The Madhukar Group's research has revolved around electronic response (electrical and optical) of synthesized materials and structures in reduced (two, one, and zero) dimensions and their potential use in electronic and optoelectronic devices for information sensing, processing, imaging and computing technologies. The emphasis for some time has been on three dimensionally confined (i.e. zero dimensional) nanostructures called quantum dots and the scope in recent years has expanded to include biochemical materials (peptides, proteins) and hybrid semiconductor-biomolecular nanostructures for biomedical applications, particularly neural prostheses.
Nanobioscience is a scientific discipline where techniques on a nano-scale are used to understand and utilise the construction of nature and the molecular principles and structures which are the cornerstones of all biology. The purpose of Nanobioscience is for instance to use biological molecules for constructing functional nano-materials with a long list of groundbreaking uses.
The Nano site serves all activities around nanoscience, nanotechnology and nanobusiness at the University of Southern Denmark. It is separated into two platforms: NanoBIC for activities related to nanobioscience and Nanotek related to nanotechnology.
The mission of NanoSYD is to establish nanotechnology in the region of Southern Denmark around new and existing focus areas and niche competences and to bridge basic science and technology along micro- and nanotechnologies.
The vision of BioNEC is to revolutionize bottom-up nanoscale engineering by integrating state-of-the-art lipid-, peptide- and carbohydrate chemistry with nucleic acid based self-assembly. The group will design and synthesize building blocks for controlled assembly of unique and functional nanostructures in solution and on surfaces. Within BioNEC, the assembled nanostructures will be explored to solve concrete scientific challenges relating to synthetic chemistry and biological recognition processes.
The focus of our research is to synthesize molecules whose ability to selectively recognize biomolecular targets is improved over that of unmodified biomolecules and to employ this capability to develop new functional entities. The molecular recognition phenomena of interest include the recognition of transition states, i.e. the generation of new biomimetic catalysts.
Electronic Engineering with Nanotechnology offers engineers a firm grounding in conventional electronics, plus the specialist skills at the electronics/physics interface required to work at the forefront of modern nanoscale device fabrication. These programmes enable you to build on a common foundation in electronics by introducing specialist modules from the second year. These modules cover nanoscale electronic devices, optoelectronics, nanofabrication and advanced experimental methods.
The MSc programme is designed to provide a fundamental understanding and practical experience of developing nanotechnology, nanomaterials and nanoelectronic devices. If you are looking to develop specialised practical experimental skills using state-of-the-art equipment and facilities, a research career, or the ability to evaluate the impact of nanotechnology on your technology, then this programme is for you. Participants with good industrial experience are also welcome on the course depending on their background.
Research within the group can be broken largely into four themes; Nanotechnology (STM, FIB), Nanobiology, Carbon Based Electronics, Microwave Electronics and Devices and Large Area Electronics and Photonics.
The honours degree is a one-year, full-time program undertaken following the completion of the pass degree. The main component of the course is a research project conducted within one of the UTS research groups, or jointly with an external organisation. This prepares students in aspects of planning and executing a research program to address a specific scientific or technological problem.
The university's Institute for Nanoscale Technology has two major research programs, applying Nanotechnology to the areas of Biomedical Nano-materials and Devices and to Energy Efficient Nano-materials and Devices.
The group's mission is to develop novel semiconductor materials and devices to address a few issues facing today's semiconductor industry, and more generally, our society. Research focuses on semiconductor surfaces, interfaces, and thin films.
Nano-Bio-Physics is a new and interdisciplinary program being developed at UTA Physics department. The goal is to develop a strong research and education program among nanotechnology, biotechnology and Physics.
The Nanotechnology Research & Teaching Facility is an interdisciplinary resource open to scientists within and outside of the University. Research activities are conducted through mutually-beneficial associations of chemistry, electrical engineering, mechanical and aerospace engineering, materials science and physics faculty, graduate students and research assistants at UTA, as well as collaborative efforts with investigators at other universities and in the private sector.
Research activities in the lab are concerned with basic and applied processing-structure-property relationship with emphasis on nanotechnology and small-scale materials (nano materials, surface treatments and layers, thin films, coatings, materials for MEMS and NEMS and nano devices).
Research activities at the lab are concerned with basic and applied processing-structure-property relationship with emphasis on nanotechnology and small-scale materials (nano materials, surface treatments and layers, thin films, coatings, materials for MEMS and NEMS and nano devices).
The Center for Nano- and Molecular Science and Technology (CNM), founded in October 2000, is a multidisciplinary research center within the Texas Materials Institute (TMI). The Center's mission is to foster research, education, and outreach in nanotechnology at the University of Texas at Austin (UT Austin).
Students who have a strong background in any of the physical sciences or engineering disciplines are encouraged to apply to the Graduate Program in Materials Science and Engineering. MS&E students that select the Nanomaterials Thrust will take a sequence of courses from basic to advanced designed to train them in the fundamentals of materials science as well as critical skills in processing, characterization and applications of nanomaterials.