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Chemistry, Master's Programme

Master's120 ECTSA–F Score: 74.8
Biotechnology & Life SciencesPrimary
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Official page

Intakes & How to Apply

Each intake has its own application route. We show official links so you can verify and apply confidently.

Autumn 2026on_campusfull_time
Autumn 2026on_campusfull_time
Autumn 2026
Linköping
on_campus
full_time

UACode: LIU-91130Apply
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Your Eligibility

Check if your qualifications meet this program's admission requirements.

Checking eligibility...

Skills you'll develop

19 skills mapped from curriculum analysis

These skills are derived from curriculum analysis and industry alignment. Primary skills are core to the program; others are developed through coursework and projects.

Core skills

Statistical Analysisintermediate
analyse blood samplesintermediate
analyse body fluidsintermediate
analyse booking patternsintermediate
analyse cell culturesintermediate
analyse chemical substancesadvanced
analyse claim filesadvanced
Chemistryadvanced
Chemistry fundamentalsadvanced
Quality Control Analysisintermediate
Scienceadvanced
Scientific research methodology (school-level water quality analysis project)intermediate

Additional skills

Thinking & Problem Solving

Critical Thinking★★Problem Solving★★Ethical Reasoning★★

Technical Skills

Python★★SQL★

Data & Analytics

Data Literacy★★

Domain Knowledge

Life Cycle Assessment★

Total skills

19

Core skills

12

High demand

4

What you'll become (field context)

This is based on the Biotechnology & Life Sciences Future Field and its subfields (not program‑specific promises). Use the official program page for curriculum details.

Why this field matters

Biotechnology, genomics, pharmaceuticals, and life sciences innovation

Career outcomes snapshot

Biotechnology & Life Sciences

A quick, visual overview of common outcomes in this field (roles + paths + subfields). It’s field-level context — not a promise for this specific program.

Roles

6

Paths

6

Subfields

2

Top roles

Bioinformatics ScientistComputational BiologistGenomics AnalystHealth Data ScientistDigital Health Product ManagerClinical AI Engineer

Typical paths

  • MSc Bioinformatics
  • MSc Computational Biology
  • MSc Biomedical Data Science
  • MSc Digital Health

Subfields

Computational BiologyDigital Health

Looking for a Master's in Biotechnology & Life Sciences? Compare intakes above and verify curriculum details on the official programme page.

Future-Readiness Score

A–F framework evaluation • Each score is backed by evidence

A-F Score Overview

6-dimension future-readiness evaluation

75/100
StrongEstimated
A79
B73
C73
D75
E73
F76
A
Frontier Connection
Strong79
B
Tech Fluency
Strong73
C
Human Skills
Strong73
D
Hands-On Learning
Strong75
E
Innovation Culture
Strong73
F
Global Outlook
Strong76
Learn how we evaluate programs
A

Future relevance

Is this program connected to fast-growing careers?

79/100
Framework Score

Based on this program's field (Biotechnology & Life Sciences), curriculum structure, and institution profile. How we score →

B

Tech & data strength

Will you build strong technical skills (data, software, AI tools)?

73/100
✓ Program Evidence

“Learn molecular structures in detail Throughout the programme, our experienced teachers, who are all active researchers, will explain how molecular properties are understood, designed and used.”

View source
C

People skills

Does it build communication, teamwork, and leadership?

73/100
✓ Program Evidence

“This project is a collaboration with The National Board of Forensic Medicine (Rättsmedicinalverket, RMV).”

View source
D

Practical learning

Do you learn by doing (projects, labs, real-world work)?

75/100
✓ Program Evidence

“Pentti Niiranen, on diploma work placement in a research group at LiU "My thesis is a continuation of previous research done here at IFM (Department of Physics, Chemistry and Biology) where plasma electrons were used as a reducing agent for depositing metal films.”

View source
E

Innovation & entrepreneurship

Does it support innovation, startups, or building new things?

73/100
Framework Score

Based on this program's field (Biotechnology & Life Sciences), curriculum structure, and institution profile. How we score →

F

Global & ethical impact

Does it cover sustainability, ethics, and global perspective?

76/100
Framework Score

Based on this program's field (Biotechnology & Life Sciences), curriculum structure, and institution profile. How we score →

How we calculate these scores

Our A–F framework evaluates programs across 6 dimensions of future-readiness. Scores combine: field alignment (how the program's field connects to growing industries), curriculum signals (keywords, course structure, learning outcomes), and institution profile (research focus, industry partnerships). This program has 3 verified citations from official sources.

Learn more about our methodology

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Why This Field Matters

Industry insights verified by Mojo

Big-picture context for Biotechnology & Life Sciences. These sources show why the field is growing — not specific program details.

Healthcare workforce shortages remain material through 2030

World Health Organization • 2025-05-12

✓ Verified

The evidence indicates global progress in reducing the nursing workforce shortage from 6.2 million in 2020 to 5.8 million in 2023, with a projection to decline to 4.1 million by 2030.

Read source

Health and care job growth + skills gaps are long-term

World Health Organization • 2025-01-01

✓ Verified

The world will face a shortfall of 10 million health and care workers by 2030, of which more than half will be in Africa.

Read source

Biological-technician jobs are growing faster than average

U.S. Bureau of Labor Statistics • 2024-09-01

✓ Verified

The U.S. Bureau of Labor Statistics projects biological-technician employment to grow 7% from 2023 to 2033 — faster than the all-occupation average — with about 10,300 openings each year.

Read source

Biomedical engineering employment to grow 7% this decade

U.S. Bureau of Labor Statistics • 2024-09-01

✓ Verified

Employment of bioengineers and biomedical engineers is projected to grow 7% from 2023 to 2033, faster than the average for all occupations.

Read source

The Bio Revolution could create $2–4 trillion of impact a year

McKinsey Global Institute • 2020-05-01

✓ Verified

McKinsey estimates the Bio Revolution — from ~400 already-feasible use cases — could generate $2–4 trillion in direct annual economic impact across 2030–2040, more than half of it outside human health.

Read source

Program Evidence

Citations from official sources

tech_data

Learn molecular structures in detail Throughout the programme, our experienced teachers, who are all active researchers, will explain how molecular properties are understood, designed and used.

View source
human_skills

This project is a collaboration with The National Board of Forensic Medicine (Rättsmedicinalverket, RMV).

View source
hands_on

Pentti Niiranen, on diploma work placement in a research group at LiU "My thesis is a continuation of previous research done here at IFM (Department of Physics, Chemistry and Biology) where plasma electrons were used as a reducing agent for depositing metal films.

View source