CAMBRIDGE, U.K. -- Thomas Swan Scientific Equipment will shortly complete the installation of a 3x2"
CCS GaN MOCVD at Harvard University in the Nanoscience and Nanotechnology
Research Center for the group of Professor Charles Lieber. The CSS MOCVD system
will be used for the growth of a broad range of nitride based nanoscale photonic
and electronic structures.
The Harvard group is a leading R&D exponent in growth, fundamental studies and
applications of nanowires - nanoscale semiconductor wires. The controlled growth
of semiconductor nanowires provides well-defined nanoscale building blocks for
the assembly of nano-devices in a way not possible using conventional processing.
Using this new approach the Lieber group has demonstrated devices ranging from
ultra-high performance nanoscale transistors and integrated logic to the world's
smallest light emitting diodes with emission from UV with GaN to near IR with
InP nanowires, and recently, injection lasers based on single nanowire active
Professor Lieber states:
"We are extremely excited about working with TSSE to bring their state-of-the-art CSS
technology to bear on the exploding field of nanotechnology. The TSSE system should
provide a quantum jump forward in the controlled growth of GaN based nanowires and
next generation nanowire heterostructures, and is thereby expected to enable very
substantial advances ranging from high mobility electronic devices to the assembly of
multi-color UV-VIS nanowire LED and laser arrays."
Dr. Neil Gerrard of TSSE comments:
"TSSE is delighted to be the partner of choice by providing our proven CCS technology
to a worldwide leader in the research and development of nanotechnology.
We are very pleased to have entered a long-term cooperative relationship with the
Lieber Group at Harvard University for the development of nanoscale structures and
devices enabled by the CCS MOCVD system, which is being seen as an essential element
in the future success of both parties."
Thomas Swan Scientific Equipment Ltd.