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Institut for Kemi og Biovidenskab

Disordered Materials

The Disordered Materials research area deals with the fundamental understanding and innovation of glasses, glass fibers, and other types of amorphous materials. It provides knowledge for developing new generation of advanced amorphous materials and relevant technologies. Furthermore, this area involves the fundamentals of amorphous materials, glasses, supercooled liquids, and equilibrium liquids. The development of the highly interdisciplinary Disordered Materials area leads to new methodologies for both characterizations and research in amorphous materials.

Institut for Kemi og Biovidenskab

Disordered Materials

The Disordered Materials research area deals with the fundamental understanding and innovation of glasses, glass fibers, and other types of amorphous materials. It provides knowledge for developing new generation of advanced amorphous materials and relevant technologies. Furthermore, this area involves the fundamentals of amorphous materials, glasses, supercooled liquids, and equilibrium liquids. The development of the highly interdisciplinary Disordered Materials area leads to new methodologies for both characterizations and research in amorphous materials.

Research flagships

  • Glass for energy storage (Li ion batteries)​
  • Glass for energy saving (stone wool, glass foams)​
  • Glass for energy generation (wind energy, solar cells) ​
  • Bioactive glasses (enzyme immobilization, dental and bone applications) ​
  • Ultrastrong glasses for display devices and engineering​
  • Microstructure modeling and simulation​
  • Metal-organic framework glasses​
  • Molecular separation membranes ​
  • Supercooled liquids, glass transition and relaxation

Strategic growth area(s)

  • Glass relaxation and glass formation
  • Quantitative structure-property relation for functional glasses
  • Glassy materials for energy storage and energy saving
  • New families of glasses such as superstrong glasses and hybrid glasses

Vision

  • Transform the research area into an even more interdisciplinary one
  • Develop our present Center for Amorphous Materials Science into an international base for both fundamental and applied research in disordered materials
  • Advance understanding of formation mechanisms of new glass systems
  • Invent new types of multifunctional glass materials
  • Establish new concepts, modeling tools and theories for disordered materials
  • Build a closer connection between glass science and technology through collaboration with industry

Contact

Professor Yuanzheng Yue
E-mail: yy@bio.aau.dk 
Tlf: +45 9940 8522

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