Nano Engineering (NANO)


Globalization implies competition in the international arena in all aspects of business. Manufacturing and services industries are particularly affected by the drive to find the cheapest suppliers and knowledge workers. Only companies or nations that take full advantage of advanced technology are well equipped to answer the needs of the 21st-century consumers. Nanotechnology is one of such advances that can, and will, impact all in the manufacturing sectors: from heavy industries to small, from automobile and petrochemical to textile and clothing. Those in the services industries thus need to keep pace with advances in nanotechnology if they are to provide customers with the most cutting edge and efficient solutions such as nanochip solutions to the biomedical or telecommunications service providers. 
Nanotechnology can be applied in almost all industries and can increase a country's competitiveness. In some industries, nanotechnology is a means for survival. Despite the eminent threat of being left behind, firms or nations cannot harvest the full potential of nanotechnology due to its multidisciplinary nature and the heavy investment involved in research and development. Our nano-engineering program is such an investment and is truly multidisciplinary in that it ingrains in students the basics (physics, chemistry and biology) and the applied (electrical, chemical and materials engineering). Most of the current science and engineering degrees are highly fragmented, with little collaboration among departments, resulting in scientists who are too theoretical minded or engineers who are weak in the sciences. The increased knowledge base and skills required to compete mean that the engineers have to have stronger fundamentals in the sciences and the scientists have to have more hands-on experience. Nano-engineering program is thus formulated to bridge the capability gap of the two.
The nano-engineering program aims to produce undergraduates who are knowledgeable in chemical, electrical and materials engineering which are the fundamental building blocks of nanotechnology. Upon graduation, students will be a unique and important human resource pool capable of developing many manufacturing and services industries and taking them to the next level. Examples of industries that require engineers with nano-engineering skills include chemical, medical, biomedical, electrical and electronics, agricultural, and textile and clothing. The students will possess problem-solving and analytical skills typical of engineers and at the same time have deep understanding of sciences and materials, especially ones with size scale in the nano-meter range. These will be necessary in providing industries with solutions that are novel and better than existing ones. 
Nano-engineering program aims to meet the industries' needs for engineers that are conversant in the various aspects of nanotechnology. Those who graduate from the program can be counted on by virtually all those that are involved in high value-added manufacturing and by most service providers in hi-tech industries to help them gain sustainable competitive advantage. The graduates from this program can be relied upon for their strong scientific knowledge, practical engineering skills and effective management required to lead organizations into the ever increasing competitive world.


1) to provide industries with engineers who have strong science and engineering fundamentals, communication and presentation skills, and collaborative mindsets. 
2) to provide industries with engineers who can apply their understanding of sciences, mathematics, engineering and materials to solve industrial problems in a systematic manner typical of scientists and engineers. 

3) to put Thailand on the global nanotechnology map.


1) serves to educate the students in multiple engineering disciplines; however, students can opt to specialize on certain aspects of nanotechnology.

2) emphasizes that students interact and collaborate using English in all communication between and among students and faculties. Once graduated, the students will be ready to work in an international environment in multinational corporations or to continue higher education overseas.

3) meets the needs of Thailand in providing engineers who can apply nanotechnology to better the lives of the majority of Thai people who remain in the agricultural sector.

Building 2 of Faculty of Engineering  |  Chulalongkorn University  |  Bangkok  |  10330  |  THAILAND 
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