066 652 Master programme Green Chemistry

Show structure
Show by semester

Show academic year
Show all courses of the academic year of which the selected semester is part of.

2022W-2023S (2022U)

Curriculum Document

Title	Precon.	Hours	ECTS
Master programme Green Chemistry			120.0
Grundlagen Green Chemistry			36.0
Concepts of Green Chemistry			6.0
VO Green Chemistry (TUW)		2.0	3.0
163.149 VO 2022W Green Chemistry		2.0	3.0
VO Green Chemistry: Recent Trends and Innovations (TUW, BOKU, UniW)		2.0	3.0
163.207 VO 2023S Green Chemistry: Recent Trends and Innovations (TUW, BOKU, UniW)		2.0	3.0
163.207 VO 2022W Green Chemistry: Recent Trends and Innovations (TUW, BOKU, UniW) canceled		2.0	3.0
Feedstocks and Renewables	The module will be held at the BOKU		6.0
VO Chemicals from biomass (BOKU)		2.0	2.0
VO Chemistry and technology of sustainable resources (BOKU)		2.0	2.0
VO Biopolymers for sustainable utilization (BOKU)		2.0	2.0
Environmental Analytical Chemistry and Toxicology			6.0
VO Principles of Toxicology (UniW)		2.0	4.0
VO Innovative Analytics in Green and Environmental Chemistry (UniW, together with TUW and BOKU)		1.0	2.0
Sustainable Development			6.0
VO Social Ecology and Technology Assessment (TUW together with BOKU)		3.0	4.0
166.726 VO 2023S Social Ecology and Technology Assessment (TUW together with BOKU) canceled		3.0	4.0
VO Extraction and recovery of critical materials (UniW)		1.0	2.0
Green Chemistry Laboratory	The two laboratories on Green Chemistry I and Green Chemistry II are mandatory to be completed at two different universities.		12.0
LU Green Chemistry I (TUW, BOKU, UniW)	Thematische Ausrichtung: Principles of Green Chemistry oder Feedstock and Renewables.	6.0	6.0
163.206 LU 2022W Green Chemistry I (TUW, BOKU, UniW)		6.0	6.0
LU Green Chemistry II (TUW, BOKU, UniW)	Thematische Ausrichtung: Environmental Analytical Chemistry and Toxicology oder Sustainable Development.	6.0	6.0
Bound Electives	Within the elective modules, at least 12.0 ECTS must be selected from each of three different modules. Within a module, at least 6.0 ECTS must be selected from the course types lecture or seminar. Across the three chosen modules, a total of least 9.0 ECTS must be selected from laboratory practicals, tutorials, internships or projects. At least 9.0 ECTS of elective courses must be completed at each university.		36.0
Design (Elective Module)			12.0
VO Development and Evaluation of Sustainable Processes (TUW)		2.0	3.0
166.643 VO 2023S Design and assessment of sustainable processes		2.0	3.0
VO Applied Modeling in Process and Energy Engineering (TUW)		2.0	3.0
166.198 VO 2023S Applied modelling in process engineering and energy technology		2.0	3.0
VO Process Simulation (TUW)		2.0	3.0
166.038 VO 2022W Process Simulation Basics		2.0	3.0
VO Fluid Dynamics (CFD) of Thermal Separation Processes (TUW)		2.0	3.0
166.049 VO 2023S Computational Fluid Dynamics (CFD) of Separation Processes		2.0	3.0
UE Computer Aided Chemical Engineering (TUW)		6.0	6.0
166.051 UE 2023S Computer Aided Chemical Engineering		6.0	6.0
166.051 UE 2022W Computer Aided Chemical Engineering		6.0	6.0
VU Process Optimisation Methods and Applications (TUW)		2.0	3.0
VU Data science methods for Green Chemistry and Engineering (TUW)		2.0	3.0
LU Elective Exercise Chemical (TUW)			4.0
LU Elective Exercise Technological (TUW)		4.0	4.0
VO Legislation in environmental and plant protection affairs (BOKU)		2.0	3.0
VO Global waste management I (BOKU)		2.0	3.0
VO Global change ecology (BOKU)		2.0	3.0
VU Process simulation (BOKU)			2.0
VO Computer Graphics and Molecular Modelling (UniW)		2.0	4.0
PR Laboratory Course: Computer Graphics and Molecular Modelling (UniW)		4.0	4.0
VU Machine learning for molecules and materials (UniW)		3.0	4.0
PR Research examples from theoretical chemistry (UniW)		4.0	4.0
VU Introduction to metabolic modelling (UniW)		2.0	3.0
VU (Introduction to) Network analysis with Python (UniW)			3.0
PR Examples for research: Colloid and Interface Science (UniW)		6.0	6.0
VU Bio-inspired Materials and Applications in Research (UniW)		2.0	4.0
VO Selected Chapters of Ecotoxicology (UniW)		3.0	4.0
SE Public recognition of environmental chemistry and ecotoxicology (UniW)		1.0	1.0
PR Evironmental Chemistry Lab including scientific field work (UniW)		6.0	6.0
VO Environmental Analytical Chemistry		2.0	4.0
VO Food and environmental contaminants (UniW)		2.0	4.0
PR Advanced Lab Course, Organic Synthesis (UniW)		4.0	4.0
Synthesis (Elective Module)			12.0
VO Bioorganic Chemistry (TUW)		2.0	3.0
163.048 VO 2022W Bioorganic Chemistry		2.0	3.0
VO Metaloorganic Chemistry		2.0	3.0
VO Strategies in Organic Chemistry (TUW)		2.0	3.0
163.159 VO 2023S Strategies in organic synthesis		2.0	3.0
VO Methods in Organic Chemistry (TUW)			3.0
163.160 VO 2023S Methods in organic synthesis		2.0	3.0
LU Elective Exercise Organic Chemistry		4.0	4.0
163.021 LU 2023S Optional Organic Chemistry Lab		4.0	4.0
163.021 LU 2022W Optional Organic Chemistry Lab		4.0	4.0
LU Elective Exercises – General Inorganic Chemistry (TUW)		6.0	6.0
163.009 LU 2023S advanced laboratory course in general and inorganic chemistry		6.0	6.0
163.009 LU 2022W advanced laboratory course in general and inorganic chemistry		6.0	6.0
VO Organic chemistry and immunobiology of carbohydrates (BOKU)		2.0	2.0
VO Applied biocatalysis (BOKU)			3.0
VO Enzyme reactions: mechanisms and kinetics (BOKU)		2.0	2.0
VO Strategies and tactics in organic synthesis (UniW)		2.0	4.0
UE Problem solving in organic chemistry (UniW)		2.0	2.0
VO Enzymes - Mechanisms and Applications (UniW)		1.0	2.0
VO Organometallic Catalysis (UniW)		2.0	4.0
VO Heterocyclic Chemistry and Drug Synthesis (Uni Wien)		2.0	4.0
VO Introduction to Carbohydrate Chemistry (UniW)		1.0	2.0
VO Thermally and photochemically induced reactions (UniW)		2.0	4.0
VO Synthetic and catalytic photochemistry (UniW)		2.0	4.0
PR Advanced Lab Course, Bio-organic Chemistry (UniW)		4.0	4.0
PR Advanced Lab Course, Metal-organic Chemistry (UniW)		4.0	4.0
PR Advanced Lab Course, Reaction Mechanisms (UniW)		4.0	4.0
Reagents and Feedstocks (Elective Module)			12.0
VO Primäre Naturstoffe aus Pflanzen		2.0	3.0
166.657 VO 2022W Primary Natural Products from Plants		2.0	3.0
VO Material Biomass Utilization (TUW)		2.0	3.0
166.684 VO 2023S Material Biomass utilisation		2.0	3.0
VO Recycling (TUW)		2.0	3.0
164.298 VO 2023S Recycling		2.0	3.0
VO Urban mining (TUW)		2.0	3.0
166.649 VO 2023S Urban Mining		2.0	3.0
VO Residues from Exhaust Gas Purification (TUW)		2.0	3.0
VO Ressource Management (TUW)		2.0	3.0
166.679 VO 2022W Resource Management		2.0	3.0
VO Chemische Technologie nachwachsender Rohstoffe		2.0	3.0
163.156 VO 2022W Chemical technology of renewable resources		2.0	3.0
VO Genomes and Metagenomes, Resources, Mining, Exploitation (TUW)		2.0	3.0
VO Metabolic Engineering (TUW)		2.0	3.0
VO Metabolomics (TUW)		1.5	2.0
164.356 VO 2022W Metabolomics		1.5	2.0
SE Biothermodynamics (TUW)		2.0	2.0
LU Elective Exercise Technological (TUW)		6.0	6.0
LU Elective Exercise Chemical (TUW)		6.0	6.0
VO Plant Polysaccharide Analysis (BOKU)		2.0	2.0
PR Technology and properties of natural raw materials (BOKU)		2.0	4.0
VO Biorefinery I (BOKU)		2.0	3.0
VO Biobased and biodegradable plastics (BOKU)		2.0	2.0
VO Plant biochemistry and cell biology (BOKU)		2.0	2.5
VU Introduction to genetics and anatomy of plants (BOKU)		3.0	4.0
VO Molecular genetics of yeasts and hyphal fungi (BOKU)		3.0	3.0
VO Biorefinery and products from renewable resources (BOKU)		1.0	2.0
VO Cell factories (BOKU)		3.0	4.0
UE Practical course in cell culture and fermentation (BOKU)		3.0	3.0
VO Metabolic and cell engineering (BOKU)		2.0	2.0
VX Lecture from Industry and Excursion to Industrial Site (BOKU)		2.0	2.0
VO Mechanisms of cell regulation in biotechnology (BOKU)		2.0	2.0
UE Mechanisms of cell regulation in biotechnology practical (BOKU)		3.0	3.0
VO Functional (nano)cellulose - fundamentals and applications (UniW)		2.0	4.0
PR Cellulose laboratory project (UniW)		6.0	6.0
VO Alternative Solvents (UniW)		1.0	2.0
Processes and Utilization (Elective Module)			12.0
VO Elektrochemische Energieumwandlung und Energiespeicherung		2.0	3.0
164.288 VO 2023S Electrochemical Energy Conversion and Energy Storage		2.0	3.0
VO Biotechnology 2 (TUW)		2.0	3.0
166.210 VO 2023S Biotechnology 2		2.0	3.0
LU Brennstoff- und Energietechnologie (TUW)		4.0	4.0
166.044 LU 2023S Energy and Fuel Technology		4.0	4.0
166.044 LU 2022W Energy and Fuel Technology		4.0	4.0
VO Materials for Energy (TUW)		3.0	3.0
VO Molekulare und selbstorganisierte Materialien		2.0	3.0
165.093 VO 2023S Molecule-based and self-assembled materials		2.0	3.0
VO Thermal Energy Storage			1.0
163.195 VO 2022W Thermal Energy Storage		1.5	1.0
VO Fuel Cells (TUW)		3.0	3.0
164.212 VO 2023S Fuel Cells		2.0	3.0
VO Bioverfahrenstechnik		2.0	3.0
166.061 VO 2022W Biochemical Engineering		2.0	3.0
VO Bioprocess Engineering – Downstream Processing (TUW)		2.0	3.0
166.157 VO 2023S Biochemical Engineering - Downstream processing		2.0	3.0
VO Thermische Biomassenutzung		2.0	3.0
166.220 VO 2023S Thermal Biomass Utilization		2.0	3.0
LU Methoden zur Trennung, Reinigung und Konzentrierung von chemischen Stoffen (Trenntechnik)		4.0	4.0
166.653 LU 2023S Methods for the separation and concentration of chemicals (separation technology)		4.0	4.0
166.653 LU 2022W Methods for the separation and concentration of chemicals (separation technology)		4.0	4.0
VO Membrane Technology (TUW)		2.0	3.0
166.654 VO 2022W Membrane Technology		2.0	3.0
VO Biochemical reaction engineering (BOKU)		2.0	2.0
LU Elective Exercise Technological (TUW)		4.0	4.0
LU Elective Exercise Chemical (TUW)		6.0	6.0
VO Biochemical technology (BOKU)		2.0	2.0
VU Bioprocess engineering I (BOKU)		3.0	4.0
VU Bioprocess engineering II (BOKU)		3.0	4.0
UE Bioprocess engineering laboratory (BOKU)		5.0	5.0
VO Products and processes in biotechnology (BOKU)		2.0	2.0
VO Engineering of biotechnological production facilities (BOKU)		2.0	2.0
VX Renewable energy resources (BOKU)		2.0	2.0
VO Biotechnology for sustainable processes and environmental protection (BOKU)		3.0	4.0
UE Pilot plant BioproEng (BOKU)		8.0	8.0
VU Automation of bioprocesses (BOKU)		2.0	3.0
VO Colloid and Interface Science (UniW)		2.0	4.0
PR Research Examples Bioinspired Materials (UniW)		4.0	4.0
VO Where porous materials can make an impact: 7 chemical separations to change the world (UniW)		2.0	4.0
VO Introduction to composites (UniW)		2.0	4.0
PR Research Examples Porous Materials (UniW)		6.0	6.0
SE Organic material manufacturing (UniW)		1.0	2.0
VO Sustainable industrial chemistry (UniW)		1.0	2.0
PR Examples for research in materials science (UniW)		6.0	6.0
PR Research Practice of Modern Methods in Materials Chemistry (UniW)		4.0	4.0
PR Modern methods for materials characterization (UniW)		3.0	3.0
PR Research examples in theoretical materials chemistry, polymer science and characterisation (UniW)		6.0	6.0
Master Thesis			30.0
Thesis Master Thesis			27.0
Final exam Comission final exam			3.0
Free Electives and Transferable Skills	At least 6 ECTS-credits mus be completed within the area of Transferable Skills		18.0
Empfohlene freie Wahlfächer
Transferable Skills

Responsible dean of academic affairs

For questions regarding the curriculum please contact the responsible dean of academic affairs.

Mihalyi-Schneider, Bettina; Senior Scientist Dipl.-Ing.in Dr.in techn.

Legend

: Courses belong to the introductory and orientation phase ("Studieneingangs- und Orientierungsphase")
: Courses belong to the introductory interview ("Studieneingangsgespräch")
: Courses require the completion of the introductory and orientation phase
: Courses require the completion of the introductory interview STEG