1. Bioprocess Engineering:
This involves the study of biological processes for the production of pharmaceuticals, biofuels, and other bioproducts.
2. Biomedical Engineering:
Students learn about the design and development of medical devices, tissue engineering, and healthcare technologies.
3. Genetic Engineering:
Genetic engineering courses cover gene editing techniques, genetic modification, and biotechnology applications.
4. Biological Systems Modeling:
This area focuses on mathematical modelling and simulation of biological systems to aid in research and development.
5. Bioinformatics:
Students gain skills in computational biology, including the analysis of biological data, genomics, and proteomics.
6. Biological Materials and Biomimetics:
This involves the study of materials inspired by biological systems and their applications in engineering.
7. Bioproduction and Fermentation Technology:
Students learn about industrial-scale production of biological products, including biopharmaceuticals and biofuels.
2. Biomedical Engineer:
Biomedical engineers develop medical devices, prosthetics, and healthcare technologies, working to improve patient care and healthcare systems.
3. Genetic Engineer:
Genetic engineers are involved in genetic modification, gene therapy, and biotechnology research, contributing to advancements in agriculture and medicine.
4. Biotechnologist:
Biotechnologists apply biological principles to solve real-world problems in fields like agriculture, food production, and environmental management.
5. Bioinformatics Analyst:
Bioinformatics analysts use computational tools to analyze biological data, aiding in genomics, drug discovery, and personalized medicine.
6. Tissue Engineer:
Tissue engineers focus on regenerative medicine, creating artificial tissues and organs for transplantation and medical research.
7. Biological Systems Modeler:
Modelers use mathematical and computational techniques to simulate and analyze complex biological systems, aiding in drug development and research.
8. Biological Research Scientist:
Graduates can work in research roles, exploring topics such as cell biology, microbiology, and molecular biology.
9. Environmental Engineer:
Biological engineers contribute to environmental conservation efforts, including wastewater treatment, pollution control, and ecosystem restoration.
2. Biomedical Device Developer:
Works on the design and development of medical devices and technologies.
3. Genetic Editing Specialist:
Focuses on genetic modification techniques like CRISPR-Cas9 for research and therapeutic applications.
4. Bioinformatics Scientist:
Analyzes biological data to discover patterns and insights, often in genomics or proteomics.
5. Tissue Engineer:
Designs and creates artificial tissues for medical purposes.
6. Biological Research Associate:
Conducts laboratory research and experiments to advance biological knowledge.
7. Environmental Biotechnologist:
Applies biological principles to address environmental issues, such as pollution and resource conservation.
1. Entry-Level Bioprocess Engineer: ?400,000 to ?800,000 per year
2. Biomedical Engineer: ?400,000 to ?900,000 per year
3. Genetic Engineer: ?400,000 to ?900,000 per year
4. Bioinformatics Analyst: ?400,000 to ?800,000 per year