Vancouver British Columbia--(Newsfile Corp. - March 9, 2017) - Dr. Stephen Campbell, Principal Scientist at Nano One Materials
(TSXV: NNO) (FSE: LBMB) (OTC Pink: NNOMF), today announced a collaboration with Simon Fraser University that will advance the
understanding of the physical and chemical characteristics of lithium ion batteries as they charge and discharge.
"This project will help us characterize how battery materials change over time," said Dr.
Campbell. "We will be in a better position to explain performance improvements in our cathode formulations and
this will help us optimize process parameters and develop new materials."
The two-year collaboration with SFU will be supervised by Associate Professor Dr. Byron Gates and Dr. Campbell, with financial
support from the Mitacs Elevate Postdoctoral Fellowship Program.
"My team will be developing new analytical techniques to characterize lithium ion battery materials
while they charge and discharge," said Dr. Gates. "This will advance the field, not only in the battery space, but also
for related technologies to improve our understanding of these materials and their performance. Nano One will be closely
involved and will be able to utilize this knowledge and the newly developed techniques to guide their own developments of
new materials for lithium ion batteries."
"Dr. Gates has been serving as a key advisor to Nano One," explained Dr. Campbell, "and I am
proud to be taking our working relationship to a new level with this project."
Nano One Materials Corp.
Dan Blondal, CEO
For information with respect to Nano One or the contents of this news release, please contact John Lando (President) at (604)
669-2701 or visit the website at www.nanoone.ca.
About Nano One
Nano One Materials Corp ("Nano One" or "the Company") is developing patented technology for the low-cost production of high
performance battery materials used in electric vehicles, energy storage and consumer electronics. The processing technology
addresses fundamental supply chain constraints by enabling wider raw materials specifications for use in lithium ion batteries. The
process can be configured for a range of different nanostructured materials and has the flexibility to shift with emerging and
future battery market trends and a diverse range of other growth opportunities. The novel three-stage process uses equipment common
to industry and Nano One is building a pilot plant to demonstrate high volume production. Nano One's mission is to establish its
patented technology as a leading platform for the global production of a new generation of nanostructured composite materials. For
more information, please visit www.nanoone.ca.
About Dr. Gates
Dr. Byron Gates is an associate professor in the
Department of Chemistry, head of the Centre for Soft Materials, and was a Tier II Canada Research Chair for ten years. He currently
serves to advise Nano One Materials Corp., a Canadian technology company working on scalable processes for high performance battery
materials on new chemical processes. His own research efforts include developing new pathways to prepare nanomaterials, as well as
performing analytical studies on the surface chemistries of nanostructured materials. Gates has also demonstrated new platforms to
evaluate the efficiency of materials for clean energy technologies that are being used to guide further improvements in the design
of these materials. He was a postdoctoral fellow at Harvard University with professor George Whitesides and received his M.Sc. and
Ph.D. from the University of Washington with professor Younan Xia. http://www.sfu.ca/chemistry/gates/
About Mitacs
Mitacs is a national, not-for-profit organization that has designed and delivered research and training programs in Canada for
17 years. Working with 60 universities, thousands of companies, and both federal and provincial governments, Mitacs builds
partnerships that support industrial and social innovation in Canada. Mitacs' research internship program connects graduate
students with industry and not-for-profit partners for collaborations supervised by faculty. Open to all disciplines and all
industry sectors, projects can span a wide range of areas, including manufacturing, business processes, IT, design, and more.
Mitacs acknowledges the Government of Canada, along with Alberta Innovates, the Government of British Columbia, Research
Manitoba, the Government of New Brunswick, the Research & Development Corporation of Newfoundland and Labrador, the Government
of Nova Scotia, the Government of Prince Edward Island, the Government of Quebec, and the Government of Saskatchewan for
their support. www.mitacs.ca
Certain information contained herein may constitute "forward-looking information" under Canadian securities legislation.
Forward-looking information includes, but is not limited to, statements with respect to the actual receipt of the grant monies, the
execution of the Company's plans which are contingent on the receipt of such monies and the commercialization of the Company's
technology and patents. Generally, forward-looking information can be identified by the use of forward-looking terminology such as
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those contained in forward-looking statements or forward-looking information, there may be other factors that cause results not to
be as anticipated, estimated or intended. There can be no assurance that such statements will prove to be accurate, as actual
results and future events could differ materially from those anticipated in such statements. Accordingly, readers should not place
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forward-looking statements or forward-looking information that is incorporated by reference herein, except as required by
applicable securities laws.
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