Duration
Part A : 15h Th
Part B : 10h Th
Number of credits
| Master in chemistry (120 ECTS) | 3 crédits | |||
| Master in chemistry (60 ECTS) | 3 crédits |
Lecturer
Part A : Philippe Lecomte
Part B : Philippe Lecomte
Coordinator
Language(s) of instruction
English language
Organisation and examination
Teaching in the first semester, review in January
Schedule
Units courses prerequisite and corequisite
Prerequisite or corequisite units are presented within each program
Learning unit contents
1. General introduction that exposes the global problem by presenting the life cycle of a polymer and discussing the different stages: synthesis of materials, processing, application, end of life (incinaration, recycling, chemical recovery). Particular attention will be paid to the use of polymers for the production of green energy (wind turbines, solar cells, etc.).
2. The different families of biosourced and CO2-sourced monomers, as well as their polymers will be presented.
3. The different families of (bio) degradable polymers and the mechanisms of (bio) degradatoin will be presented
4. Special attention is given to synthesis techniques for the synthesis of typical polymers, biobased, CO2-sourced and / or biodegradable polymers. The evolution of polymerization techniques will be studied and their impact on the environment assessed.
The students will carry out a bibliographic work whose purpose is to discuss the impact on the environment of a polymer or a family of polymers and to hightlight the problems addresses in the course for an example in the real life. The subject will be decided by the lecturer in consultation with each student
Part A
1. General introduction that exposes the global problem by presenting the life cycle of a polymer and discussing the different stages: synthesis of materials, processing, application, end of life (incinaration, recycling, chemical recovery). Particular attention will be paid to the use of polymers for the production of green energy (wind turbines, solar cells, etc.).
2. The different families of biosourced and CO2-sourced monomers, as well as their polymers will be presented.
3. The different families of (bio) degradable polymers and the mechanisms of (bio) degradatoin will be presented
4. Special attention is given to synthesis techniques for the synthesis of typical polymers, biobased, CO2-sourced and / or biodegradable polymers. The evolution of polymerization techniques will be studied and their impact on the environment assessed.
Part B
Environmentally-friendly processes of synthesis of polymers. Attention will be paid to modern polymerization methods based on metal and metal-free catalysts (enzymes and organocatalysts) or initiators
The students will carry out a bibliographic work whose purpose is to discuss the impact on the environment of a polymer or a family of polymers and to hightlight the problems addresses in the course for an example in the real life. The subject will be decided by the lecturer in consultation with each student
Learning outcomes of the learning unit
The student will master the knowledge on the synthesis of monomers and polymer materials, their processing, their application and their end of life (incinaration, recycling, chemical valorization) et will be able to discuss the impact of environment of each step of the life cycle of a polymer material.
Part A
The student will master the knowledge on the synthesis of monomers and polymer materials, their processing, their application and their end of life (incinaration, recycling, chemical valorization) et will be able to discuss the impact of environment of each step of the life cycle of a polymer material.
Part B
The student will be able to discuss the impact on the environment of polymer materials by taking into account the full life cycle incuding the extraction of raw materials, the production of monomers and polymers, the transport and processing of the materials, the application and the end of life of the materiaol (incineration, recycling, chemical valorization...)
Prerequisite knowledge and skills
A basic knowledge in organic chemistry and in macromolecular chemistry is required.
Part A
A basic knowledge in organic chemistry and in macromolecular chemistry is required.
Part B
The student will master the knowledge on the synthesis of monomers and polymer materials, their processing, their application and their end of life (incinaration, recycling, chemical valorization) et will be able to discuss the impact of environment of each step of the life cycle of a polymer material.
Planned learning activities and teaching methods
The oral course is made up of 10 modules of 2 hours and one last module of one hour.
The last 4 hours will be dedicated to the personnel bibliographic work achieved by the student.
Copies of the slights will be given to the students.
Part A
The oral course is madu up of 7 modules of 2 hours and one last module of one hour. Copies of the slights will be given to the students.
Part B
The oral course is madu up of 3 modules of 2 hours and one last module of one hour.
The last 4 hours will be dedicated to the personnel bibliographic work achieved by the student.
Copies of the slights will be given to the students.
Mode of delivery (face to face, distance learning, hybrid learning)
The mode of delivery is face-to-face. The course will be delivered by videoconference if the evolution of the COVID-19 outbreak requires it.
This course will be given in english. Le switch to French required a unanimous approval of all the students present and of the lecturer.
Part A
The mode of delivery is face-to-face. The course will be delivered by videoconference if the evolution of the COVID-19 outbreak requires it.
This course will be given in english. The switch to French required a unanimous approval of all the students present and of the lecturer.
Part B
The mode of delivery is face-to-face. The course will be delivered by videoconference if the evolution of the COVID-19 outbreak requires it.
This course will be given in english. Le switch to French required a unanimous approval of all the students present and of the lecturer.
Organisational adjustments related to the current health context
Yellow Code: The exam is oral with a written preparation. The exam takes place face-to-face. Only one student is present in the room with the teacher. The sanitary rules of the yellow code related to the COVID outbreak applies. The student can ask to pass the exam by video conference for sanitary reason or for any other reasons related to mobility. Justified demands will be granted. The course will be given face-to-face with the respect of sanitary rules of the yellow code.
Orange Code: all the exams will take place by videoconference. A preparation period will be granted before the oral examination. The course will be given simultaneously on line (with Lifesize) and in face-to-face for a limited number of students as defined by the orange code and the rules of ULiège . Podcasts are available. with DoX-ULiège (public link) and with My ULg.
Part A
Yellow Code: The exam is oral with a written preparation. The exam takes place face-to-face. Only one student is present in the room with the teacher. The sanitary rules of the yellow code related to the COVID outbreak applies. The student can ask to pass the exam by video conference for sanitary reason or for any other reasons related to mobility. Justified demands will be granted. The course will be given face-to-face with the respect of sanitary rules of the yellow code.
Orange Code: all the exams will take place by videoconference. A preparation period will be granted before the oral examination. The course will be given simultaneously on line and in face-to-face for a limited number of students as defined by the orange code and the rules of ULiège . Podcasts are available
Part B
Yellow Code: The exam is oral with a written preparation. The exam takes place face-to-face. Only one student is present in the room with the teacher. The sanitary rules of the yellow code related to the COVID outbreak applies. The student can ask to pass the exam by video conference for sanitary reason or for any other reasons related to mobility. Justified demands will be granted. The course will be given face-to-face with the respect of sanitary rules of the yellow code.
Orange Code: all the exams will take place by videoconference. A preparation period will be granted before the oral examination. The course will be given simultaneously on line and in face-to-face for a limited number of students as defined by the orange code and the rules of ULiège . Podcasts are available
Recommended or required readings
No reading is required for this course.
Part A
No reading is required for this course.
Part B
No reading is required for this course.
Assessment methods and criteria
Below you will find information on the evaluation methods planned for in-person and remote exams as well as those planned for hybrid sessions. Depending on how the health crisis evolves, the chosen method will be communicated to you no later than one month before the start of the exam session.
Yellow Code: The exam is oral with a written preparation. The exam takes place face-to-face. Only one student is present in the room with the teacher. The sanitary rules of the yellow code related to the COVID outbreak applies. The student can ask to pass the exam by video conference for sanitary reason or for any other reasons related to mobility. Justified demands will be granted.
Orange Code: all the exams will take place by videoconference. A preparation period will be granted before the oral examination.
Whatever the code, the student will have to prepare a powerpoint presentation on a topic decided before the exam with the aim to discuss the impact on the environment of a polymer or a family of polymers. The student has the possibility to propose a topic.
Part A
Yellow Code: The exam is oral with a written preparation. The exam takes place face-to-face. Only one student is present in the room with the teacher. The sanitary rules of the yellow code related to the COVID outbreak applies. The student can ask to pass the exam by video conference for sanitary reason or for any other reasons related to mobility. Justified demands will be granted.
Orange Code: all the exams will take place by videoconference. A preparation period will be granted before the oral examination.
Whatever the code, the student will have to prepare a powerpoint presentation on a topic decided before the exam with the aim to discuss the impact on the environment of a polymer or a family of polymers. The student has the possibility to propose a topic.
Part B
Yellow Code: The exam is oral with a written preparation. The exam takes place face-to-face. Only one student is present in the room with the teacher. The sanitary rules of the yellow code related to the COVID outbreak applies. The student can ask to pass the exam by video conference for sanitary reason or for any other reasons related to mobility. Justified demands will be granted.
Orange Code: all the exams will take place by videoconference. A preparation period will be granted before the oral examination.
Whatever the code, the student will have to prepare a powerpoint presentation on a topic decided before the exam with the aim to discuss the impact on the environment of a polymer or a family of polymers. The student has the possibility to propose a topic.
Work placement(s)
No training is foreseen.
Part A
No training is foreseen.
Part B
No training is foreseen.
Organizational remarks
The schedule will be set up based on the availability of students following this course.
Part A
The schedule will be set up based on the availability of students following this course.
Contacts
For any question, please contact Philippe Lecomte at the following address: Philippe.Lecomte@uliege.be
Part A
For any question, please contact Philippe Lecomte at the following address : Philippe.Lecomte@uliege.be
Part B
For any question, please contact Philippe Lecomte at the following address : Philippe.Lecomte@uliege.be