Der Master-Studiengang besteht aus zwei Vertiefungsrichtungen, Nanoprozesstechnologie und Nano(opto)elektronik. Beiden Richtungen sind einige Veranstaltungen gemeinsam, in denen vor allem erweiterte Grundlagen erarbeitet werden.
Dieses neue Studienangebot ergänzt die bisherigen Möglichkeiten für Studierende im Bereich Naturwissenschaft und Technik um ein wichtiges Feld. Nanoscience & Technology ist ein Studiengang der zwischen den Naturwissenschaften und den Ingenieurwissenschaften angesiedelt ist, d.h. es ist eine gute Grundausbildung in naturwissenschaftlichen Fächern notwendig, um neue technologische Anwendungen erschliessen zu können.
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.
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.
The Master of Nanophysics programme (as such) will not be organised in the academic year 2010-2011. However, a number of English courses remain available to foreign students (e.g. within Erasmus program). Additionally, foreign students are welcome for internships and their M.Sc. thesis work at UA. Provided that more than 40 ECTS are collected and recognized by his/her home university, the student can obtain a bi-diploma.
The course objectives are to provide appropriate scientific, technological and socio-economic training enabling the student to conduct research / innovation tasks in microelectronics and nanoelectronics.
This Master constitutes an ambitious interuniversitary action that involves Lecturers, Professors and Researchers from groups with a significant activity in the fields of Nanoscience and Nanotechnology. This involves four of the main Universities in Catalonia (including two of the main Research and Technological Universities in Spain, located in Barcelona) and research institutes in the areas of Barcelona and Tarragona (including Institutes integrated in the Spanish Superior Research Council (CSIC)), under the coordination of the University of Barcelona.
The University of Basel is the first Swiss university to provide a programme in nanosciences. From the very beginning of studies, the interdisciplinary curriculum in nanosciences combines the three disciplines of biology, chemistry and physics into the word of nano systems. After three years a BSc with a Major in Nanosciences can be awarded. Three semesters later the degree of an MSc in Nanosciences becomes possible.
Der Konzentration der Forschung im Bereich Nanowissenschaften wurde in der Lehre bereits in der Bachelorphase Rechnung getragen. Das Lehrangebot soll durch ein vertiefendes Angebot in einem eigenständigen Masterstudiengang Nanowissenschaften forschungsorientiert, jedoch mit starkem Anwendungsbezug, ergänzt werden.
This postgraduate programme is designed to provide students with a comprehensive understanding of all aspects of nanoscience and its potential environmental and human health related risk. The MRes focuses on the fundamental and underpinning science but also discusses applications, synthesis and policy and regulatory responses.
The Graduate Program offers training leading to the degrees of M.S. and Ph.D. in Chemical and Environmental Engineering. Taking advantage of the complementary skills and expertise of the faculty, our graduate students pursue interdisciplinary and often collaborative research at the frontiers of chemical and environmental engineering. One of the main research areas includes Advanced Materials and Nanotechnology.
The UCR online Master of Science in Engineering with a specialization in Materials at the Nanoscale is an exploration of nanoscale processes and applications, including the design, synthesis and processing of nanostructured materials. Coursework covers a variety of high-level topics in nanoscience, including microelectromechanical systems and crystal structure, bonding and defects.
Plans are currently underway to develop graduate curricula leading to the M.S. and Ph.D. degrees in NanoEngineering by 2011. Until NanoEngineering graduate programs are in place, students wishing to pursue nanoengineering as a graduate focus are encouraged to apply to related graduate programs in bioengineering, chemical engineering, and mechanical and aerospace engineering. Transfer to NanoEngineering will be considered upon approval of its degree programs.
The Master's Programme in Micro- and Nanotechnology Enterprise is an opportunity in which world-leading scientists and successful entrepreneurs are brought together to deliver a one-year Master's degree, which combines an in-depth multidisciplinary scientific programme with a global perspective on the commercial opportunities and business practice necessary for the successful exploitation in the rapidly developing fields of nanotechnology and microelectromechanical systems (MEMS).
The Master of Science in Nanotechnology program provides students with scientific knowledge and research training in nanoscience and nanotechnology. The program prepares students for seeking employment in industry and academia involved in nanotechnology research, product development and commercialization, or to pursue advanced Ph.D. degrees in related areas.
The Professional Science Master's in Nanotechnology program at the University of Central Florida provides students with scientific education in nanotechnology and professional training in business and technology venture. This program incorporates both the higher level scientific content and business and entrepreneurial components that are necessary to drive innovative ideas in nanotechnology product development. The curriculum culminates with an internship that will provide work experience for each student.
On the master's degree program in Nanoscience you will specialise yourself within your field of Nanoscience and Nanotechnology. There is a great amount of freedom to choose between the different topics and courses, and to a wide extent it will be possible for you to draw up your own education. You will also have the chance to participate in conferences in Denmark and abroad.
The Masters in Nanoscience and Nanotechnology teaches you the skills desired by modern industry for scientists and engineers doing research, development and production in nanoscience and nanofabrication. This multidisciplinary programme will complement your background in electronics, materials science, or physics. Prestigious Scottish Funding Council Awards are available to high calibre applicants for this programme.
The Top Master programme in Nanoscience aims to train the cutting-edge scientists of the future. This is achieved by offering a challenging interdisciplinary programme and by admitting only very talented and motivated students. The courses are taught by top international scientists, and a large part of the programme consists of actually conducting scientific research, alongside world-class scientists, using the state-of-the-art facilities of the Zernike Institute.
In 2 Jahren, wenn die ersten Bachelor Absolventen in den Nanostrukturwissenschaften zu erwarten sind, also im Wintersemester 2012/13 startet der Studiengang Master of Science Nanostrukturwissenschaften.
This unique course is focused directly on this interface between the fields of electronics and nanotechnology. It covers the foundations of electronic engineering, from communications systems through to computer engineering, integrated circuit design and micro/nano fabrication. It enables you to understand the principles of electronics and nanotechnology, in particular the principles of the fabrication and design of modern microelectronic products.