Nanotechnology Bachelor Degree Programs

The programme at the Amity Institute of Nanotechnology comprises of conceptual knowledge of nanoscience and nanotechnology, including preparation of nanomaterials, their characterization and applications. Our eminent faculty takes care of teaching and training the students in the frontier areas of nanotechnology and they have drawn a noteworthy syllabus for the entire course.

This concentration allows students to study atoms and molecules used to create computer chips and other devices that are the size of a few nanometres – thousands of times smaller than current technology permits. Such discoveries will be useful in a number of fields, including aerospace, medicine, and electronics.

At Carleton, you will examine nanoscience through the disciplines of physical chemistry and electrical engineering to understand the physical, chemical and electronic characteristics of matter in this size regime. The combination of these two areas of study will equip you to fully understand nanoscience in photonic, electronic, energy and communication technologies. The focus of the program will be on materials – their use in electronic devices, their scalability and control of their properties.

In your first two years you will develop knowledge of the fundamentals in chemistry, physics and mathematics. A range of options in physics, chemistry, engineering, computational techniques and nanotechnology will enable you to tailor the course to suit your interests. In your final year, you will undertake advanced studies in nanotechnology together with a nanotechnology research project.

This interdisciplinary materials science and engineering track provides a strong foundation for nanoscience and nanotechnology and is designed to prepare MSE majors for future interdisciplinary careers, for graduate research programs in materials science, nanotechnology, bioengineering and other disciplines.

DTU Nanotech provides a lot of exciting courses on the bachelor level available for all students at DTU. The courses are organised in three categories, the Micro, LabChip and Nano course of studies.

Nanoscience and nanotechnology are built upon chemistry and physics. This degree is a solid science degree (physics and chemistry) but with a unique focus on nanoscience and nanotechnology. In the Years 3 and 4 of the degree the student chooses to major in either physics or chemistry, but all students do the nanotechnology modules.

This program is comprised of three major components: arts and sciences, electrical engineering technology, and free electives. The electrical engineering technology component consists of core and concentration requirements in addition to electrical technology elective credits.

Den Anforderungen an künftige Nano- und Materialwissenschaftler/innen entsprechend, vermittelt Ihnen das Studium an der Fachhochschule Recklinghausen ein breites Grundwissen in der Allgemeinen Naturwissenschaft.

Der Studiengang Bio- und Nanotechnologien fasst die Schlüsseltechnologien Biotechnologie, Umwelttechnik, Nano- und Oberflächentechnik zusammen.

Nanotechnology is a specialisation within a Bachelor of Science. This specialisation is also available within the 4 year Bachelor of Science (Honours). This degree will equip you to be a part of this new industrial revolution. You will graduate ready to start working in a variety of scientific professions and to play a leading role in the future as nanotechnology grows, matures and reveals its full potential. Nanotechnology draws on the strengths of all the basic sciences and the course will give you a strong background in these sciences. In particular, there is an emphasis on developing computational skills and an awareness of the roles and uses of computers in science and society. From Second Year you will choose to specialise in one of two areas: Biomedical Nanotechnology; Quantum Nanostructures.

This 4-year course is based on physics but includes content from chemistry and biology to give an important appreciation of how all the sciences have new effects to be observed and new applications to be discovered.

A unique program that was specifically authorized by the Ministry of Science and Higher Education.

The Nanotechnology / Science double degree program aims to provide students with a broad education in disciplines that will underpin the science and technology, in particular nanotechnology, in the coming years. Our double degree course structure provides full coverage of subject areas, avoiding the compromises of shorter niche degrees where the supporting sciences are reduced to include the nanotechnology units.

The interdisciplinary degree courses in nanotechnology at Leibniz Universität Hannover provide extensive training in the field of nanotechnology. The Faculties of Electrical Engineering and Computer Science, Mechanical Engineering, Mathematics and Physics, and Natural Sciences have combined forces to offer this joint programme.

The B.S. in Nanosystems Engineering (NsE) is a four year undergraduate program leading to an engineering degree.

The degree starts with a foundation in mathematics and science and an introduction to technology and engineering. It then builds on these fundamentals to develop the basic skills of a chemical or process engineer and opens up to the ways of thinking of the nano-revolution. We keep the degree broad enough to equip graduates for a range of careers in New Zealand or overseas covering both biological and non-biological processes. There is an opportunity for individual specialisation and participation on the frontier of knowledge with the research project component.

As well as dealing with the novel properties of materials on the nanoscale, a key facet of the Nanoscience major is its interdisciplinary character including all of the fundamental sciences. Students will build on a foundation of maths, physics and chemistry before going on to study aspects of nanoscience itself, focussing on a choice from two options – either quantum nanoscience (with an emphasis on further physics and chemistry of modern nanomaterials) or bionanoscience (with an emphasis on biological macromolecules and nanostructures).

The Department of Engineering Physics offers a common core of Engineering Physics (B.Eng.) with a stream of study in Nano- and Micro-Devices (M Stream).

With this course you will explore classical and modern physics, investigating the physical world around us and beyond. You’ll also learn about Nanoscience, the science of the really small, and gain an understanding of the rules and complexities of physics at finer and finer levels.

The area of concentration in nanoscale physics prepares students to investigate structures and systems at the interface of classical and quantum physics at nanometer length scales. It provides a hands-on, inter-disciplinary introduction to the cutting-edge science and technologies associated with exploring nanoscale phenomena. This area of concentration is especially well-suited for physics majors with inter-disciplinary career interests in biology, chemistry, and/or engineering.

The Bachelor’s programme in Physics and Astronomy takes three years.

This four year program combines majors in nanotechnology and either physics or chemistry and encompasses physical, chemical, biological and engineering nanoscience and nanotechnology. This double degree provides a strong grounding in nanotechnology, the science and engineering of materials less than a micrometer in size across the disciplines of physics and chemistry with substantial biology and engineering components.

Der interdisziplinäre Studiengang Mikrotechnologie und Nanostrukturen kombiniert Grundlagen der Physik mit den Ingenieurwissenschaften mit dem thematischen Schwerpunkt Miniaturisierung. Dem fächerübergreifenden Systemgedanken wird dabei besondere Bedeutung beigemessen.

The four year programme is designed to help prepare students from a broad range of disciplines for careers or graduate study in fields involving nanotechnology. These fields cover a spectrum ranging from medicine (drug delivery) and catalysis to surface/bulk chemistry and controlling even at the atomic/molecular scale to quantum computing. The students are consistently encouraged to develop this interdisciplinary approach to science and engineering. The course prepares the exciting career opportunities in a variety of diverse fields to the students.

B.Sc. Physics with Nanotechnology Degree Scheme.

This is a four-year degree programme, run jointly by the Schools of Chemistry and Physics at Trinity College Dublin. Students will gain a deep and lasting understanding of the science of advanced materials that underpins the nano revolution. Some laboratory training is provided in CRANN, the leading institute for nanoscience in Ireland.

Zunächst werden im Bachelor-Studiengang ‘NanoEngineering’ die grundlegenden Methoden der Mathematik und Naturwissenschaften erarbeitet. Die ingenieurwissenschaftlichen Grundlagen setzen sich aus Modulen des Maschinen- und Anlagenbaus mit den Schwerpunkten Mechanik und Thermodynamik, Elektrotechnik, Materialwissenschaften und Informatik zusammen. Parallel hierzu werden Grundlagen der Nanotechnologie aufgebaut.

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.

Das Studium dauert sechs Semester und setzt sich aus Vorlesungen, �bungen, Praktika und Seminaren zusammen. Es umfasst Module in den Fächern Chemie, Biochemie und Molekularbiologie, Informatik, Mathematik und Physik.

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.

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.

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 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.

UAB’s organisation of academic faculties and research centres, included in the Barcelona Nanotechnology Cluster-Bellaterra, offers optimal possibilities for students interested in enrolling in the degree in Nanoscience and Nanotechnology.

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 Einfach-Bachelor-Studiengang mit dem Profil Nanowissenschaften besteht aus dem Kernfach Physik und dem Nebenfach Physik, beide mit dem Profil Nanowissenschaften.

The Nanotechnology and Microsystems Option helps prepare students for the new age of electronics in which chips integrate mechanical, fluidic, biological and optical components, and where nanometer scale features are forcing changes in the design of transistors and other basic circuit elements. Students in the option receive hands-on experience through laboratory and project work which complements theory.

Starting Fall 2008/Winter 2009, students can enroll in the only process learning driven Nanoscience program in North America. Courses offered are a B.Sc. Minor in Nanoscience and a B.Sc. Concentration in Nanoscience.

Starting Fall 2008/Winter 2009, students can enroll in the only process learning driven Nanoscience program in North America. Courses offered are a B.Sc. Minor in Nanoscience and a B.Sc. Concentration in Nanoscience.

Interdisciplinary research and collaboration are hallmarks of the Bourns College of Engineering. The B.S. in Chemical Engineering is offered in four concentrations: Bioengineeringchemical environmental engineering; Biochemical Engineering; Chemical Engineering; and Nanotechnology.

The Department of NanoEngineering offers undergraduate programs leading to the B.S. degrees in NanoEngineering and Chemical Engineering.

At the Faculty of Science, University of Copenhagen, all BSc programmes are currently only offered in Danish. This also means that all courses at the bachelor’s level are offered in Danish, with a few exceptions. For international, non-nordic students, admission to BSc programmes, besides fulfilling the academic admission requirements, is conditioned upon a passed Danish test.

At Guelph we have created a unique approach to nanoscience studies. Fundamental science course are combined with specially designed courses in nanoscience covering material that would previously only be found in graduate programs.

Zum Wintersemester 2009/10 startet der Studiengang Bachelor 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.

You will study key topics from all the core sciences – chemistry, biology, physics, material science and electronics – alongside specialist modules in nanoscience and nanotechnology. At the same time you will experience the fascination of nanotechnology via hands-on practical work with state-of-the-art nanoscience equipment.

This program leads to the award of a Bachelor of Science in Nanotechnology over four years of full-time study, with Honours for students who perform with merit. At present, the principal entry point into this degree is at Stage 1 level. Students are normally expected to complete each stage before proceeding to the next stage. A total of 192 units of credit (UOC) must be completed for the award of this degree.

This is a multidisciplinary programme at the interface between physics and chemistry. The main focus is on advanced materials, energy, and nanotechnology, but the programme also provides a solid foundation in physics and chemistry. Even though specific courses in physics, chemistry, mathematics, nanotechnology, and computer science are compulsory, there is room for a range of optional courses which you can integrate into the degree.

This course offers a nanotechnology single major as part of the Bachelor of Biotechnology program.

The Bachelor of Science (Honours) program provides students with the opportunity to pursue an independent research project in an area of interest under the supervision of an academic staff member.

The Innovation Management Dual Majors prepare students for the growing focus of Biotechnology organizations and University/Public Sector based research groups on seeking markets for their scientific outputs.

The BSc. Nanoscience program is a German language program and can be completed within three years.

The N&N degree will run as follows. From the start, you will see what effect the ‘rules for the small world’ have on the shape and reactivity of molecules, large and small, and on the behaviour of electrons.

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.

This option transcends the traditional boundaries between physics, chemistry, and biology. Starting with a foundation in materials engineering and augmented by research from the leading-edge of nanoengineering, students receive an education that is at the forefront of this constantly evolving area.

Das Ziel der Ausbildung ist es, den Studierenden Kenntnisse auf den wichtigsten Teilgebieten der Nanostrukturtechnik zu vermitteln und sie mit den Methoden des ingenieurwissenschaftlichen und physikalischen Denkens und Arbeitens vertraut zu machen.

The Nanotechnology Engineering honours degree program is designed to provide a practical education in key areas of nanotechnology, including the fundamental chemistry, physics, and engineering of nanostructures or nanosystems, as well as the theories and techniques used to model, design, fabricate, or characterize them. Great emphasis is placed on training with modern instrumentation techniques as used in the research and development of these emerging technologies.

This program investigates the basic theory and applications of nanotechnology in the biological and chemical sciences, in physics and in engineering science. One of these four streams is completed at Levels 2 and 3, with a major project unit in nanotechnology at Level 3.

Medical Nanotechnology is the application of the methods and techniques of Nanotechnology to medical and health areas. The student may also choose to specialise in Nanophysics or Nanochemistry opening up alternative career paths in industry (biotechnology, pharmaceutical, health, defence, chemical, petroleum, materials and engineering).

The Bachelor of Nanotechnology is an interdisciplinary degree which is jointly offered by the Faculties of Engineering and Science. The degree targets the emerging field of nano-materials, molecular machines and nano-science. The course draws on major research strengths at UOW including: the Intelligent Polymer Research Institute, the Institute for Superconducting and Electronic Materials, the BlueScope Steel Metallurgy Centre and the ARC Centre of Excellence for Electromaterials Science.

A 3-year fulltime program for the Bachelor degree.