Industrial Chemistry

Introduction to sustainability: current and future challenges and issues. Circular economy: key indicators and overview of the italian situation. Types and general properties of biopolymers. In particular, the following aspects will be studied: sources; chemical aspects, both basic and applied; structure-property relationships; main characterization techniques. Innovative and sustainable materials: Multifunctional materials; Composite materials; Nanomaterials; Hydrogels; Shape memory polymers; Smart materials; Intelligent and active food packaging materials; Materials for sustainable agriculture; Materials for the conservation of cultural heritage; Sustainable materials for the accumulation and conservation of energy; Nanostructured materials for environmental applications. Main synthetic techniques of advanced materials. Solvents and sustainability: issues and possible solutions. Ionic liquids, DES and NADES, supercritical fluids: main features and applications.

Basic knowledge in materials chemistry, organic chemistry and industrial chemistry

The course does not foresee the adoption of specific texts

The frequency of the course is 4 hours per week

The evaluation of the acquired knowledge will be carried out by the teacher through the formulation of questions on the contents of the course program

The teacher will provide students with recent bibliographic references on the topics covered in class

Teaching will take place face-to-face in dedicated classrooms equipped with video projection systems

Introduction to sustainability: current and future challenges and issues. Circular economy: key indicators and overview of the italian situation. Types and general properties of biopolymers. In particular, the following aspects will be studied: sources; chemical aspects, both basic and applied; structure-property relationships; main characterization techniques. Innovative and sustainable materials: Multifunctional materials; Composite materials; Nanomaterials; Hydrogels; Shape memory polymers; Smart materials; Intelligent and active food packaging materials; Materials for sustainable agriculture; Materials for the conservation of cultural heritage; Sustainable materials for the accumulation and conservation of energy; Nanostructured materials for environmental applications. Main synthetic techniques of advanced materials. Solvents and sustainability: issues and possible solutions. Ionic liquids, DES and NADES, supercritical fluids: main features and applications.

Basic knowledge in materials chemistry, organic chemistry and industrial chemistry

The course does not foresee the adoption of specific texts

The frequency of the course is 4 hours per week

The evaluation of the acquired knowledge will be carried out by the teacher through the formulation of questions on the contents of the course program

The teacher will provide students with recent bibliographic references on the topics covered in class

Teaching will take place face-to-face in dedicated classrooms equipped with video projection systems