Study Nanotechnology Engineering at a Top Private University in Malaysia
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Nanoscience and nanotechnology are the study and application of extremely small things and can be used across all the other science fields, such as chemistry, biology, physics, materials science, and engineering.
Engineers utilize nanotechnology for many purposes, such as designing computer components, creating explosive-resistant materials and building microscopic sensors. For example, in the computer industry, engineers use nanowires and optics to create microchips with immense storage capacity for data processing.
Nanotechnology deals with engineering at the nanoscale with a view to creating applications or devices at the atomic, molecular, or supramolecular scale. The applications are diverse, including medicine, electronics, biomaterials, and energy production.
Malaysian students interested to work in this exciting, fast growing technologically advanced engineering field can pursue a degree in Electronic Engineering majoring in Nanotechnology and subsequently postgraduate.
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Find Out What is Nanotechnology Engineering and the Best University in Malaysia for this Course
What is Nanotechnology?
It’s hard to imagine just how small nanotechnology is. One nanometer is a billionth of a meter, or 10-9 of a meter. Here are a few illustrative examples:
- There are 25,400,000 nanometers in an inch
- A sheet of newspaper is about 100,000 nanometers thick
- On a comparative scale, if a marble were a nanometer, then one meter would be the size of the Earth
Nanoscience and nanotechnology involve the ability to see and to control individual atoms and molecules. Everything on Earth is made up of atoms—the food we eat, the clothes we wear, the buildings and houses we live in, and our own bodies.
But something as small as an atom is impossible to see with the naked eye. In fact, it’s impossible to see with the microscopes typically used in a high school science classes. The microscopes needed to see things at the nanoscale were invented relatively recently—about 30 years ago.
Once scientists had the right tools, such as the scanning tunneling microscope (STM) and the atomic force microscope (AFM), the age of nanotechnology was born.
Today’s scientists and engineers are finding a wide variety of ways to deliberately make materials at the nanoscale to take advantage of their enhanced properties such as higher strength, lighter weight, increased control of light spectrum, and greater chemical reactivity than their larger-scale counterparts.
(Taken from the Official website of the United States National Nanotechnology Initiative)
What is a Nanotechnology Engineer?
Those who work with nanotechnology deal with materials and technologies on a microscopic level. As engineers, they might develop computer components or super-strong materials.
A nanotechnology engineer is someone who works around the smallest, most amazing fragments of science. From storing and altering things on the cellular level, to creating new, tiny pieces of electronics, nanotechnology engineers are the cream of the crop, possessing an acute attention to detail and a strong drive to make things better.
What does a Nanotechnology Engineer do?
From storing and altering things on the cellular level, to creating new, tiny pieces of electronics, nanotechnology engineers are the cream of the crop, possessing an acute attention to detail and a strong drive to make things better.
A nanotechnology engineer seeks to learn new things that can change the face of health, science, technology, and the environment on a molecular level. They test for pollutants, create powders to enrich our foods and medicines, and study the smallest fragments of DNA. They can even manipulate cells, proteins, and other chemicals from within the body.
Nanotechnology engineers take advanced supplies and materials and turn them into something new and exciting. They may try to make a once heavy invention work better while weighing less, making the object far more efficient. They may also create new and improved ways of watching out and improving the environment by creating innovative ways to test for contaminants and pollutants in the air, ground, and water.
Nanotechnology engineers may also choose to work in the medical field creating new gadgets that can fix problems on a scale as small as the molecular level, thus changing the face of medicine forever. Those involved with bio-systems will create ways to store the tiniest amounts of DNA or other biological fragments for testing and manipulation.
Nanotechnology engineers that work with nanoelectronics will create smaller, more efficient chips, cards, and even smaller computer parts to make products that can do as much as bigger products without so much electronic waste.
Behind the scenes, these engineers must be good at paperwork and detailed description writing. They are responsible for writing extremely detailed reports describing their findings in their specific experiments.
Who Should Study Nanotechnology Engineering?
- Students who excel in Mathematics and Physics
- Students who are curious and investigative individuals, meaning that you are intellectual, introspective, and inquisitive.
- Students who are methodical, rational, analytical, and logical.
- Some are also realistic, meaning that you are independent, stable, persistent, genuine, practical, and thrifty.
The Global Nanotechnology Industry
Although relatively new, the global nanotechnology sector will be one of the greatest needle shifting industries within the next five years, with far reaching implications on the way we live, work and play. The international nanotechnology market is expected to hit the USD5.76 trillion mark by 2022,
from USD3.68 trillion in 2018, denotinga double-digit Compound Annual Growth Rate (CAGR) of 11.8% within theforecast period of 2018 till 2024.
Europe and Asia are expected to register the greatest growth in market share, followed closely by the United States. Asia’smarket share is expected to grow from USD1.3 trillion in 2018,to USD2 trillion in 2022, while Europe’s market share is forecasted to increase from USD1.33 trillion in 2018, to USD2 trillion in 2022.
The explosive growth in nanotechnology will primarily be driven by rapidly growing advancements in potential applications within sectors such as healthcare, cosmetics, energy and agriculture. Significant developments have been observed within the past few years in the electronics, energy and biomedical sectors.
Specifically, it has been projected that nanotubes will capture the greatest market share, with demand driven by the electronics, energy storage and automotive sectors. The second highest market share is expected to be held by
nanoceramics, with growing demand from the electronics and biomedical sectors. Over 70% of the global nanotechnology market share will be held by nanotechnology applications within materials and manufacturing, electronics and information technology, and healthcare and life sciences
1. Source : LuxResearch & NVSB Internal Research
2. Source : LuxResearch & NVSB Internal Research
Nano Malahysia – Electronic Devices And Systems
The Electronics and Electrical (E&E) industry is one of the major sub-sectors of the manufacturing sector in Malaysia. E&E primarily consists of two main industry components – computer, electronic and optical products; and electrical equipment.
An important contributor to the national economy, in 2017 alone, E&E was Malaysia’s largest export earner at RM343 billion, accounting for 36.7% of the country’s total exports. The added value of the E&E sub-sector stood at RM67.7
billion in 2017, an 8.2% increase from the previous year. The increase in the sector’s value is attributed to an industry shift from low value-added activities, to high value operations to enhance the local sector’s competitiveness within the international business landscape.
Employment within the E&E sector has grown substantially through the years to consist of 19.9% of the total manufacturing workforce comprising of 485,000
workers as at end 2017. Robust global demand for E&E products is driving industry growth, and by 2020, it is expected that the sector will generate a Gross National Income (GNI) impact of RM53.4 billion, and create a further 157,000 jobs.
There is tremendous potential for the E&E sector to move up the manufacturing value chain and thus propel its growth by adopting nanotechnology within its
manufacturing processes. Opportunities for growth and expansion are fuelled by the advent of new breakthrough discoveries in nanotechnology such as nanoelectronics and nanophotonics, as well as the rise of the Internet of
Nano Things (IoNT).
1. Source : 25th Productivity Report 2017/2018, published by Malaysia Productivity Corporation in 2018
2. Source : 25th Productivity Report 2017/2018, published by Malaysia Productivity Corporation in 2018
3. 2018 Malaysian American Electronics Industry (MAEI) Survey Report
Education Pathway to a Nanotechnology Engineering Degree in Malaysia
Students after SPM or O-Levels with at least 5 credits in SPM or O-Levels may go for the Foundation in Engineering.
Upon completion of the Foundation, students can enter into Year 1 of the 4-year degree programme in Electronics Engineering Majoring in Nanotechnology that’s accredited by the Engineering Accreditation Council (EAC) and MQA, and recognised by the Board of Engineering Malaysia (BEM).
Pre-University students with the relevant results in STPM, A-Levels, SAM, CPU, AUSMAT, etc. can enter directly into Year 1 of the B.Eng. (Hons) Electronics Majoring in Nanotechnology degree.
Study the Bachelor of Engineering (Hons.) Electronics Majoring in Nanotechnology Course in Malaysia at Top Ranked Multimedia University (MMU) Cyberjaya Campus
Nanotechnology is an emerging field for the next generation of electronics, materials and devices leveraging on its exploratory potential. The Faculty of Engineering at Multimedia University (MM) Cyberjaya offers a four year undergraduate programme leading to the Bachelor of Engineering degree majoring in Nanotechnology.
For students planning for professional careers in the fields of microelectronics and nanoelectronics, the nanotechnology programme provides a complete undergraduate training in electronics and nanoelectronics-related fields, such as nanomaterials, nanosciences, nanofabrication technology, nanoelectronic devices, MEMS/NEMS, diagnostic technology, computer organisation and architecture, data communication, microprocessor system, and multimedia technology.
In addition, MMU Cyberjaya engineering students are also exposed to basic engineering training in circuit and signal analysis, field theory, electronics, control theory, digital logic, communications and engineering mathematics. To better prepare the students for a professional career in engineering, courses in basic management, economics, accounting and law are also included. This programme also provides students with industrial experience and research training by requiring them to complete industrial training and graduate projects.
Year 1 Subjects for the B.Engineering (Hons) Electronics Majoring in Nanotechnology
- Engineering Mathematics 1
- Electronics 1
- Circuit Theory
- Field Theory
- Computer and Program
- Engineering Mathematics 2
- Electronics 2
- Introduction to Machines and
- Power Systems
- Algorithm and Data Structure
- Instrumentation and
- Measurement Techniques
- Digital Logic Design
- Electronics 3
Year 2 Subjects for the B.Engineering (Hons) Electronics Majoring in Nanotechnology
- Engineering Mathematics 3
- Microcontroller and
- Microprocessor Systems
- Circuits and Signals
- Electromagnetic Theory
- Computer Organization and
- Microelectronic Circuit
- Analysis and Design
- Advanced Microprocessors
- Solid State Electronics
- Engineering Mathematics 4
- Control Theory
Year 3 Subjects for the B.Engineering (Hons) Electronics Majoring in Nanotechnology
- Analog and Digital
- Optoelectronic Devices
- Semiconductor Devices
- Advanced Fabrication
- Capstone Project
- Multimedia Technology and
- Power Electronics
Year 4 Subjects for the B.Engineering (Hons) Electronics Majoring in Nanotechnology at Multimedia University (MMU) Cyberjaya
- Digital Integrated Circuits
- Diagnostic Technologies
- Data Communications and Computer Networking
- Nanoelectronic Materials and Devices
Why Study Electronic Engineering (Nanotechnology) at Multimedia University (MMU) Cyberjaya?
In the 2017 QS World University Rankings by Subject again listed Multimedia University (MMU) as the No. 1 private university in Malaysia for “Electrical & Electronics Engineering”. Since 2015, MMU has been placed in the top 151-200 universities worldwide.
Multimedia University (MMU) is the first private university in Malaysia and is ranked top in the world having won many awards and accolades therefore, they are the top choice for students to study the best Nanotechnology Engineering course in Malaysia.
Established in 1996, MMU marked Malaysia’s foray into a new economy. With more than 15,000 students, the university has campuses in Cyberjaya, Melaka and Johor. For a list of the awards and achievements for engineering at Multimedia University (MMU), click on the link.
- In 2009, MMU was ranked at 171 by THES-QS in the Asian University Rankings, the first private university in Malaysia to achieve such a feat. The 2017 QS World University Rankings by Subject again listed MMU as the No. 1 private university in Malaysia for “Electrical & Electronics Engineering”.
- Since 2015, MMU has been placed in the top 151-200 universities worldwide by QS World University Rankings by subject Electrical and Electronics Engineering.
- In 2017 – Multimedia University (MMU) Faculty of Engineering earns four (4) accolades from the global professional association, Institute of Electrical and Electronics Engineers (IEEE).These are among the hundreds of awards & achievements of the engineering students and staff at Multimedia University (MMU) showing that MMU is the best private university in Malaysia for engineering.
- The Faculty of Engineering teaching staff at Multimedia University (MMU) Cyberjaya have at least a Master for lecturers, at least 2nd Class Upper Bachelor degree for tutors in MMU. About 80% Multimedia University (MMU) engineering tutors has 1st class and 35% lecturers with PhD.
- The engineering programmes in MMU are accredited by the Malaysian Qualification Agency (MQA) and the Engineering Accreditation Council (EAC) as well as recognised by the Board of Engineers Malaysia (BEM).
- Hence, MMU’s engineering graduates can readily seek employment or be admitted into top international universities for postgraduate studies. More than 40% of MMU’s engineering graduates secure jobs before completion of studies while more than 96% of them secure jobs within 6 months after graduation.
- Multimedia University (MMU) has some of the best teaching labs among private universities in Malaysia. Students have the opportunity to experience for themselves the various principles of engineering in action through the numerous hands-on experiments. There are also various activities conducted in collaboration with the industry that expose students to real world challenges that require innovative engineering solutions.
- MMU’s strong partnerships with global industry players that include Fortune 500 companies have led to the establishment of state-of-the-art research and teaching facilities such as Intel Advanced Architecture Lab, Panasonic Computing Lab, Huawei Digital Lifestyle and Innovation Centre and Motorola Wireless Broadband Technology Lab.
- Multimedia University (MMU) has a vibrant Student engineering society and professional engineering student chapters such as The Institution of Engineering and Technology (IET), Institute of Electrical and Electronics Engineers (IEEE) and Institution of Engineers, Malaysia (IEM) as well as ‘Multimedia University Engineering Society Overseas Research Programme'(MESCORP) for students to grow in leadership and soft-skills, as MMU recognises the growing importance of these human aspects of what engineers do.
- In line with the Multimedia University (MMU)’s vision to be a leading engineering faculty in Malaysia for creation, preservation and dissemination of knowledge, MMU lecturers/professors/researchers at Faculty of Engineering has never failed to actively engage themselves in the forefront R&D activities for the creation of new knowledge and technology where scientific findings are presented and published in various reputable international conferences, and prestigious journals of international standing.
- MMU also enjoys great support and close research collaborations with some top names in the industries in Malaysia such as Intel, NTT, Nokia, National Semiconductor, Motorola, Matsushita, Ericsson, Agilent , coupled with the constant arrangement of invited lecture series that brings renowned engineers and scholars to MMU from across the world, has helped MMU to ensure the multi-skilled engineering graduates they produce stay relevant to the fast changing industry trends and needs.
The Best Reasons to Study Electronic Engineering (Nanotechnology) at Multimedia University (MMU) Cyberjaya
- Curriculum have been endorsed by panel of international experts from top universities such as Pennsylvania State University, University of Texas at Arlington, National University of Singapore, Nanyang Technological University, etc.
- More than 40% of academic staff graduated from top international universities such as University of Edinburgh, University of Sheffield, University of Surrey, etc.
- In addition to academic qualifications, academic staff also have industry experiences, with more than 35% of them possessing professional certifications such as Professional Engineer, or Chartered Engineer
- Consistent graduate employability rate of 97-98% every year
- Graduate Employment Survey conducted by MAEI (Malaysian American Electronics Industry) companies including Intel, Motorola, and AMD indicate that these companies prefer our MMU engineering graduates
- More than 10 industry-sponsored labs – one of the highest among private engineering faculties in Malaysia
- Industry partners co-develop curriculum
- More than 200 R&D collaborations with universities, industries, government bodies etc.
- One of the very few Malaysian private universities that actively collaborates with industries in the Living Lab (previously known as Digital Home & Lifestyle Lab)
- First university to offer programmes in fast growing industries such as Nanotechnology and Photonics
- Early adopter of latest technology in the industry
Career Prospects for Graduates from the Nanotechnology Engineering Degree at Multimedia University (MMU) Cyberjaya
Nanotechnology is an emerging field for the next generation of electronics, materials and devices leveraging on the exploratory potential of nanotechnology. Potential career opportunities are in Nanotechnology, Electronics, Semiconductor, Telecommunication, Optoelectronics, Green Energy and Research and Academic.
- Research Engineers/Scientists
- Test and Characterization Engineers
- Process and Device Engineers
- Product Reliability Engineers
- Electronics Engineers
- Process Engineers
- Quality Control/Assurance Engineers
- Failure Analysis Engineers
- Field Application Engineers
- Telecommunications Engineers
- R&D Engineers
- Research Engineer/Scientist
- Microfabrication Engineer,
- Test and Characterization Engineer
- Process and Device Engineer
- Products Reliability Engineer
- Electronics Engineer
- Process Engineer
- Manufacturing Engineer
- Product Engineer
- Quality Control/Assurance Engineer
- Failure Analysis Engineer
- Field Application Engineer
- Customer Service Engineer
- Telecommunication Engineer
- R&D Engineer
- Safety Engineer
- Sales Engineer
- Service Engineer
- Facility Engineer
- Assistant Lecturer/Tutor
MMU nanotechnology engineering graduates have found work in different industrial companies such as Intel Electronics, Freescale Semiconductor, Finisar, Western Digital, Agilent Technologies, Altera Corporation, Huawei Technologies, Telekom Malaysia, ZTE, Flextronics, Avago, Lumiled and AMD.