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Nanotechnology Research – Universities


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Recent work has focused on Linear and nonlinear optical nanoscopy; Photoemission and nonlinear optical spectroscopy of metallic quantum wells; Quantum mechanical and statistical modelling of organic and inorganic nanomaterials; Advanced spectroscopic and STM studies of surface structures and reactions.
During the first three years, students receive basic interdisciplinary training in physics, chemistry, biology, molecular biology, mathematics, and computer science. Many of the courses are followed along with students from these core disciplines. In addition, a number of courses address issues specific to the nano-area.
In addition to the undergraduate programs, iNANO hosts a Doctorate school in nanoscience, iNANOschool. Here, students can be admitted with a Master's degree in a traditional (5+3) year model, but at this Faculty, studies are more often carried out following a (4+4) year model where the students are admitted after four years of study and the Master's project becomes an integrated part of the Doctorate which then lasts four years. A special (3+5) year honors program has recently been introduced where very talented students can be admitted to graduate school with a Bachelor's degree.
The members of iNANO and their respective research groups have complementary research programs in the analysis and synthesis of nanomaterials. The framework of iNANO, however, fosters and strengthens interdisciplinary activities, promotes the development of new non-traditional programs, and provides unique facilities for competitive research.
During their Master's degree students are required to specialize in one of three different disciplines: nanophysics, nanochemistry or nanomolecular biology.
Research interests include various aspects of micro- and nanomechanics, including solid mechanics (stability theory, wave propagation), mechanical engineering (structural mechanics) and material sciences (composite and nano-materials).
The Centre for Advanced Nanomaterials undertakes groundbreaking trans-disciplinary research at the forefront of materials science. The Centre provides an environment to foster, connect and harness research activities centred on the synthesis, processing and study of nanomaterials at the University of Adelaide
IPAS has been created to bring together experimental physicists, chemists, material scientists, biologists, experimentally driven theoretical scientists and medical researchers to create new sensing and measurement technologies.
The group's primary interest is the mathematical modelling of fundamental physical properties exhibited by nanoparticles and nanoparticle composite materials. In particular, they are interested in the thermal, electrical, magnetic, optical and mechanical characteristics of nanoparticles and their composites.
UAB envisions the creation of a world-class interdisciplinary research and student training center focusing on the synthesis and characterization of nanoscale materials and structures with applicability and integration into the biomedical arena that will position the Center to be at the forefront of nanotechnologies and biomaterials for human health.
CNSE is the world's first college to offer comprehensive baccalaureate programs in Nanoscale Engineering and Nanoscale Science - groundbreaking educational and research curricula that will uniquely prepare students for growing scientific opportunities in the nanotechnology-enabled careers of the 21st century. Building on CNSE's pioneering graduate-level program - which was also a global first when it commenced in September 2004 - the bachelor's degree curriculum, features a cutting-edge, interdisciplinary, and truly innovative instructional portfolio centered on scholarly excellence that taps into CNSE's international academic leadership in nanoscale engineering and science.
This first-of-its-kind dual degree program provides pioneering education and training in both medicine and nanoscale science research, preparing a new generation of professionals for exciting 21st century careers as world-class research physicians in the emerging science and practice of nanomedicine.
CNSE's Nanoscale Engineering program provides corresponding skill and expertise in the design, fabrication, and integration of nanoscale devices, structures, and systems for the development and deployment of emerging nanotechnologies.
CNSE's Nanoscale Engineering program provides corresponding skill and expertise in the design, fabrication, and integration of nanoscale devices, structures, and systems for the development and deployment of emerging nanotechnologies.
CNSE's Nanoscale Science program provides the critical theoretical and experimental skill base and know-how for knowledge creation in the areas of nanoscale materials, structures, and architectures.
CNSE's Nanoscale Science program provides the critical theoretical and experimental skill base and know-how for knowledge creation in the areas of nanoscale materials, structures, and architectures.
This options provides an introduction to the processes involved in the fabrication of nanoscale integrated circuits and to the computer aided design (CAD) tools necessary for the engineering of large scale system on a chip. By selecting this option, students will learn about fault tolerance in nanoscale systems and gain an understanding of quantum phenomena in systems design.
This option provides an introduction to the principles of electronics, electromagnetics and photonics as they apply at the nanoscale level. By selecting this option, students will learn about the process involved in the fabrication of nanoscale structures and become familiar with the computer aided design (CAD) tools necessary for analyzing phenomena at these very high levels of miniaturization.
The Nanoengineering Option provides broad skills suitable for entry to the nanotechnology professions, combining core Electrical Engineering and Physics courses with additional instruction in biochemistry and chemistry, and specialized instruction in nanoelectronics, nanobioengineering, and nanofabrication.
Students entering this option will be exposed to the exciting and emerging field of nano and functional materials. Subject areas covered include electronic, optical and magnetic materials, nanomaterials and their applications, nanostructured molecular sieves, nano and functional materials processing and fabrication. Employment opportunities exist in several sectors of Canadian industry, such as microelectronic/optoelectronic device fabrication, MEMS processing and fuel cell development.
The Buriak group at the University of Alberta
Specializing in surface characterization and modification, ACSES provides sample analysis capabilities for a wide range of material and process applications. With a focus on elucidating the composition and structure of thin films, the equipment set available to academic and industrial users is unmatched within an academic environment. Coupled with a dedicated staff of 3, ACSES provides all necessary onsite experitise for training and data analysis.
The nanoFAB is an open access micro and nano fabrication research facility. With approximately $30,000,000 worth of micro and nano fabrication equipment and infrastructure, our instruments allow for optical mask generation, electron beam lithography, PVD, LPCVD and PECVD deposition of thin films, deep Si etch processes and micro and nano embossing. Along with a dedicated staff of 10 for training and on site technical assistance for process development we are an unparalleled Canadian academic facility for micro and nano fabrication research and development.
The Office of Environmental NanoSafety website serves several purposes and audiences: 1) This site serves as a resource to industry to inform them of the nanotechnology research capacity in Canada. 2) It contains an index of nano-companies and research groups involved in environmental health and safety research in Canada. 3) It acts as a non-governmental sources of information on environmental nanotoxicology/nanosafety issues in Canada for both interested media and the public.
Por su naturaleza la nanotecnología es un área multidisciplinar y multisectorial. Es por esta razón que la colaboración entre diversos centros, con experiencia en los diferentes aspectos de esta disciplina -físicos/químicos, teóricos/experimentales, básicos/aplicados-, y con el denominador común de estudiar los sistemas moleculares, es imprescindible para implantar un programa de formación como el que se propone. El Máster de NNM no tiene precedentes a nivel nacional ya que pretende abordar los aspectos que se encuentran en la intersección de la Nanociencia con los sistemas moleculares.
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