Nanoscience at Institute of Fundamental Sciences, Massey University, New Zealand
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Nanoscience at Institute of Fundamental Sciences, Massey University, New ZealandDESCRIPTION
Nanoscience is a rapidly expanding field with the potential to greatly change the world we live in. Nanoscience is an interdisciplinary field that has emerged from the boundaries of physics, engineering, chemistry and biology. New properties of matter emerge at the nanoscale a nanometer is one billionth of a metre and there are many exciting challenges in fabricating, measuring and understanding matter on the nanoscale. Megacrystals of polymer nanoparticles. The interest in nanoscience has been driven .PARSED CONTENT
The domain nanoscience.massey.ac.nz had the following in the site, "Nanoscience is a rapidly expanding field with the potential to greatly change the world we live in." We observed that the website stated " Nanoscience is an interdisciplinary field that has emerged from the boundaries of physics, engineering, chemistry and biology." It also stated " New properties of matter emerge at the nanoscale a nanometer is one billionth of a metre and there are many exciting challenges in fabricating, measuring and understanding matter on the nanoscale. The interest in nanoscience has been driven ." The header had nanoscience as the highest ranking keyword. This keyword was followed by scanning, tunnelling, and microscope which isn't as urgent as nanoscience. The other words the site used was quantum. atom is also included but could not be understood by web engines.SEEK OTHER WEBSITES
Our work is in the field of theoretical and computational nanoscience. The main emphasis is on fundamental properties of nanoscale structures, particularly low-dimensional quantum systems, and their applications in novel nanodevices. The physical systems that we are investigating range from semiconductor nanostructures. To organic polymers and oligomers. And more recently, to some biomolecules. And their interface with inorganic structures in hybrid devices. That we use range from ab initio.
Our work is in the field of theoretical and computational nanoscience. The main emphasis is on fundamental properties of nanoscale structures, particularly low-dimensional quantum systems, and their applications in novel nanodevices. The physical systems that we are investigating range from semiconductor nanostructures. To organic polymers and oligomers. And more recently, to some biomolecules. And their interface with inorganic structures in hybrid devices. That we use range from ab initio.
Material Science and Engineering II. 25105;們的advance materials paper發表! 24685;賀闕郁倫老師榮陞.