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The Centre's research is focused on innovative therapeutic solutions to current medical challenges and deals with various nanoscale applications and materials.
Metal nanomaterials of different sizes, shapes, and structures are finding increasing acceptance in biological applications. Metal nanomaterials can be interfaced with biological materials to form a new class of designer organic-inorganic hybrids (BioNanoMetals) which can be used to enable the green synthesis of metal nanomaterials and the safe use of nanometals in biomedical applications. The group is interested in investigating the basic design principles for functional BioNanoMetals and addressing fundamental issues on the interactions between the biological systems and metal nanomaterials.
Founded by faculty from Biological Sciences, Chemistry, and Physics, the Centre for BioImaging Sciences's (CBIS) research is focused on the science and application of biological imaging by light and electron microscopy and the development of computational and microscopy-based methods and technologies.
In 2014, the National Research Foundation (NRF) of Singapore has awarded NUS with a S$ 50 M grant over the next 10 years in order to support the operational costs of GRC's labs and micro and nano-fabrication facility and the exploration, synthesis, and development of new devices based on two-dimensional (2D) materials of which graphene is the most famous, creating a new Centre for Advanced 2D Materials, directed by Prof. Antonio H. Castro Neto.
Established in 2010 within the National University of Singapore, the Graphene Research Centre (GRC) was created for the conception, characterization, theoretical modeling, and development of transformative technologies based on two-dimensional crystals, such as graphene.
Their mission is to investigate the natural structure-property-function relationship of cells and molecules so as to further understand the physiological functions and establish possible connections to human diseases.
Dedicated to improving and inventing innovative processes based on electrospinning and exploring new applications for the electrospun nanofibers.
The group is particularly interested in discovering novel nanobiology of nanomaterials. Some of this nanobiology is detrimental to the organism's well being and some is beneficial. The differentiation of either conclusion depends heavily on our understanding of how nanomaterials interact with biological systems. The group approaches their work from an observation initiated and hypothesis driven manner. From these findings, they aim to develop nanoparticle specific rules that drive certain cell effect. Understanding these rules helps to design better nanoparticles.
Excellent students from all scientific and engineering, as well as biomedical disciplines are welcome to apply for NanoCore PhD Scholarships. Students whom we are recruiting typically are in the top 10% of their class and have shown the ambition and ability to immerse themselves in challenging, high impact research projects. We also highly welcome students who have entrepreneurial ambitions.
The initiative's approach to the development and promotion of nanotechnology research is to optimise resources in creating strategic high impact research while retaining diversity in research areas.
The minor programme in Nanoscience is offered by the Department of Chemistry and the Department of Physics at the Faculty of Science.
Graphene is a new age multifunctional material. As chemists, we are engaged in the growth, processing, derivatizing of graphene to make dna sensors, hybrids for solar cells, membrane for water purification. We hope to improve the quality of human life by researching on graphene, which we believe to be a fundamental building block for many useful devices.
The aim of the ESF program 'Nanotribology (NATRIBO)' is to improve the collaborations between experimentalists and theoreticians in the field of tribology on the nanometer scale.
The Environmental Nanoscience Initiative was set up by NERC, Defra and the Environment Agency in the UK to begin to answer some questions of basic nanosciences research; into fate and behavior, ecotoxicology and ecological effects of engineering nanoparticles.
NRL established an Institute for Nanoscience to conduct multidisciplinary research at the intersections of the fields of materials, electronics and biology
Maintained by the North Carolina Board of Science and Technology this site serves as an information clearinghouse about nanotechnology in North Carolina.
Located at North Dakota State University, Fargo, the NDSU Center for Nanoscale Science and Engineering provides research and development with world-class facilities, equipment and staff with broad-based expertise.
Maintains a nanoelectronics research lab.
The Research and Training Network NESPA will focus on the research topic of the development of high temperature superconductor (HTS) materials for power applications.
The Network for Computational Nanotechnology (7 universities) has a mission to connect theory, experiment, and computation in a way that makes a difference to the future of nanotechnology. While addressing challenges in nanotechnology NCN researchers produce new algorithms, approaches, and software tools with capabilities not yet available commercially.
The main objective of the project, which ran from 08/2004 until 07/2006, was to mobilize human and material resources in the field of nanostructured materials in New Member States of the EU, to consolidate, strengthen, and enhance the dispersed research/technological potential in this field of research, to promote and use the results of 5th FP and 6th FP, and to improve the knowledge based application oriented nanoscience and nanotechnology in Europe.
The NEURONANO network major aim is to integrate carbon nanotubes (CNT) with multielectrode array (MEA) technology to develop a new generation biochips to help repair damaged central nervous system (CNS) tissues.
NJIT is renowned for expertise in architecture, applied mathematics, wireless communications and networking, solar physics, advanced engineered particulate materials, nanotechnology, neural engineering and e-learning.
The research in Prof. Dong Ko's group focuses on how we can utilize nanocrystals for direct conversion into electricity of two of the most important ubiquitous sources of free energy: sunlight and waste heat.
The New Mexico EPSCoR program is a statewide collaborative partnership of colleges and universities, national laboratories, industry, and state government united in an effort to promote research, increase opportunities for training the workforce of scientists and engineers and, ultimately, to promote the economic development of the state of New Mexico. The goal of the NM EPSCoR program is to increase the competitiveness of NM researchers within targeted science and technology fields through sustainable infrastructure improvements.
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