Singapore, 21 October 2013 – Imagine faster, smaller and more durable data
storage in your laptops, smart phones and tablet PCs, where future hard disk
drives can store information at the capacity in tens of terabytes instead of the
current capacity of gigabytes. These are potential outcomes of a new research
collaboration, embarked upon by the Graphene Research Centre (GRC) at the
National University of Singapore (NUS) Faculty of Science and Fuji Electric
(Malaysia) Sdn. Bhd. The two parties are working on a joint research project that
aims to develop magnetic hard disk media incorporating graphene for a new
generation of data storage devices.
Discovered in 2004, graphene is one of the crystalline forms of carbon, comprising
of a single layer of carbon atoms, which is revolutionising several different
industrial sectors. This collaboration looks to explore how graphene may
complement current hard disk media technology.
Due to the prominent properties of graphene, it is envisaged that when applied in hard disk drives, graphene has
a role of providing a protective layer, allowing for the magnetic heads to approach
closer to the hard disks. This brings about higher data capacity within hard disk
drives that can store a much larger amount of data with smaller hard drives.
This research project is led by Professor Antonio Castro Neto and Assistant
Professor Barbaros Özyilmaz from GRC and Mr Lawrence Ng Wah, Senior Manager,
Research and Engineering Department, Fuji Electric (Malaysia). The collaboration
sees GRC integrating graphene layers with conventional magnetic media in a
number of steps. Fuji Electric will conduct necessary assessments to ensure the
new product is suitable for commercialization, including corrosion, durability and
capacity tests. NUS is the sole proprietor of this new technology.
“The Graphene Research Centre is interested in bringing ground-breaking
scientific and technological discoveries to people’s everyday life and have a real
impact in Singapore’s economy. The collaboration with Fuji Electric (Malaysia)
Sdn. Bhd. will open the doors for a new technology that can have long lasting
consequences in science and industry,” said Professor Antonio Castro Neto,
Director of the Graphene Research Centre and a Distinguished Professor from the
Department of Physics, NUS Faculty of Science.
“Fuji Electric (Malaysia) Sdn. Bhd. is manufacturing the world-class recording
media with as much as 1TB/3.5″ and 500GB/2.5″ capacity for HDD. The reduction
of the head-disk spacing is one of the most important challenges to keep more
than 20% annual increase of the recording density of HDD, and the thickness
reduction of the protective layer is one of the key technologies. Current thickness
of carbon protective layer which is deposited by using PECVD method has reached
as thin as 1.8 nm. However, we believe that new technology must be needed to
achieve the thickness of less than 1.0 nm, and the graphene technology must be
one of the promising candidates. We hope strongly that the collaboration with
GRC/NUS accelerates the implementation of the new technology for future high
density HDD,” said Mr Matsuo Sota, Senior Director, Research & Engineering, Fuji
Electric (Malaysia) Sdn. Bhd.
“In today’s technologically-advanced, knowledge economy, there is a growing
demand for higher data storage capacities. This research project between
GRC/NUS and Fuji Electric (Malaysia) Sdn. Bhd. aims to incorporate a new material
– graphene – to meet these requirements. With graphene’s sought-after
properties, such as biocompatibility, high-tensile strength and good conductivity,
NUS has established itself as a leader in graphene research. We welcome
partnering with industry players to explore the various applications of this material
across various sectors, such as biomedical sciences, consumer electronics and
energy storage,” said Ms Irene Cheong, Director NUS Industry Liaison Office.
The NUS Industry Liaison Office, which is part of NUS Enterprise, facilitated this
For more information visit: http://graphene.nus.edu.sg/