It includes genetic engineering, cell engineering, enzyme engineering, fermentation engineering, of which genetic engineering is the core technology. As biotechnology will open up broad prospects for solving the major problems faced by mankind, such as food, health, environment, energy, etc., it is classified as high-tech with computer microelectronics, new materials, new energy, aerospace technology, etc., and is regarded as the core of science and technology in the 21st century. At present, the most active application field of biotechnology is the biopharmaceutical industry, and biopharmaceuticals (often referred to as recombinant drugs) are regarded by investors as one of the industries with the highest growth rate. The world's major pharmaceutical companies aiming at the target, have invested huge sums of money, the development of biopharmaceuticals, launched for the 21st century, the unprecedented fierce competition. [edit]Institutions Beijing
Beijing Institute of Technology Capital Medical University Beijing Jiaotong University
Shanghai
Fudan University Shanghai Jiaotong University
Chongqing
Chongqing Institute of Posts and Telecommunication Chongqing Institute of Technology
Hebei
North China Electric Power University (the main office) Hebei Mechanical and Electrical Vocational and Technical College Yanshan University Shijiazhuang Railway Institute
Henan
Henan University Zhengzhou University Zhengzhou Institute of Light Industry Luoyang Normal College
Shandong
Shandong Agricultural University Shandong University of Science and Technology Shandong University of Science and Technology
Shanxi
Changzhi Medical College
Anhui
Hefei University of Technology
Jiangxi
Nanchang Institute of Aeronautics and Astronautics
Jiangsu
Nanjing Medical University Nanjing University of Posts and Telecommunications Nanjing Forestry University Nanjing Agricultural University Xuzhou Normal University
Zhejiang
Chinese Academy of Weights and Measures Zhejiang University of Traditional Chinese Medicine
Hunan
Central South University Central South University Central South University of Forestry Science and Technology Xiangtan University Hunan University of Science and Technology Hunan Normal University Jishou University
Guangdong
Yingdong Institute of Bioengineering
South China Agricultural University
Sun Yat-sen University
South China Normal University
South China University of Science and Technology
Southern Medical University
Guangdong Polytechnic University
Guangdong Pharmaceutical University
Zhaoqing College
Guangxi
Guilin Medical College
Sichuan
Sichuan University Southwestern Petroleum University Luzhou Medical College University of Electronic Science and Technology
Shanxi
Northwest A&F University
Herzegowina
Herzegowina
Herzegowina
Northeastern Agricultural University Northeastern Agricultural University Harbin Institute of Technology Harbin Teachers' Training University
Jilin
Jilin University Jilin Agricultural University Changchun University of Science and Technology
Gansu
Lanzhou Jiaotong University Lanzhou University
Fujian
Xiamen University