Analytical and bioanalytical chemistry is one of the three majors part of the Bachelor of Science Life Sciences Engineering. This specialization comprises a broad study programme enabling you to discover and be proficient in many aspects of analytical and bioanalytical chemistry. In addition, you will be able to further complete your study programme during the third year with three of the suggested elective modules. This will allow you to either understand more in depth a subject of your major or to discover a new subject of another major. 

This major shares a common part (not mentionned here) with the two other majors of the Life Sciences Bachelor. More information about the analytical and bioanalytical chemistry study programme as well as information about the Life Sciences Bachelor can be found here.

Study Programme

  • Instrumental Analysis
  • Chemical Thermodynomanics
  • Organic and Inorganic Chemistry
  • Chemical Engineering
  • Chemistry of Biomolecules
  • Method Development and Validation
  • Bioanalytical Chemistry and Lab
  • Industrial Chemistry and Biotechnology
  • Chemometrics and Data Analysis
  • Lab Project: Advanced Bioanalytics 

With the following elective modules

  • Food Sensitivity and Toxicology 
  • Consumer Research
  • Flavour Technology and Sensory perception
  • Factory and Hygenic Design
  • Business Experience BEX
  • Applied Enzyme Technology
  • Industrial Enzymatic Biotransformations for Sustainability
  • Measurement and Control Technology
  • Biosensors Design and Applications
  • Chemistry of Biomolecules 
  • Analytics of Food Products
  • DNA Sequencing in Life Sciences
  • Flow Cytometry (FC): Principles and Applications

Concretely

Through the development of advanced analytical methods, the analytical and bioanalytical chemist enables the development and production of drugs and biopharmaceuticals, guarantees the quality of various products and a healthy environment and supports medical diagnostics.

Career Prospects

  • Development and fine-tuning of high-level analytical methods
  • Analytical support from the early stages of research through to production
  • Monitoring and quality control of products and manufacturing processes
  • Management of an accredited chemical analysis laboratory
  • Activity in the chemical, biotechnological, pharmaceutical or food industry as well as in environmental and biomedical laboratories
Jean-Manuel Segura
Contact:
Professor UAS, Prof. Dr. Jean-Manuel Segura

Curriculum : Full-time

Core CurriculumMajors' Curriculum


Curriculum : Part-time

Study plan

Bachelor's degree programme in Life Sciences Engineering

Career

Skills
Career Prospects
Master
Doctorate

The Life Sciences Engineer is capable of conceiving, planning and conducting studies and expertise, of developing and optimizing analytical methods as well as transformation processes. He or she is also able to treat, analyze and visualise the incoming and outcoming scientific data of such processes. He or she is capable of implementing and managing production equipements for the chemical, pharmaceutical, biotechnological and food industry.

Digital Life Sciences Engineer
Proficient in processing and interpreting complex scientific data
Communicates results through digital storytelling
Supports the development of novel industrial processes
Implements and optimizes the automation of processes

Food Technology and Biotechnology Engineer
Develops new products adapted to the market
Proficient in modern hygiene and food safety concepts
Designs and manages food production lines

Biotechnology Engineer
Develops and implements processes designed to manufacture pharmaceutical products with very high added value
Operates bioreactors
Master industrial hygiene concepts
Master and manage quality control sectors

Analytical and Bioanalytical Chemistry Engineer
Develops and fine-tunes highly demanding analytical methods
Monitors and controls the quality of products and manufacturing processes
Manages and directs an accredited chemical analysis laboratory