Self-assembly and complexity: networks and patterns from materials to markets. Self-assembly leads the formation of patterns without external directing agents. It is responsible for the growth of complex multiscale structures found in biology and materials science and is a crucial concept for development of viable nanotechnologies. Complex systems, from biological ecosystems to financial markets and the Internet, are also characterized by spontaneous clustering and linkages that determine their ....Self-assembly and complexity: networks and patterns from materials to markets. Self-assembly leads the formation of patterns without external directing agents. It is responsible for the growth of complex multiscale structures found in biology and materials science and is a crucial concept for development of viable nanotechnologies. Complex systems, from biological ecosystems to financial markets and the Internet, are also characterized by spontaneous clustering and linkages that determine their collective behaviour. The project will investigate in detail the geometry, topology, materials science and statistical physics of networks, leading to design and characterization of robust self-assembled materials and complex systems.Read moreRead less
Deformation and Fracture Studies on Polymer Nano-Composites. Polymer nano-composites are a class of emerging materials consisting of nano-meter scale inorganic fillers dispersed in an organic polymer matrix. THey have superior specific strengh and stiffness, good fire retardant and barrier properties. AS such, they have found many potential applications in the automotive and packagingindustries. However, one major limitation is their low fracture toughness. This project aims to study the ori ....Deformation and Fracture Studies on Polymer Nano-Composites. Polymer nano-composites are a class of emerging materials consisting of nano-meter scale inorganic fillers dispersed in an organic polymer matrix. THey have superior specific strengh and stiffness, good fire retardant and barrier properties. AS such, they have found many potential applications in the automotive and packagingindustries. However, one major limitation is their low fracture toughness. This project aims to study the origin of brittleness and improve the toughness. THe anticipated outcomes are: (a) new methods of toughening, and (b) design tools to tailor processing-microstructure-mechanical properties of these nano-composites.Read moreRead less
Application of First-principles Theory in Condensed Matter Physics, Surface Physics, Chemistry, and Engineering: Coatings, Catalysis, and Devices. The project addresses areas of high technological interest, namely the development of nitride-based materials for hard-coatings, spintronic (control and use of electron spin) and optoelectronic (in the blue/UV energy range) devices - as well as the area of heterogeneous oxidation catalysis. Using state-of-the-art methods it will lead to the developme ....Application of First-principles Theory in Condensed Matter Physics, Surface Physics, Chemistry, and Engineering: Coatings, Catalysis, and Devices. The project addresses areas of high technological interest, namely the development of nitride-based materials for hard-coatings, spintronic (control and use of electron spin) and optoelectronic (in the blue/UV energy range) devices - as well as the area of heterogeneous oxidation catalysis. Using state-of-the-art methods it will lead to the development of new materials and devices of relevance to industry.Read moreRead less
Nanoengineered Colloids and thin films through self-assembly with potential applications in Bioscince and Nanotechnology. The proposed research program will focus on the preparation, characterisation and application of novel, small (nanometer size) particles and thin (micrometer thick)films derived from such particles. These new and advanced materials will be prepared by usinf a recently developed, highly versatile and facile technology to coat particles in solution. The strategy to be used en ....Nanoengineered Colloids and thin films through self-assembly with potential applications in Bioscince and Nanotechnology. The proposed research program will focus on the preparation, characterisation and application of novel, small (nanometer size) particles and thin (micrometer thick)films derived from such particles. These new and advanced materials will be prepared by usinf a recently developed, highly versatile and facile technology to coat particles in solution. The strategy to be used entails the step-by-step construction of well-defined layers of different composition on particles and flat surfaces, thereby allowing unprecendented control over the material properties and function. This will provide new avenues for the application of nanoscale materials in biotechnology and nanotechnology.Read moreRead less