When filling out the college entrance examination volunteers, many candidates are very interested in the biological engineering profession. The following is the "bioengineering professional employment direction and prospects", which is only for reference, welcome to read this article.
Bioengineering
Bioengineering professional through the mastery of biotechnology and its industrialization of scientific principles, technology processes and engineering design and other basic theories, basic skills, can be engaged in biotechnology and engineering fields in the design of production management and research of new technologies, new product development of engineering and technical personnel.
Biological Engineering Career Direction
After graduation, students of this major can be suitable for medicine, food, environmental protection, commodity inspection and other departments in the biological product technology development, engineering design, production management and product performance testing and analysis work and teaching department of research and teaching work.
Engaged in the industry:
After graduation, mainly in the pharmaceutical, medical equipment, new energy and other industries, roughly as follows:
1 Pharmaceutical / bio-engineering;
2 Medical equipment / devices;
3 New Energy;
4 Medical / nursing / health;
5 Fast Moving Consumer Goods (food, beverages, cosmetics), cosmetics).
Positions:
After graduation, they are mainly engaged in sales managers, after-sales engineers, laboratory technicians, etc., roughly as follows:
1 Sales Manager;
2 Sales Engineers;
3 After-sales Engineers;
4 Sales Representatives;
5 Laboratory Technicians.
Career Prospects for Bioengineering Majors
There are still very few, almost no, undergraduate students majoring in biological sciences who go into teaching after graduation. The reason is that it is inherently difficult to stay in school and teach after graduation from undergraduate studies, especially those with high technological content and high professional requirements like this one. Engaged in this professional teaching work, not only is required to have solid professional knowledge, skills, but also should have a strong strategic vision, to the long term but also have the ability to grasp the dynamics of the progress of things. So that there can be professional guidance, which is very important in the teaching work.
Expanded reading: the direction of the bioengineering program
Biochemistry and molecular biology
Research direction
(01) nucleic acid biochemistry, genetic engineering;
(02) protein chemistry, protein structure and function and proteomics;
( 03) Regulation of Gene Expression;
(04) Genetically Engineered Vaccines;
(05) Structural Biology;
(06) Metabolomics;
(07) Cellular and Molecular Mechanisms.
Microbiology
Research Interests
Fungi and lichenology, microbial resources, classification, systematics, diversity, population genetics and evolution, synergistic metabolic molecular mechanisms, environmental microbiology, industrial microbiology, systems biotechnology, microbial physiology, microbial physiology, microbial metabolism, microbial ecology, microbial biochemical engineering, molecular virology, molecular immunology.
Biomedical Engineering
Cultivation Objectives
Graduates of this program are expected to develop morally, intellectually, and physically. In a research field of biomedical engineering discipline to master a more systematic expertise, technology and methodology, with a comprehensive application of biomedical engineering theories, methods and technologies, biomedical engineering scientific research and technological development, to grasp the forefront of the development of the discipline of biomedical engineering and dynamics, general knowledge of electronics and computer applications, can work independently in this discipline and related fields, the use of knowledge and skills to solve the problem of scientific research or practical problems, and the use of knowledge and skills to solve the problem of scientific research and development. The ability to use the knowledge and skills to solve problems in scientific research or practical work.
Biochemistry
Cultivation Objectives
The master's degree should have systematic theoretical foundation and experimental knowledge of biochemistry. Understand the current situation and development trend of this discipline and certain fields of chemistry, biology and chemical engineering and other related disciplines. Master the modern experimental skills, research methods and computer technology of this discipline, and have the scientific research ability in biochemical industry. Master a foreign language more proficiently and be able to read foreign language materials in this specialty. To be able to undertake teaching, scientific research and technical management in colleges and universities, research institutes, enterprises and other organizations.
Research Direction
(01) Biochemical reaction process and engineering;
(02) Bioreactor engineering;
(03) Biological reaction process detection and control;
(04) Biochemical separation engineering;
(05) Cell culture engineering.