Nanotechnology Frequently Asked Questions

What is nanotechnology?

Nanotechnology, or the science of the small, focuses on manipulating matter at the level of atoms, molecules and supramolecular structures. Nanotechnology is starting to have a huge impact on science and STEM education because of industry advances and the benefits derived from manipulating matter at such a small size.

Nanotechnology impacts many fields, from medicine to manufacturing, and this revolutionary industry incorporates disciplines such as engineering, chemistry, physics, materials science and biology. Nanotechnology focuses on nanoscale materials, practices and applications in order to develop high-performance, cutting-edge products.

What can graduates do with a nanotechnology degree concentration?

Graduates with a nanotechnology degree concentration can gain employment with technology-focused companies that include NASA or Lockheed Martin. Graduates can potentially work with advanced systems such as cancer therapies, energy storage devices and diagnostic methods. There are even multiple applications of nanoscale materials in the retail sector.

The healthcare industry has applications that include next-generation medical devices, drug delivery systems, computer chips and lightweight materials that are developed using nanotechnology. Graduates with an engineering degree and specialized training in nanotechnology may develop proposals to fund research projects and specific business applications to solve today’s real-world challenges.

What makes Florida Polytechnic University’s nanotechnology degree concentration unique?

Florida Polytechnic students enrolled in the Mechanical and Industrial Engineering Degree program studying nanotechnology will be prepared to enter the field upon graduation and lead in high-tech industries. From the first day of class, students have the opportunity to design and create materials for applications in manufacturing, health care, pharmaceuticals, aerospace and other industries. Students work with cutting-edge technologies, enabling them to apply solutions to solve real-world challenges. An example of this is developing student proposals for funded research to devise new methods for cleaning air and reducing carbon emissions.

The University’s nanotechnology degree concentration provides a promising career path that paves the way for future advancements in technology. Students work alongside industry partners and professors who are technology leaders. Hands-on applied research, internship positions and the opportunity to work in technology labs enable students to earn a degree while making an impact on the future.

Course Highlights: What You Need to Know

Industry Facts

  • Nanotechnology will help improve healthcare materials.
  • Nanoscale additives are making common items like bats.
  • Nanomaterials in food packaging reduces bacteria.
  • Nanotechnology improves the efficiency of fuel cells.
  • Courses

  • Nanoscale Phenomena and Interfaces
  • Computation and Programming
  • Instrumentation and Characterization
  • Nanomedicine and Nanotherapeutics
  • Economic Benefits

  • $250 billion invested in nanotechnology by 2015.
  • By 2020, the market is expected to reach $76 billion.
  • The market for nanotech based products is growing.
  • By 2015, 800k people will hold nanotechnology jobs.
  • Courses

  • Computation and Programming
  • Operations Research
  • Strength of Materials
  • Thermodyamics
  • “Nanotechnology is a field that is on the cusp of revolutionary change. Emerging technology will rapidly impact the industry as individuals create more complex dimensions and materials on the nano-scale.”