NanoDynamics announced Monday that it has signed a joint venture agreement with New Zealand-based technology company, Nano Cluster Devices (NCD). NanoDynamics will be working to commercialize NCD's technology process for self-assembly of nanowires in production of semiconductors and electronic components.

Under the agreement, NanoDynamics will be responsible for sales and application development, as the Company targets semiconductor companies, consumer applications, aerospace, biotech and industrial manufacturers. NCD will be responsible for the further advancement of the technology platform.

"Over the past two years, NanoDynamics has successfully identified a number of exciting nanotechnologies, each possessing significant commercial potential," said, Keith Blakely, CEO of NanoDynamics.

"As part of our corporate strategy, NanoDynamics is building an intellectual property portfolio able to provide significant product and technology value to a wide range of customers and partners."

"Through our own discovery and invention process, along with technology acquisitions and partnerships, we are expanding our technology and product offerings to the electronics, semiconductor, energy, biomedical, transportation, and other markets."

"Our management team has a long and successful track record launching commercial products from new technologies, particularly in the area of advanced materials, and we anticipate the Company will achieve significant market penetration in 2005."

NCD, in conjunction with the University of Canterbury, has developed a novel technology platform to produce electrically conducting nanowires through the deposition of atomic clusters onto lithographically prepared templates.

The NCD technology produces small, well-controlled linear structures with different functionalities on a range of substrates.

The key feature of NCD's technology is that it is essentially a self-assembly process, which means that slow manipulation of nano-sized building blocks, which is often unavoidable in many other nanotechnologies, is completely avoided.

The nanowires produced are smaller in size, and more economical to apply due to their controlled placement and use of existing semiconductor processes. The methodology can be utilized across a wide range of applications including: