CHIMICA INORGANICA DEI MATERIALI II E LABORATORIO

Learning Objectives

• CHIMICA INORGANICA DEI MATERIALI II

  Knowledge of the design, synthetic and characterization methods of inorganic materials. For this reason, a wide scenario of synthetic methods of polycrystalline and single crystals inorganic materials is presented to the students. A special focus is devoted to advanced methodologies for the functionalization of inorganic substrates and to their characterization techniques

• LABORATORIO

  Knowledge of the design, synthetic and characterization methods of inorganic materials. For this reason, a wide scenario of synthetic methods of polycrystalline and single crystals inorganic materials is presented to the students. A special focus is devoted to advanced methodologies for the functionalization of inorganic substrates and to their characterization techniques

Detailed Course Content

• CHIMICA INORGANICA DEI MATERIALI II

  Synthetic methods of polycrystalline and single crystal materials:

  Solid state syntheses:

  Introduction. Factors affecting reaction rate. Wagner model. Mixing methods. Co-precipitation.

  Combustion methods. Carbothermal reduction.

  Liquid-solid syntheses:

  Precipitation from aqueous solutions. Sol-gel. Synthesis of zeolites. Precipitation from melts. Flux methods. Idrothermal and solvothermal methods.

  Growth of single crystal. Growth from solutions: gel methods. Growth from melts: Czochralski method, Bridgman-Stockbarger method. Zone melting. Verneuil flame fusion method.

  Gas-solid syntheses:

  Vapor phase transport. Liquid-assisted vapor phase syntheses. (VLS).

  Modifications of existing systems: Intercalation compounds. Solid electrolytes. Open structure systems: metal orgaic framework (MOF)

  Physical vapor deposition of films: Evaporation and sputtering

  Advanced synthetic methods:

  Covalent anchoring of organic monolayer on oxides and semiconductors.

  Hydrosilylation reaction of multiple bonds. Cyclo-addictions. Preparation of porous silicon and functionalization. Functionalization of oxides and nanoparticles. Specific application of functionalized materials.

  Type of materials and applications

  Magnetic materials. Magnetic Properties. Effect of temperature: law of Curie-Weiss.Magnetic materials. Metals and alloys. Transition metal oxides. Manganites. Ferrites. Nanomagnets and molecular magnets.

  Materials for optical applications. Optical properties. Luminescence and phosphors. Materials for LASER and LED applications.

  Metals and alloys. Metal preparation. Alloys. Steel. Superelastic and shape memory alloys.

• LABORATORIO

  Laboratory activities .

  ​​1)Synthesis of ceramics through co-precipitation and solid state synthesis. Synthesis of CaMnO3 , La0.85Sr0.15MnO3 e La0.7Sr0.3MnO3 . XRD characterization.

  2)Nanomaterial synthesis from solution. Magnetic Fe3O4 nanoparticle synthesis and magnetic separation.

  3)FTIR characterization of monocrystalline Si. Quantitative determination of interstial oxygen in CZ Si(100).

  4)Sputtering of films. DC plasma sputtering of Au films.

  5)Surface functionalization. Functionalization of magnetic Fe3O4 nanoparticles with phosphonic acids. FTIR characterization.

  6)Surface functionalization. Functionalization of CZ Si(100) with molecular monolayes through hydrosililation reaction. XPS characterization.

Textbook Information

• CHIMICA INORGANICA DEI MATERIALI II
  1. On-line slides available on: http://studium.unict.it/
  2. Anthony R. West, Solid State Chemistry and its Applications, second edition Wiley, 2014
• LABORATORIO
  1. On-line slides available on: http://studium.unict.it/
  2. Anthony R. West, Solid State Chemistry and its Applications, second edition Wiley, 2014