Syllabus del corso
Titolo
New lignin-based sustainable materials: science and technological aspects.
Docente(i)
Luca Zoia ; Ruggero Barni ; Carmen Canevali ; Antonello Cerullo ; Jerome Vachon ; Massimo Benocci
Lingua
English
Breve descrizione
Lignin is the second most abundant organic macromolecule in nature. Its extraction tends to increase worldwide, demanding new applications for an efficient lignin use. This course gives an overview on the whole lignin life cycle, from biosynthesis to industrial applications.
In particular, the following subjects will be developed:
- Chemistry of lignocellulosic materials
- Lignin biosynthesis, chemical structures and reactivity
- Lignin extraction processes (kraft, alkaline, organosolv)
- Main techniques in Lignin characterization (FT-IR, GPC, 31P-NMR, 13C-NMR, 2D-HSQC, EPR, SEM, ICP-AES)
- Plasma technology for lignin modification: plasma treatment aimed to surface functionalization for lignin-based composites
- Sustainability initiative in SABIC: certified polymers (biorenewable and circular polymers) and bio-based polymers (PEstarch blends and PE-lignin blends).
Evaluation: YES - oral colloquium
CFU / Ore
1 CFU - 8 Hours (Lecture)
Periodo di erogazione
II semester: July 2024
Title
New lignin-based sustainable materials: science and technological aspects.
Teacher(s)
Luca Zoia ; Ruggero Barni ; Carmen Canevali ; Antonello Cerullo ; Jerome Vachon ; Massimo Benocci
Language
English
Short description
Lignin is the second most abundant organic macromolecule in nature. Its extraction tends to increase worldwide, demanding new applications for an efficient lignin use. This course gives an overview on the whole lignin life cycle, from biosynthesis to industrial applications.
In particular, the following subjects will be developed:
- Chemistry of lignocellulosic materials
- Lignin biosynthesis, chemical structures and reactivity
- Lignin extraction processes (kraft, alkaline, organosolv)
- Main techniques in Lignin characterization (FT-IR, GPC, 31P-NMR, 13C-NMR, 2D-HSQC, EPR, SEM, ICP-AES)
- Plasma technology for lignin modification: plasma treatment aimed to surface functionalization for lignin-based composites
- Sustainability initiative in SABIC: certified polymers (biorenewable and circular polymers) and bio-based polymers (PEstarch blends and PE-lignin blends).
Evaluation: YES - oral colloquium
CFU / Hours
1 CFU - 8 Hours (Lecture)
Teaching period
II semester: July 2024