Thanks for visiting TopUniversities.com today! So that we can show you the most relevant information, please select the option that most closely relates to you.
Thanks for sending your response.
Your input will help us improve your experience.
Thanks for sending your response.
Your input will help us improve your experience.You can close this popup to continue using the website or choose an option below to register in or login.
The Department of Chemistry at the University of Aarhus offers research and training opportunities in analytical chemistry, inorganic chemistry, NMR spectroscopy, organic chemistry, physical chemistry, and theoretical chemistry.
The Department of Chemistry at the University of Aarhus offers research and training opportunities in analytical chemistry, inorganic chemistry, NMR spectroscopy, organic chemistry, physical chemistry, and theoretical chemistry.
Research in analytical chemistry is focused on investigation of trace compounds mainly in environmental matrices.
The primary field of inorganic chemistry research is the study and development of materials ranging from biological materials to functional materials. The work focuses on changes occurring on the nanoscale and the materials studied are used for e.g. hydrogen storage, thermoelectric elements, catalysts etc.. The studies encompass solid state synthesis, including experimental design of reactors, various analysis techniques including X-ray diffraction and other physico-chemical characterization method.
The research in NMR spectroscopy focuses on development of experimental and theoretical methods in solid- and liquid-state NMR spectroscopy with applications to chemistry, materials science research, and structure and dynamics of biological macromolecules with relevance for molecular biology, drug development, and nanoscience.
The research in organic chemistry is organized around the following areas: Organo-catalyzed reactions; organic surface chemistry focusing on modification of surfaces using organic molecules to create coatings and materials with controllable properties; organic nanochemistry using DNA as a programmable tool for building nanoarchitectures and functional structures from molecules and materials; synthetic organic chemistry, focusing on key reactions in the synthesis of a variety of bioactive compounds including studies of the mechanisms of electron transfer of various transition metal complexes and the design of artificial enzyme systems.
Physical chemistry research is divided into three areas: 1) Ultrafast laser spectroscopy of chemical reaction dynamics, development of fiber lasers and supercontinuum sources, and laser control and manipulation of molecules and mesoscopic particles. 2) Oxygen microscopy and imaging focusing on developing tools and methods to create dynamic (singlet) oxygen-based images of heterogeneous samples that range from industrially important polymers to biological cells. 3) Physical chemistry of soft condensed matter focusing on studies of the structure and thermodynamics of polymers, block copolymers, and surfactants in solution.
Theoretical chemistry research includes: 1) Biomodelling, focusing on using computational methods for understanding biochemical processes with respect to ligand binding, dynamical properties and reaction mechanisms, 2) Computational chemistry focusing on developing future force fields methods to be used in applications (reactions, protein dynamics, docking etc.) or influence in biomolecular recognition and 3) Quantum chemistry focusing on the theoretical development of the description of structure and properties of large molecular systems on the basis of quantum mechanics.
The Department of Chemistry at the University of Aarhus offers research and training opportunities in analytical chemistry, inorganic chemistry, NMR spectroscopy, organic chemistry, physical chemistry, and theoretical chemistry.
The Department of Chemistry at the University of Aarhus offers research and training opportunities in analytical chemistry, inorganic chemistry, NMR spectroscopy, organic chemistry, physical chemistry, and theoretical chemistry.
Research in analytical chemistry is focused on investigation of trace compounds mainly in environmental matrices.
The primary field of inorganic chemistry research is the study and development of materials ranging from biological materials to functional materials. The work focuses on changes occurring on the nanoscale and the materials studied are used for e.g. hydrogen storage, thermoelectric elements, catalysts etc.. The studies encompass solid state synthesis, including experimental design of reactors, various analysis techniques including X-ray diffraction and other physico-chemical characterization method.
The research in NMR spectroscopy focuses on development of experimental and theoretical methods in solid- and liquid-state NMR spectroscopy with applications to chemistry, materials science research, and structure and dynamics of biological macromolecules with relevance for molecular biology, drug development, and nanoscience.
The research in organic chemistry is organized around the following areas: Organo-catalyzed reactions; organic surface chemistry focusing on modification of surfaces using organic molecules to create coatings and materials with controllable properties; organic nanochemistry using DNA as a programmable tool for building nanoarchitectures and functional structures from molecules and materials; synthetic organic chemistry, focusing on key reactions in the synthesis of a variety of bioactive compounds including studies of the mechanisms of electron transfer of various transition metal complexes and the design of artificial enzyme systems.
Physical chemistry research is divided into three areas: 1) Ultrafast laser spectroscopy of chemical reaction dynamics, development of fiber lasers and supercontinuum sources, and laser control and manipulation of molecules and mesoscopic particles. 2) Oxygen microscopy and imaging focusing on developing tools and methods to create dynamic (singlet) oxygen-based images of heterogeneous samples that range from industrially important polymers to biological cells. 3) Physical chemistry of soft condensed matter focusing on studies of the structure and thermodynamics of polymers, block copolymers, and surfactants in solution.
Theoretical chemistry research includes: 1) Biomodelling, focusing on using computational methods for understanding biochemical processes with respect to ligand binding, dynamical properties and reaction mechanisms, 2) Computational chemistry focusing on developing future force fields methods to be used in applications (reactions, protein dynamics, docking etc.) or influence in biomolecular recognition and 3) Quantum chemistry focusing on the theoretical development of the description of structure and properties of large molecular systems on the basis of quantum mechanics.
Selecting the right scholarship can be a daunting process. With countless options available, students often find themselves overwhelmed and confused. The decision can be especially stressful for those facing financial constraints or pursuing specific academic or career goals.
To help students navigate this challenging process, we recommend the following articles:
Chemistry
Aarhus Campus, Aarhus, Denmark
# =162QS Subject Rankings
48 monthsProgram duration
ChemistryMain Subject Area
Program overview
Main Subject
Chemistry
Degree
PhD
Study Level
PHD
Study Mode
On Campus
Read more
- Research in analytical chemistry is focused on investigation of trace compounds mainly in environmental matrices.
- The primary field of inorganic chemistry research is the study and development of materials ranging from biological materials to functional materials. The work focuses on changes occurring on the nanoscale and the materials studied are used for e.g. hydrogen storage, thermoelectric elements, catalysts etc.. The studies encompass solid state synthesis, including experimental design of reactors, various analysis techniques including X-ray diffraction and other physico-chemical characterization method.
- The research in NMR spectroscopy focuses on development of experimental and theoretical methods in solid- and liquid-state NMR spectroscopy with applications to chemistry, materials science research, and structure and dynamics of biological macromolecules with relevance for molecular biology, drug development, and nanoscience.
- The research in organic chemistry is organized around the following areas: Organo-catalyzed reactions; organic surface chemistry focusing on modification of surfaces using organic molecules to create coatings and materials with controllable properties; organic nanochemistry using DNA as a programmable tool for building nanoarchitectures and functional structures from molecules and materials; synthetic organic chemistry, focusing on key reactions in the synthesis of a variety of bioactive compounds including studies of the mechanisms of electron transfer of various transition metal complexes and the design of artificial enzyme systems.
- Physical chemistry research is divided into three areas: 1) Ultrafast laser spectroscopy of chemical reaction dynamics, development of fiber lasers and supercontinuum sources, and laser control and manipulation of molecules and mesoscopic particles. 2) Oxygen microscopy and imaging focusing on developing tools and methods to create dynamic (singlet) oxygen-based images of heterogeneous samples that range from industrially important polymers to biological cells. 3) Physical chemistry of soft condensed matter focusing on studies of the structure and thermodynamics of polymers, block copolymers, and surfactants in solution.
- Theoretical chemistry research includes: 1) Biomodelling, focusing on using computational methods for understanding biochemical processes with respect to ligand binding, dynamical properties and reaction mechanisms, 2) Computational chemistry focusing on developing future force fields methods to be used in applications (reactions, protein dynamics, docking etc.) or influence in biomolecular recognition and 3) Quantum chemistry focusing on the theoretical development of the description of structure and properties of large molecular systems on the basis of quantum mechanics.
Read lessProgram overview
Main Subject
Chemistry
Degree
PhD
Study Level
PHD
Study Mode
On Campus
Read more
- Research in analytical chemistry is focused on investigation of trace compounds mainly in environmental matrices.
- The primary field of inorganic chemistry research is the study and development of materials ranging from biological materials to functional materials. The work focuses on changes occurring on the nanoscale and the materials studied are used for e.g. hydrogen storage, thermoelectric elements, catalysts etc.. The studies encompass solid state synthesis, including experimental design of reactors, various analysis techniques including X-ray diffraction and other physico-chemical characterization method.
- The research in NMR spectroscopy focuses on development of experimental and theoretical methods in solid- and liquid-state NMR spectroscopy with applications to chemistry, materials science research, and structure and dynamics of biological macromolecules with relevance for molecular biology, drug development, and nanoscience.
- The research in organic chemistry is organized around the following areas: Organo-catalyzed reactions; organic surface chemistry focusing on modification of surfaces using organic molecules to create coatings and materials with controllable properties; organic nanochemistry using DNA as a programmable tool for building nanoarchitectures and functional structures from molecules and materials; synthetic organic chemistry, focusing on key reactions in the synthesis of a variety of bioactive compounds including studies of the mechanisms of electron transfer of various transition metal complexes and the design of artificial enzyme systems.
- Physical chemistry research is divided into three areas: 1) Ultrafast laser spectroscopy of chemical reaction dynamics, development of fiber lasers and supercontinuum sources, and laser control and manipulation of molecules and mesoscopic particles. 2) Oxygen microscopy and imaging focusing on developing tools and methods to create dynamic (singlet) oxygen-based images of heterogeneous samples that range from industrially important polymers to biological cells. 3) Physical chemistry of soft condensed matter focusing on studies of the structure and thermodynamics of polymers, block copolymers, and surfactants in solution.
- Theoretical chemistry research includes: 1) Biomodelling, focusing on using computational methods for understanding biochemical processes with respect to ligand binding, dynamical properties and reaction mechanisms, 2) Computational chemistry focusing on developing future force fields methods to be used in applications (reactions, protein dynamics, docking etc.) or influence in biomolecular recognition and 3) Quantum chemistry focusing on the theoretical development of the description of structure and properties of large molecular systems on the basis of quantum mechanics.
Read lessAdmission Requirements
Scholarships
Selecting the right scholarship can be a daunting process. With countless options available, students often find themselves overwhelmed and confused. The decision can be especially stressful for those facing financial constraints or pursuing specific academic or career goals.
To help students navigate this challenging process, we recommend the following articles:
Scholarships to study abroad
Find scholarships to study abroad with our lists of international scholarships – categorized by country, by subject, and by type of student.
Scholarship Applications: Frequently Asked Questions
Get answers to all your questions about scholarship applications, including tips on how to find scholarships and chances of success.
How to get a full scholarship
Looking for a fully-funded scholarship to see you into university? Find out how to boost your chances of getting one.
QS subject rankings
Subject: Chemistry
Ranking criteria
More programs from the university
Business and Management (3)
BSc in Economics and Business Administration (Campus Aarhus)
BSc in Economics and Business Administration (Campus Aarhus)
BSc in Economics and Business Administration (Campus Herning)
BSc in Economics and Business Administration (Campus Herning)
Bachelor of Science Economics and Buisness Administration
Bachelor of Science Economics and Buisness Administration
Engineering and Technology (3)
BSc in Computer Science
BSc in Computer Science
BSc in Data Science
BSc in Data Science
BSc in IT Product Development
BSc in IT Product Development
Life Sciences and Medicine (1)
BSc in Cognitive Science
BSc in Cognitive Science
Arts and Humanities (3)
MA in English
MA in English
MA in Intercultural Studies
MA in Intercultural Studies
MA in Linguistics
MA in Linguistics
Business and Management (20)
MSc in Business Administration
MSc in Business Administration
MSc in Business Administration - Business Psychology
MSc in Business Administration - Business Psychology
MSc in Business Administration – Business Innovation
MSc in Business Administration – Business Innovation
MSc in Economics
MSc in Economics
MSc in Economics and Business Administration - Business Intelligence
MSc in Economics and Business Administration - Business Intelligence
MSc in Economics and Business Administration - Commercial and Retail Management
MSc in Economics and Business Administration - Commercial and Retail Management
MSc in Economics and Business Administration - Digital Business Management
MSc in Economics and Business Administration - Digital Business Management
MSc in Economics and Business Administration - Finance
MSc in Economics and Business Administration - Finance
MSc in Economics and Business Administration - Finance and International Business
MSc in Economics and Business Administration - Finance and International Business
MSc in Economics and Business Administration - Innovation Management
MSc in Economics and Business Administration - Innovation Management
MSc in Economics and Business Administration - International Business
MSc in Economics and Business Administration - International Business
MSc in Economics and Business Administration - International Business Development
MSc in Economics and Business Administration - International Business Development
MSc in Economics and Business Administration - International Economic Consulting
MSc in Economics and Business Administration - International Economic Consulting
MSc in Economics and Business Administration - Management Accounting and Control
MSc in Economics and Business Administration - Management Accounting and Control
MSc in Economics and Business Administration - Marketing Analytics and Strategy
MSc in Economics and Business Administration - Marketing Analytics and Strategy
MSc in Economics and Business Administration - Operations and Supply Chain Analytics
MSc in Economics and Business Administration - Operations and Supply Chain Analytics
MSc in Economics and Business Administration - Strategic Value Chain Management
MSc in Economics and Business Administration - Strategic Value Chain Management
MSc in Economics and Business Administration - Strategy, Organisation and Leadership
MSc in Economics and Business Administration - Strategy, Organisation and Leadership
MSc in Engineering - Technology Based Business Development
MSc in Engineering - Technology Based Business Development
Master of Science Economics and Business Administration
Master of Science Economics and Business Administration
Engineering and Technology (9)
MSc in Biotechnology and Chemical Engineering
MSc in Biotechnology and Chemical Engineering
MSc in Civil and Architectural Engineering
MSc in Civil and Architectural Engineering
MSc in Computer Engineering
MSc in Computer Engineering
MSc in Computer Science
MSc in Computer Science
MSc in Data Science
MSc in Data Science
MSc in Electrical Engineering
MSc in Electrical Engineering
MSc in IT Product Development
MSc in IT Product Development
MSc in Mechanical Engineering
MSc in Mechanical Engineering
MSc in Quantum Technologies and Engineering (QuanTEEM) (Erasmus Mundus)
MSc in Quantum Technologies and Engineering (QuanTEEM) (Erasmus Mundus)
Life Sciences and Medicine (7)
MSc in Agro-Environmental Management
MSc in Agro-Environmental Management
MSc in Agrobiology
MSc in Agrobiology
MSc in Bioinformatics
MSc in Bioinformatics
MSc in Biology
MSc in Biology
MSc in Cognitive Science
MSc in Cognitive Science
MSc in Molecular Biology
MSc in Molecular Biology
MSc in Molecular Nutrition and Food Technology
MSc in Molecular Nutrition and Food Technology
Natural Sciences (9)
MSc in Chemistry
MSc in Chemistry
MSc in Geoscience
MSc in Geoscience
MSc in Mathematics
MSc in Mathematics
MSc in Mathematics-Economics
MSc in Mathematics-Economics
MSc in Medicinal Chemistry
MSc in Medicinal Chemistry
MSc in Nanoscience
MSc in Nanoscience
MSc in Physics
MSc in Physics
MSc in Science Studies
MSc in Science Studies
MSc in Soils and Global Change (Erasmus Mundus)
MSc in Soils and Global Change (Erasmus Mundus)
Social Sciences and Management (7)
MA in Children's Literature, Media & Cultural Entrepreneurship (Erasmus Mundus)
MA in Children's Literature, Media & Cultural Entrepreneurship (Erasmus Mundus)
MA in European Studies
MA in European Studies
MA in Journalism, Media and Globalisation (Erasmus Mundus)
MA in Journalism, Media and Globalisation (Erasmus Mundus)
MA in Sustainable Heritage Management
MA in Sustainable Heritage Management
MSc in Anthropology - Visual Anthropology
MSc in Anthropology - Visual Anthropology
MSc in Human Security
MSc in Human Security
MSc in Statistics
MSc in Statistics
Arts and Humanities (4)
Art, Literature and Cultural Studies
Art, Literature and Cultural Studies
History, Archeology and Classical Studies
History, Archeology and Classical Studies
Language, Linguistics, Communication, and Cognition
Language, Linguistics, Communication, and Cognition
Theology, History of Ideas and Philosophy
Theology, History of Ideas and Philosophy
Business and Management (3)
Economics and Business Economics
Economics and Business Economics
PhD in Business Development and Technology
PhD in Business Development and Technology
PhD in Management
PhD in Management
Engineering and Technology (5)
Biological and Chemical Engineering
Biological and Chemical Engineering
Civil and Architectural Engineering
Civil and Architectural Engineering
Computer Science
Computer Science
Electrical and Computer Engineering
Electrical and Computer Engineering
Mechanical and Production Engineering
Mechanical and Production Engineering
Life Sciences and Medicine (9)
Agroecology
Agroecology
Animal Science
Animal Science
Biology
Biology
Biomedicine
Biomedicine
ClinFO (Clinical Medicine, Forensic Medicine and Dentistry and Oral Health)
ClinFO (Clinical Medicine, Forensic Medicine and Dentistry and Oral Health)
Ecoscience
Ecoscience
Molecular Biology and Genetics
Psychology and Behavioural Science
Quantitative Genetics and Genomics
Natural Sciences (7)
Chemistry
Chemistry
Environmental Science
Environmental Science
Food Science
Food Science
Geoscience
Geoscience
Mathematics
Mathematics
Nanoscience
Nanoscience
Physics and Astronomy
Social Sciences and Management (7)
Anthropology, Global Studies and the Study of Religion
Anthropology, Global Studies and the Study of Religion
Didactics
Didactics
ICT, Media, Communication and Journalism
ICT, Media, Communication and Journalism
Law
Law
Learning and Education
Learning and Education
Political Science
Political Science
Public Health