Research on Nanodiamond Materials
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Microwave plasma chemical vapor deposition chamber shown in action growing ultrananocrystalline diamond
films at Argonne's Center for Nanoscale Materials. |
In a recent special issue of Chemical Vapor Deposition devoted to nanodiamonds, editors Amanda
Barnard and Oliver Williams note that "the diversity of nanocarbon structures and allotropes has led to a plethora of growth
techniques and unique properties, and has opened the door to a number of exciting applications."
An invited review article by Anirudha V. Sumant (CNM) and James Butler (Naval Research Laboratory) shows how nanocrystalline
diamond is a designer material that can be tailored to specific applications. Materials that grow by using a suppression
of renucleation, similar to conventional diamond growth, are distinguished from materials grown by using intentional enhancement
of renucleation processes. These specially designed nanodiamond materials find use in X-ray windows and lithography, micro- and
nanomechanical and optical resonators, tribological shaft seals and AFM probes, electron field emitters, platforms for chemical
and DNA sensing, to name a few applications.
The CNM offers a Lamda Technologies microwave plasma chemical vapor deposition system in its user program for the growth of
ultrananocrystalline diamond films.
Further reading: "The CVD of Nanodiamond Materials," J.E. Butler and A.V. Sumant, Chem. Vap. Deposition, 14,
145–160
(2008) (online).
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