Common use of Academic coordination Clause in Contracts

Academic coordination. ‌ To ensure and facilitate the implementation of the double degree programme, each institution shall appoint an academic coordinator as contact person. The coordinators can be addressed by students, JLU and KU colleagues of the double degree programme. Besides admitting applicants they are authorized persons for accepting students’ working plans and workload approval. List 1 (JLU) (year 2015/2016) Lecture-based modules: These modules (6 CP) are run either in the winter or summer semester. Each year KU will be provided with a list of available modules. Course Code Title of course Responsible Professor Institute Chemistry-MNW03 Metal and Ligand reactivity (Chemistry of complexes) Xxxxxxxxx Inorganic Chemistry Chemistry-MNW04 Computational chemistry/Molecular Modeling Xxxxxxxxx Organic Chemistry Chemistry-MNW06 Scientific Writing and Data Dissemination Xxxxxxxxx Organic Chemistry Chemistry-MNW07 Matrix Isolation Techniques/Reactive Intermediates Xxxxxxxxx Organic Chemistry Chemistry-MNW15 Colloid chemistry Smarsly Physical Chemistry Chemistry-MNW16 Electrochemistry I – From Basics to Application Janek Physical Chemistry Chemistry-MNW17 Electrochemistry II – Electrochemical Energy Technologies Janek Physical Chemistry Chemistry-MNW18 Solid State Reactions Janek Physical Chemistry Chemistry-MNW24 Surface chemistry and metal catalysis Over Physical Chemistry Chemistry-MNW25 Electrochemistry III – Lab course in Electrochemistry and Interfaces Janek Physical Chemistry Chemistry-MNW26 Inorganic Reaction Mechanisms Xxxxxxxxx Inorganic Chemistry Chemistry-MNW29 Research Topics in Inorganic Chemistry I Xxxxxxxxx/Smarsly Inorganic Chemistry Chemistry-MNW31 Research Topics in Organic Chemistry I Xxxxxxxxx/Xxxxxx /Xxxxxxxx Organic Chemistry Chemistry-MNW34 Modern Aspects of Physical Chemistry Janek/Over/ Smarsly Physical Chemistry Chemistry-MNW36 (Organo)Catalysis and Synthesis Xxxxxxxxx/Xxxxxx /Xxxxxxxx Organic Chemistry Physics-MP13 Semiconductor Physics I Xxxxxxxx /Xxxx Solid State Physics Physics-MP14 Semiconductor Physics II Xxxxxxxx /Xxxx Solid State Physics Physics-MP16 Introduction to Solid State Theory Xxxxxxxx Solid State Physics Physics-MP17 Solid State Theory Xxxxxxxx Solid State Physics Physics-MP25 Nano- and Microstructures in Sensor- and Actuator Systems Xxxxxxxx/Xxxx /Xxxxxxx Solid State Physics Physics-MP35 Surface and Interface Physics I Schlettwein/Xxxx /Schirmeisen Applied Physics Research based modules: Important: Research modules (10 CP) are directly arranged with a professor and can be flexibly defined! Modules may be combined to form e.g. one 20 CP module. The subject depends very much on the research interests of the student. Course Code Title Responsible Professor Institute Chemistry-MNV01 Inorganic Chemistry, Advanced Synthesis and Characterisation Xxxxxxxxx, Xxxxxxx, N.N. Inorganic Chemistry Chemistry-MNV02 Advanced Organic Chemistry Laboratory Schreiner, Göttlich, Xxxxxx Organic Chemistry Chemistry-MNV03 Physical Chemistry and Materials Research Janek, Smarsly, Over Physical Chemistry Chemistry-MNS01 Project Work Inorganic Chemistry Schindler, Smarsly, N.N. Inorganic Chemistry Chemistry-MNS02 Project Work Organic Chemistry Schreiner, Göttlich, Xxxxxx Organic Chemistry Chemistry-MNS03 Project Work Physical Chemistry Xxxxx, Smarsly, Over Physical Chemistry Physics-MP-28 B Modern Technologies of Conductive and Dielectric Materials Göddenhenrich/ Xxxxxxxxxxx/Thummes Applied Physics Physics-MP-28 G Micro- and Nanostructured Semiconductors Klar /Xxxxxxxx Solid State Physics Physics-MP-28 H Bandstructure Calculations Xxxxxxxx Theoretical Physics Physics-MP-28 Q Synthesis of Micro- and Nano-Structured Materials Klar, Xxxxxxxx, Xxxxxx, Xxxxxxx Solid State Physics Physics-MP-28 R Surface and Interface Technologies Dürr, Schirmeisen, Schlettwein Applied Physics MP-29 A Multifunctional Thin Films Klar, Xxxxxxxx Solid State Physics Physics-MP-29 B Applied Material Physics Göddenhenrich/ Xxxxxxxxxxx/Thum- mes Applied Physics Physics-MP-29 G Green’s Functions in Solid State Theory Xxxxxxxx Theoretical Physics Physics-MP-29 L Low Temperature Plasma Physics Xxxxx, Xxxxx Plasma Physics Faculty members and professors teaching in materials science; Full professors can be chosen as advisors; all listed faculty members offer research-based courses. Faculty/Advisor Institute Research subjects (for the definition of research projects at JLU) N.N. Physical Chemistry Energy storage materials, battery materials, carbon materials, nanostructures materials

Academic coordination. ‌ To ensure and facilitate the implementation of the double degree programme, each institution shall appoint an academic coordinator as contact person. The coordinators can be addressed by students, JLU and KU colleagues of the double degree programme. Besides admitting applicants they are authorized persons for accepting students’ working plans and workload approval. List 1 (JLU) (year 2015/2016) Lecture-based modules: These modules (6 CP) are run either in the winter or summer semester. Each year KU will be provided with a list of available modules. Course Code Title of course Responsible Professor Institute Chemistry-MNW03 Metal and Ligand reactivity (Chemistry of complexes) Xxxxxxxxx Inorganic Chemistry Chemistry-MNW04 Computational chemistry/Molecular Modeling Xxxxxxxxx Organic Chemistry Chemistry-MNW06 Scientific Writing and Data Dissemination Xxxxxxxxx Organic Chemistry Chemistry-MNW07 Matrix Isolation Techniques/Reactive Intermediates Xxxxxxxxx Organic Chemistry Chemistry-MNW15 Colloid chemistry Smarsly Physical Chemistry Chemistry-MNW16 Electrochemistry I – From Basics to Application Janek Physical Chemistry Chemistry-MNW17 Electrochemistry II – Electrochemical Energy Technologies Janek Physical Chemistry Chemistry-MNW18 Solid State Reactions Janek Physical Chemistry Chemistry-MNW24 Surface chemistry and metal catalysis Over Physical Chemistry Chemistry-MNW25 Electrochemistry III – Lab course in Electrochemistry and Interfaces Janek Physical Chemistry Chemistry-MNW26 Inorganic Reaction Mechanisms Xxxxxxxxx Inorganic Chemistry Chemistry-MNW29 Research Topics in Inorganic Chemistry I Xxxxxxxxx/Smarsly Inorganic Chemistry Chemistry-MNW31 Research Topics in Organic Chemistry I Xxxxxxxxx/Xxxxxx /Xxxxxxxx Organic Chemistry Chemistry-MNW34 Modern Aspects of Physical Chemistry Janek/Over/ Smarsly Physical Chemistry Chemistry-MNW36 (Organo)Catalysis and Synthesis Xxxxxxxxx/Xxxxxx /Xxxxxxxx Organic Chemistry Physics-MP13 Semiconductor Physics I Xxxxxxxx /Xxxx /Klar Solid State Physics Physics-MP14 Semiconductor Physics II Xxxxxxxx /Xxxx Solid State Physics Physics-MP16 Introduction to Solid State Theory Xxxxxxxx Solid State Physics Physics-MP17 Solid State Theory Xxxxxxxx Solid State Physics Physics-MP25 Nano- and Microstructures in Sensor- and Actuator Systems Xxxxxxxx/Xxxx Klar /Xxxxxxx Solid State Physics Physics-MP35 Surface and Interface Physics I Schlettwein/Xxxx /Schirmeisen Applied Physics Research based modules: Important: Research modules (10 CP) are directly arranged with a professor and can be flexibly defined! Modules may be combined to form e.g. one 20 CP module. The subject depends very much on the research interests of the student. Course Code Title Responsible Professor Institute Chemistry-MNV01 Inorganic Chemistry, Advanced Synthesis and Characterisation XxxxxxxxxSchindler, XxxxxxxSmarsly, N.N. Inorganic Chemistry Chemistry-MNV02 Advanced Organic Chemistry Laboratory Schreiner, Göttlich, Xxxxxx Organic Chemistry Chemistry-MNV03 Physical Chemistry and Materials Research Janek, Smarsly, Over Physical Chemistry Chemistry-MNS01 Project Work Inorganic Chemistry Schindler, Smarsly, N.N. Inorganic Chemistry Chemistry-MNS02 Project Work Organic Chemistry Schreiner, Göttlich, Xxxxxx Organic Chemistry Chemistry-MNS03 Project Work Physical Chemistry XxxxxJanek, Smarsly, Over Physical Chemistry Physics-MP-28 B Modern Technologies of Conductive and Dielectric Materials Göddenhenrich/ XxxxxxxxxxxSchlettwein/Thummes Applied Physics Physics-MP-28 G Micro- and Nanostructured Semiconductors Klar /Xxxxxxxx Solid State Physics Physics-MP-28 H Bandstructure Calculations Xxxxxxxx Theoretical Physics Physics-MP-28 Q Synthesis of Micro- and Nano-Structured Materials Klar, XxxxxxxxEickhoff, XxxxxxPolity, Xxxxxxx Solid State Physics Physics-MP-28 R Surface and Interface Technologies Dürr, Schirmeisen, Schlettwein Applied Physics MP-29 A Multifunctional Thin Films Klar, Xxxxxxxx Solid State Physics Physics-MP-29 B Applied Material Physics Göddenhenrich/ XxxxxxxxxxxSchlettwein/Thum- mes Applied Physics Physics-MP-29 G Green’s Functions in Solid State Theory Xxxxxxxx Theoretical Physics Physics-MP-29 L Low Temperature Plasma Physics Xxxxx, Xxxxx Mitic Plasma Physics Faculty members and professors teaching in materials science; Full professors can be chosen as advisors; all listed faculty members offer research-based courses. Faculty/Advisor Institute Research subjects (for the definition of research projects at JLU) N.N. Physical Chemistry Energy storage materials, battery materials, carbon materials, nanostructures materials

Academic coordination. ‌ To ensure and facilitate the implementation of the double degree programme, each institution shall appoint an academic coordinator as contact person. The coordinators can be addressed by students, JLU and KU OU colleagues of the double degree programme. Besides admitting applicants they are authorized persons for accepting students’ working plans and workload approval. List 1 (JLU) (year 2015/20162014/2015) Lecture-based modules: These modules (6 CP) are run either in the winter or summer semester. Each year KU OU will be provided with a list of available modules. Course Code Title of course Responsible Professor Institute Chemistry-MNW03 Metal and Ligand reactivity (Chemistry of complexes) Xxxxxxxxx Inorganic Chemistry Chemistry-MNW04 Computational chemistry/Molecular Modeling Xxxxxxxxx Organic Chemistry Chemistry-MNW06 Scientific Writing and Data Dissemination Xxxxxxxxx Organic Chemistry Chemistry-MNW07 Matrix Isolation Techniques/Reactive Intermediates Xxxxxxxxx Organic Chemistry Chemistry-MNW15 Colloid chemistry Smarsly Physical Chemistry Chemistry-MNW16 Electrochemistry I – From Basics to Application Janek Physical Chemistry Chemistry-MNW17 Electrochemistry II – Electrochemical Energy Technologies Janek Physical Chemistry Chemistry-MNW18 Solid State Reactions Janek Physical Chemistry Chemistry-MNW24 Surface chemistry and metal catalysis Over Physical Chemistry Chemistry-MNW25 Electrochemistry III – Lab course in Electrochemistry and Interfaces Janek Physical Chemistry Chemistry-MNW26 Inorganic Reaction Mechanisms Xxxxxxxxx Inorganic Chemistry Chemistry-MNW29 Research Topics in Inorganic Chemistry I Xxxxxxxxx/Smarsly Inorganic Chemistry Chemistry-MNW31 Research Topics in Organic Chemistry I Xxxxxxxxx/Xxxxxx /Xxxxxxxx Organic Chemistry Chemistry-MNW34 Modern Aspects of Physical Chemistry Janek/Over/ Over/Smarsly Physical Chemistry Chemistry-MNW36 (Organo)Catalysis and Synthesis Xxxxxxxxx/Xxxxxx /Xxxxxxxx Xxxxxx/Xxxxxxxx Organic Chemistry Physics-MP13 Semiconductor Physics I Xxxxx/Xxxxxxxx /Xxxx Solid State Physics Physics-MP14 Semiconductor Physics II Xxxxx/Xxxxxxxx /Xxxx Solid State Physics Physics-MP16 Introduction to Solid State Theory Xxxxxxxx Solid State Physics Physics-MP17 Solid State Theory Xxxxxxxx Solid State Physics Physics-MP25 Nano- and Microstructures in Sensor- and Actuator Systems Xxxxxxxx/Xxxx /Xxxxxxx Klar/Xxxxxxx Solid State Physics Physics-MP35 Surface and Interface Physics I Schlettwein/Xxxx /Schirmeisen Xxxx/ Schirmeisen Applied Physics Research based modules: Important: Research modules (10 CP) are directly arranged with a professor and can be flexibly defined! Modules may be combined to form e.g. one 20 CP module. The subject depends very much on the research interests of the student. Course Code Title Responsible Professor Institute Chemistry-MNV01 Inorganic Chemistry, Advanced Synthesis and Characterisation XxxxxxxxxSchindler, XxxxxxxSmarsly, N.N. Inorganic Chemistry Chemistry-MNV02 Advanced Organic Chemistry Laboratory Schreiner, Göttlich, Xxxxxx Organic Chemistry Chemistry-MNV03 Physical Chemistry and Materials Research Janek, Smarsly, Over Physical Chemistry Chemistry-MNS01 Project Work Inorganic Chemistry Schindler, Smarsly, N.N. Inorganic Chemistry Chemistry-MNS02 Project Work Organic Chemistry Schreiner, Göttlich, Xxxxxx Organic Chemistry Chemistry-MNS03 Project Work Physical Chemistry XxxxxJanek, Smarsly, Over Physical Chemistry Physics-MP-28 B Modern Technologies of Conductive and Dielectric Materials Göddenhenrich/ XxxxxxxxxxxSchlettwein/Thummes Applied Physics Physics-MP-28 G Micro- and Nanostructured Semiconductors Klar Xxxxx/Xxxx /Xxxxxxxx Solid State Physics Physics-MP-28 H Bandstructure Calculations Xxxxxxxx Theoretical Physics Physics-MP-28 Q Synthesis of Micro- and Nano-Structured Materials Klar, XxxxxxxxMeyer, XxxxxxEickhoff, Xxxxxxx Polity, Xxxxxxxx Solid State Physics Physics-MP-28 R Surface and Interface Technologies Dürr, Schirmeisen, Schlettwein Applied Physics MP-29 A Multifunctional Thin Films Klar, Meyer, Xxxxxxxx Solid State Physics Physics-MP-29 B Applied Material Physics Göddenhenrich/ XxxxxxxxxxxSchlettwein/Thum- mes Thummes Applied Physics Physics-MP-29 G Green’s Functions in Solid State Theory Xxxxxxxx Theoretical Physics Physics-MP-29 L Low Temperature Plasma Physics Xxxxx, Xxxxx Mitic Plasma Physics Faculty members and professors teaching in materials science; Full professors can be chosen as advisors; all listed faculty members offer research-based courses. Faculty/Advisor Institute Research subjects (for the definition of research projects at JLU) N.N. Physical Chemistry Energy storage materials, battery materials, carbon materials, nanostructures materials)

Academic coordination. ‌ To ensure and facilitate the implementation of the double degree programme, each institution shall appoint an academic coordinator as contact person. The coordinators can be addressed by students, JLU and KU OU colleagues of the double degree programme. Besides admitting applicants they are authorized persons for accepting students’ working plans and workload approval. List 1 (JLU) (year 2015/20162014/2015) Lecture-based modules: These modules (6 CP) are run either in the winter or summer semester. Each year KU OU will be provided with a list of available modules. Course Code Title of course Responsible Professor Institute Chemistry-MNW03 Metal and Ligand reactivity (Chemistry of complexes) Xxxxxxxxx Inorganic Chemistry Chemistry-MNW04 Computational chemistry/Molecular Modeling Xxxxxxxxx Organic Chemistry Chemistry-MNW06 Scientific Writing and Data Dissemination Xxxxxxxxx Organic Chemistry Chemistry-MNW07 Matrix Isolation Techniques/Reactive Intermediates Xxxxxxxxx Organic Chemistry Chemistry-MNW15 Colloid chemistry Smarsly Physical Chemistry Chemistry-MNW16 Electrochemistry I – From Basics to Application Janek Physical Chemistry Chemistry-MNW17 Electrochemistry II – Electrochemical Energy Technologies Janek Physical Chemistry Chemistry-MNW18 Solid State Reactions Janek Physical Chemistry Chemistry-MNW24 Surface chemistry and metal catalysis Over Physical Chemistry Chemistry-MNW25 Electrochemistry III – Lab course in Electrochemistry and Interfaces Janek Physical Chemistry Chemistry-MNW26 Inorganic Reaction Mechanisms Xxxxxxxxx Inorganic Chemistry Chemistry-MNW29 Research Topics in Inorganic Chemistry I Xxxxxxxxx/Smarsly Inorganic Chemistry Chemistry-MNW31 Research Topics in Organic Chemistry I Xxxxxxxxx/Xxxxxx /Xxxxxxxx Organic Chemistry Chemistry-MNW34 Modern Aspects of Physical Chemistry Janek/Over/ Over/Smarsly Physical Chemistry Chemistry-MNW36 (Organo)Catalysis and Synthesis Xxxxxxxxx/Xxxxxx /Xxxxxxxx Xxxxxx/Xxxxxxxx Organic Chemistry Physics-MP13 Semiconductor Physics I Xxxxx/Xxxxxxxx /Xxxx Solid State Physics Physics-MP14 Semiconductor Physics II XX Xxxxx/Xxxxxxxx /Xxxx Solid State Physics Physics-MP16 Introduction to Solid State Theory Xxxxxxxx Solid State Physics Physics-MP17 Solid State Theory Xxxxxxxx Solid State Physics Physics-MP25 Nano- and Microstructures in Sensor- and Actuator Systems Xxxxxxxx/Xxxx /Xxxxxxx Xxxx/Xxxxxxx Solid State Physics Physics-MP35 Surface and Interface Physics I Schlettwein/Xxxx /Schirmeisen Xxxx/ Schirmeisen Applied Physics Research based modules: Important: Research modules (10 CP) are directly arranged with a professor and can be flexibly defined! Modules may be combined to form e.g. one 20 CP module. The subject depends very much on the research interests of the student. Course Code Title Responsible Professor Institute Chemistry-MNV01 Inorganic Chemistry, Advanced Synthesis and Characterisation Xxxxxxxxx, Xxxxxxx, N.N. Inorganic Chemistry Chemistry-MNV02 Advanced Organic Chemistry Laboratory Schreiner, Göttlich, Xxxxxx Organic Chemistry Chemistry-MNV03 Physical Chemistry and Materials Research Janek, Smarsly, Over Physical Chemistry Chemistry-MNS01 Project Work Inorganic Chemistry Schindler, Smarsly, N.N. Inorganic Chemistry Chemistry-MNS02 Project Work Organic Chemistry Schreiner, Göttlich, Xxxxxx Organic Chemistry Chemistry-MNS03 Project Work Physical Chemistry Xxxxx, Smarsly, Over Physical Chemistry Physics-MP-28 B Modern Technologies of Conductive and Dielectric Materials Göddenhenrich/ Xxxxxxxxxxx/Thummes Applied Physics Physics-MP-28 G Micro- and Nanostructured Semiconductors Klar Xxxxx/Xxxx /Xxxxxxxx Solid State Physics Physics-MP-28 H Bandstructure Calculations Xxxxxxxx Theoretical Physics Physics-MP-28 Q Synthesis of Micro- and Nano-Structured Materials Klar, Xxxxx, Xxxxxxxx, Xxxxxx, Xxxxxxx Xxxxxxxx Solid State Physics Physics-MP-28 R Surface and Interface Technologies Dürr, Schirmeisen, Schlettwein Applied Physics MP-29 A Multifunctional Thin Films Klar, Xxxxx, Xxxxxxxx Solid State Physics Physics-MP-29 B Applied Material Physics Göddenhenrich/ Xxxxxxxxxxx/Thum- mes Thummes Applied Physics Physics-MP-29 G Green’s Functions in Solid State Theory Xxxxxxxx Theoretical Physics Physics-MP-29 L Low Temperature Plasma Physics Xxxxx, Xxxxx Plasma Physics Faculty members and professors teaching in materials science; Full professors can be chosen as advisors; all listed faculty members offer research-based courses. Faculty/Advisor Institute Research subjects (for the definition of research projects at JLU) N.N. Physical Chemistry Energy storage materials, battery materials, carbon materials, nanostructures materials)