top of page
Abstract Linear Background

Advanced Nanotechnology in Aerospace

This advanced course delves into the cutting-edge applications of nanotechnology in aerospace engineering. It covers nano-engineered structural materials, aerodynamics, propulsion systems, nanoelectronics, and quantum nanotechnology. Students will explore the latest research, industry applications, and future trends, with a strong focus on computational modeling, experimental analysis, and real-world case studies.

Add a Title

Add paragraph text. Click “Edit Text” to update the font, size and more. To change and reuse text themes, go to Site Styles.

Next Item
Previous Item

Course Duration:

24 hours

Level:

Advanced

Course Objectives

  • Analyse the advanced principles of nanotechnology and their aerospace applications.

  • Evaluate the properties, synthesis, and performance of nano-engineered structural materials.

  • Investigate nanoscale surface modifications for aerodynamics and drag reduction.

  • Assess nanotechnology-driven advancements in thermal management and extreme environment protection.

  • Explore nano-enhanced propulsion systems, fuel efficiency, and electric propulsion.

  • Examine nanoelectronics, MEMS/NEMS sensors, and their role in avionics and aerospace computing.

  • Study self-healing materials, radiation shielding, and nanotechnology applications for space exploration.

  • Understand the potential of quantum nanotechnology in future aerospace systems.

  • Assess ethical, environmental, and safety considerations in aerospace nanotechnology.

  • Apply theoretical and practical knowledge through case studies, simulations, and research projects.

Prerequisites

  • Strong background in materials science and aerospace engineering

  • Knowledge of nanotechnology fundamentals

  • Familiarity with computational modeling and simulation techniques (recommended)

bottom of page