Nanoengineering Graduate Programs

A graduate program in nanoengineering awards either a master's or doctoral degree and requires coursework in biophotonics, bionanotechnology, and polymers, among other courses. Find out more about program requirements and see course descriptions.

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Nanoengineering, a subset of engineering, is an interdisciplinary field that deals with microscoping manipulations using various tools. The program will require students to become familiar with both the principles and applications of the science.

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Coursework Requirements for a Nanoengineering Graduate Program

The graduate programs in nanoengineering can result in either a master's or doctoral degree, though some of the courses you find will overlap between both degree tracks. The following is just a small sample of the coursework you can anticipate taking.

Foundational Nanoscience

This beginner class will require students to come to a better understanding of nanotechnology and its application. Students learn scaling laws, nano level physics, and the properties of nanomaterials. Other topics in this course include the process of heat transfer at the nanoscale level, machinery cells, and the application of nanotechnology in various fields.


Coursework in biophotonics explores the principles and tools used in biophotonics. Students are expected to become more familiar with such tools as nanosensors and other nanodevices that are used in a variety of settings. This course also reviews topics such as the modification of nanoparticles, the nanostructure of biological molecules, and the nanostructural aspects of both fuel and biofuel cells.


This course examines the interaction of photos with matter in both biological and synthetic materials. Students will learn how to deal with photonic radiation pressure while manipulating various objects. This course also reviews how devices, such as optoelectronic detection systems, are used. The course also covers topics such as fluorescent energy transfer and near-field optical techniques.


In this fundamental class, students are exposed to both optics and photonics. This course looks at both from the perspective of application in nanoscale materials and devices. Studies in this area also explore light and matter interactions that occur on the nanoscale. Other topics students might encounter include light absorption, emission, and optical resonance in metals.


The study of polymers class will ask students to research polymer chemistry and characterization alongside topics such as thermodynamics, rheological properties, and smart materials. Coursework begins with an overview of rheology and structure formation and draws upon the existing literature regarding applicable principles in rheological behavior. This course guides students to a better understanding of the challenges inherent in forming nanocomposites, hierarchical composite structures and nanofibers.

Admission Requirements

Schools sometimes have different admission requirements from one to the other, but the following are a few examples of the most common requirements you will have to meet. Most nanoengineering graduate degree programs require a bachelor's degree in math, science or engineering. You will typically be asked to submit your GRE scores, transcripts and have an undergraduate GPA of at least a 3.0. During the application process, you will also be asked to submit up to three letters of recommendation outlining why you would be appropriate for the program.

Many graduate nanoengineering programs will require coursework in areas such as nanophotonics and bionanotechnology. Following program completion, students will be capable of working in various fields such as medicine, engineering and science.

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