Received by email:

File: 2018-03-08 New Vanadium innovation.docx

                                               

NEW VANADIUM INNOVATION FOR ENERGY SAVING
"SMART GLASS" DEFIES CONVENTIONAL SCIENCE

New method of applying vanadium dioxide coatings directly to surfaces such as windows, creates "smart glass" that natu
--->rally regulates temperature without the need for electricity

Solutions to our energy crisis do not only come from renewables; smarter innovation that eliminates energy waste is vi
--->tal for a sustainable future

VANADIUMCORP RESOURCE INC. March 8th, 2018, VanadiumCorp Resource Inc. (TSX-V: "VRB") is pleased to announce the new i
--->nnovation of energy saving "smart glass" made possible with vanadium. 
Adriaan Bakker, CEO of VanadiumCorp comments, "Vanadium defies Wiedemann-Franz Law. The law states that good conductor
--->s of electricity are also good conductors of heat. That is not the case for metallic vanadium dioxide. This unusual ab
--->ility can be used to dissipate the heat in engines, computers, robotics, energy storage and more. Smart windows and en
--->ergy storage are examples of the glaring need to address the global short supply of vanadium only possible with more e
--->fficient and sustainable methods of production."
Last year, researchers at DOE and Berkley in the US discovered that the thermal conductivity attributed to vanadium el
--->ectrons is ten times smaller than what would be expected from the Wiedemann-Franz Law.  Vanadium dioxide acts as an in
--->sulator, helping to keep indoor heat from escaping through the window glass and still allows the full spectrum of sunl
--->ight to enter from the outside. At higher surface temperatures, however, it transforms into a metal that blocks heat-c
--->ausing infrared solar radiation from entering.
The following research is described in a paper that was recently published in the journal Scientific Reports - Nature.
Unlike previous "smart glass" windows that require electricity to operate, scientists from Australia's Royal Melbourne
---> Institute of Technology University have developed a coating that allows existing glass to become smart without electr
--->icity. Previously, in order to apply vanadium dioxide coatings, specialized layers - or platforms - had to be created 
--->on the surface. The RMIT team, however, has developed a method of applying the coatings directly to surfaces such as w
--->indow glass, without the need for platforms. It is now hoped that the system can be commercialized as soon as possible
--->.
According to Madhu Bhaskaran, a leading scientist at the RMIT, the breakthrough could help meet future energy needs an
--->d create temperature-responsive buildings. "We are making it possible to manufacture smart windows that block heat dur
--->ing summer and retain heat inside when the weather cools," she said. "Our technology will potentially cut the rising c
--->osts of air-conditioning and heating, as well as dramatically reduce the carbon footprint of buildings of all sizes."
"Solutions to our energy crisis do not come only from using renewables; smarter technology that eliminates energy wast
--->e is absolutely vital." says Mr. Bhaskaran. 
Composed of relatively inexpensive vanadium dioxide, the self-regulating coating is just 50-150 nanometers thick which
---> is approximately 1,000 times thinner than a human hair.
Developments by University College London (UCL) with support from EPSRC, prototype samples confirm that vanadium dioxi
--->de "smart glass" can deliver three key benefits:
Self-cleaning: The window is ultra-resistant to water, so rain hitting the outside forms spherical droplets that roll 
--->easily over the surface - picking up dirt, dust and other contaminants and carrying them away. This is due to the penc
--->il-like, conical design of nanostructures engraved onto the glass, trapping air and ensuring only a tiny amount of wat
--->er comes into contact with the surface. This is different from normal glass, where raindrops cling to the surface, sli
--->de down more slowly and leave marks behind.
Energy-saving: The glass is coated with a very thin (5-10nm) film of vanadium dioxide which during cold periods stops 
--->thermal radiation escaping and so prevents heat loss; during hot periods it prevents infrared radiation from the sun e
--->ntering the building. Vanadium dioxide is a cheap and abundant material, combining with the thinness of the coating to
---> offer real cost and sustainability advantages over silver/gold-based and other coatings used by current energy-saving
---> windows.
Anti-glare: The design of the nanostructures also gives the windows the same anti-reflective properties found in the e
--->yes of moths and other creatures that have evolved to hide from predators. It cuts the amount of light reflected inter
--->nally in a room to less than 5 per cent - compared with the 20-30 per cent achieved by other prototype vanadium dioxid
--->e coated, energy-saving windows - with this reduction in 'glare' providing a big boost to occupant comfort.
Vanadium dioxide-coated "smart windows" are also being developed by scientists around the world  Melbourne Institute of Technology
University College London 
School of Materials Science and Engineering, Nanyang Technological University
Department of Electro-Optical Engineering, Ben-Gurion University of the Negev
Institute of Chemistry and center for nanoscience and nanotechnology, Faculty of Science, The Hebrew University
Optical Society of America
Chinese Academy of Science
US Department of Energy 
Lawrence Berkeley National Laboratory

About VanadiumCorp - The energy of tomorrow will be radically different than the past. Innovation will prove essential
---> to meeting the world's growing energy needs sustainably. Vanadium electrolyte is the key to sustainable energy storag
--->e and the wide-spread deployment of renewable energy. VanadiumCorp-Electrochem Process Technology is the world's first
---> environmentally sustainable, high yield, high efficiency process for recovering vanadium from virtually any vanadium 
--->bearing source including waste - the key to energy storage, renewables, and a sustainable energy future. VanadiumCorp 
--->and Electrochem are changing the way the vanadium, titanium and iron is made to support a sustainable energy future. V
--->anadiumCorp owns 100% of a significant vanadium-titanium-iron resource base in Quebec, Canada. 

FOR MORE INFORMATION, CONTACT: 
Adriaan Bakker, President and Chief Executive Officer - Direct: 604-385-4485 
Neither the TSX Venture Exchange nor its Regulation Services Provider (as that term is defined in the policies of the 
--->TSX Venture Exchange) accepts responsibility for the adequacy or accuracy of this release.