Introduction to Quantum Materials Corp Anti-c
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Posted On: 12/14/2019 1:21:57 AM
Introduction to Quantum Materials Corp
Anti-counterfeiting and QD Blockchain Technology
http://www.globenewswire.com/news-release/201...dated.html
http://www.globenewswire.com/news-release/201...tform.html
Technological Progress in QD Display, QD Solar Cell and Solid State QD LED Lighting.
Quantum Dot Display Technology
As a phosphor replacement in flat panel displays, PQDs have the potential to provide industry best color gamut picture qualities due to their extremely narrow emission wavelength profile. For comparison, todays industry leading low cadmium or cadmium free QLED displays can only deliver roughly an 80% Rec 2020 coverage while PQDs have the ability to deliver roughly a 98% Rec 2020 coverage (with properties that include: PLQY>95%, FWHM <25 nm and adjustable peak position). As we are approaching the final stage of bringing to market our first commercial level red-green QD infused film component, we see tremendous potential in advancing the performance level of our QD based film components even further with the incorporation of PQD’s to bring the color gamut up to nearly 100% of the new color standard Rec 2020 coverage, which will set a new standard in flat panel display color.
We have innovated a disruptive quantum dot display technology that achieves an industry-leading 95% Rec 2020 color gamut coverage. We have demonstrated our 100% cadmium-free 55 inch QDX™ display to selected customers who have shown strong interest in that display technology which is achieved by utilizing the Company's proprietary quantum dot enhanced film while eliminating the costly barrier film. We are working with display manufacturers, film manufacturers and chemical companies to bring this next-generation technology to market as a superior and lower cost QD-based display solution. In addition, incorporating QDX quantum dot infused films into LCD displays can materially increase color gamut levels, improves viewing angles, increases display brightness levels and lower production cost. One of the most efficient ways to achieve a wide color gamut LCD display is with narrow-band red and green quantum dots deposited directly on an optical film. This film is then backlit using blue phosphor LEDs. We have manufactured red & green quantum dots with extremely narrow FWHM (full width half max) of 16 & 34 nanometers respectively, these infinitesimally small semiconductors with precise emission wavelengths possess uncharacteristically high stability.
https://investorshub.advfn.com/uimage/uploads...dited).png
We have received very encouraging indications of interest from OEM electronics manufacturers that are looking to increase the color rendering capabilities of their displays without adding cadmium and upon reaching this milestone, we believe we are now in a position to partner to commercialize this technology in order to get our QD materials into consumer displays. With the advent of this low cost, high performance offering, we believe we can materially disrupt the industry and create a market condition wherein QD enhanced technology can become a de-facto standard in consumer displays.
In addition to QMC's film based solution for maximizing color gamut in LCD displays, the Company is continuing to optimize it's direct phosphor design variant which places the quantum dot materials directly on to the surface of the LED, further improving color rendering performance and lowering cost. The Company expects to be in a position to announce a working display with this variant of QD design in the near future, giving display OEM's an additional low cost avenue for increasing color gamut without the use of cadmium.
Quantum dot Solar Cell Technology
We have developed a high volume, low cost, continuous flow production process that produces extremely high purity Perovskite Quantum Dots (PQDs) with significantly improved stability at a fraction of the cost of the high purity silicon used in silicon solar cells. Perovskite quantum dots are leading a breakthrough in materials technology, but the commercialization of these materials has been hampered due to inabilities to produce large volumes of these materials at low cost points while still achieving long term reliability. PQDs have many unique properties that make them an ideal material for utilization in applications such as next generation solar cells and displays. For instance, in solar cells perovskites have demonstrated conversion efficiencies of 22.7% which is higher than today’s best dye-sensitized or thin-film technologies (CiGS, CdTe) and can also extend efficiency (up to 1.3x) of silicon PVs when coated as an absorption enhancement layer. High purity PQDs hold the promise to achieve high conversion efficiencies while also solving many of the reliability and stability challenges. QDSC have theoretically maximum potential quantum efficiency (PCE) of 65% compared to a maximum 29% PCE using current silicon module technology.
Next-generation quantum dot solar cell factories will use new thin-film flexographic roll-to-roll printing methods at a fraction of the capital expenditure of same-size silicon panel factories. Advantages of the flexographic method include the ability to potentially increase printing press speeds of up to 600 meters/minute with modern printers, large rolls that can be cut to finished size, low viscosity ink formulations for faster drying and the ability to bond layers of the solar cell together in-line. Production can be scaled-up by increasing the running speed without a large increase in infrastructure costs and is a major factor in lowering the levelized cost of energy over the life of the production system.
Solid State Quantum Dot LED Lighting Technology
We have successfully surpassed the one year anniversary and exceeding 10,000 hour continuous on-time durability test for the Company’s cadmium-free quantum dots in a remote light emitting diode (LED) application. The QD-LEDs were under continuous power at 2.5 Volts DC at 70mA and were measured initially, incrementally and at the 7000 hour mark with no measurable degradation of intensity, peak emission or FWHM, which is the measure for color purity. Passing 10,000 hour mark for continuous on time is a major achievement in proving our quantum dots and our encapsulation technologies can enable QD-LED’s and the wide range of potential QD-LED applications. Through this development effort we have also made significant discoveries that have improved performance of our electroluminescent quantum dot materials, paving the way for next generation display and lighting applications. Our team continues to demonstrate the extraordinary accelerated discovery that can be accomplished using our patented continuous flow process. This patented technologies in the hands of our brilliant scientist keep Quantum Materials on the forefront of nanomaterial implementation and discovery.
Plan of Operation
Page 17 of https://www.sec.gov/Archives/edgar/data/14035...rm10-k.htm
We currently operate from a leased facility in San Marcos, Texas at the STAR Park Technology Center, an extension of Texas State University (the “San Marcos Facility”). This location provides us with convenient access to university faculty and specialized laboratory facilities that can support joint research and development efforts with Texas State University. Located approximately 30 miles south of Austin, Texas, this location is also in close proximity to a number of leading companies in the electronics, lighting, solar, and life sciences markets. We intend to relocate the operations to a larger facility capable of accommodating the manufacturing of QD processing equipment once sustained revenues are achieved.
The Company has established commercial-scale manufacturing equipment at the San Marcos facility and now through process optimizations has the capacity to produce more than four metric tons (4,000kg) per year of quantum dots and other nanomaterials for supply to its customers. Management believes that the production capacity of the San Marcos facility is similar to, or greater than its largest competitors’ operating factories which are much larger and required significantly higher capital expenditures. This efficiency is the direct result of our patented continuous flow process and proprietary manufacturing knowhow and equipment. While we plan to work extensively with its current provider of equipment, we own all rights to the designs and intellectual property resulting from the development process and could contract with one or more other competent suppliers of equipment, if necessary.
Vision for the future
Stephen Squires (March 19 PR): "Our partnership with Amtronics CC is an important step in expanding the value of the QMC franchise globally ".
Company website
https://www.quantummaterialscorp.com/
Press Release
http://www.globenewswire.com/Search?organizat...als%20Corp
Quantum Materials Corp - Blog
https://www.quantummaterialscorp.com/blog/con...blockchain
November 19, 2019 Webinar
https://www.youtube.com/watch?v=GgC09TGNbe4
Quantum dots - What is it and what is its applications
https://www.youtube.com/results?search_query=...p=CAM%253D
Anti-counterfeiting and QD Blockchain Technology
http://www.globenewswire.com/news-release/201...dated.html
http://www.globenewswire.com/news-release/201...tform.html
Technological Progress in QD Display, QD Solar Cell and Solid State QD LED Lighting.
Quantum Dot Display Technology
As a phosphor replacement in flat panel displays, PQDs have the potential to provide industry best color gamut picture qualities due to their extremely narrow emission wavelength profile. For comparison, todays industry leading low cadmium or cadmium free QLED displays can only deliver roughly an 80% Rec 2020 coverage while PQDs have the ability to deliver roughly a 98% Rec 2020 coverage (with properties that include: PLQY>95%, FWHM <25 nm and adjustable peak position). As we are approaching the final stage of bringing to market our first commercial level red-green QD infused film component, we see tremendous potential in advancing the performance level of our QD based film components even further with the incorporation of PQD’s to bring the color gamut up to nearly 100% of the new color standard Rec 2020 coverage, which will set a new standard in flat panel display color.
We have innovated a disruptive quantum dot display technology that achieves an industry-leading 95% Rec 2020 color gamut coverage. We have demonstrated our 100% cadmium-free 55 inch QDX™ display to selected customers who have shown strong interest in that display technology which is achieved by utilizing the Company's proprietary quantum dot enhanced film while eliminating the costly barrier film. We are working with display manufacturers, film manufacturers and chemical companies to bring this next-generation technology to market as a superior and lower cost QD-based display solution. In addition, incorporating QDX quantum dot infused films into LCD displays can materially increase color gamut levels, improves viewing angles, increases display brightness levels and lower production cost. One of the most efficient ways to achieve a wide color gamut LCD display is with narrow-band red and green quantum dots deposited directly on an optical film. This film is then backlit using blue phosphor LEDs. We have manufactured red & green quantum dots with extremely narrow FWHM (full width half max) of 16 & 34 nanometers respectively, these infinitesimally small semiconductors with precise emission wavelengths possess uncharacteristically high stability.
https://investorshub.advfn.com/uimage/uploads...dited).png
We have received very encouraging indications of interest from OEM electronics manufacturers that are looking to increase the color rendering capabilities of their displays without adding cadmium and upon reaching this milestone, we believe we are now in a position to partner to commercialize this technology in order to get our QD materials into consumer displays. With the advent of this low cost, high performance offering, we believe we can materially disrupt the industry and create a market condition wherein QD enhanced technology can become a de-facto standard in consumer displays.
In addition to QMC's film based solution for maximizing color gamut in LCD displays, the Company is continuing to optimize it's direct phosphor design variant which places the quantum dot materials directly on to the surface of the LED, further improving color rendering performance and lowering cost. The Company expects to be in a position to announce a working display with this variant of QD design in the near future, giving display OEM's an additional low cost avenue for increasing color gamut without the use of cadmium.
Quantum dot Solar Cell Technology
We have developed a high volume, low cost, continuous flow production process that produces extremely high purity Perovskite Quantum Dots (PQDs) with significantly improved stability at a fraction of the cost of the high purity silicon used in silicon solar cells. Perovskite quantum dots are leading a breakthrough in materials technology, but the commercialization of these materials has been hampered due to inabilities to produce large volumes of these materials at low cost points while still achieving long term reliability. PQDs have many unique properties that make them an ideal material for utilization in applications such as next generation solar cells and displays. For instance, in solar cells perovskites have demonstrated conversion efficiencies of 22.7% which is higher than today’s best dye-sensitized or thin-film technologies (CiGS, CdTe) and can also extend efficiency (up to 1.3x) of silicon PVs when coated as an absorption enhancement layer. High purity PQDs hold the promise to achieve high conversion efficiencies while also solving many of the reliability and stability challenges. QDSC have theoretically maximum potential quantum efficiency (PCE) of 65% compared to a maximum 29% PCE using current silicon module technology.
Next-generation quantum dot solar cell factories will use new thin-film flexographic roll-to-roll printing methods at a fraction of the capital expenditure of same-size silicon panel factories. Advantages of the flexographic method include the ability to potentially increase printing press speeds of up to 600 meters/minute with modern printers, large rolls that can be cut to finished size, low viscosity ink formulations for faster drying and the ability to bond layers of the solar cell together in-line. Production can be scaled-up by increasing the running speed without a large increase in infrastructure costs and is a major factor in lowering the levelized cost of energy over the life of the production system.
Solid State Quantum Dot LED Lighting Technology
We have successfully surpassed the one year anniversary and exceeding 10,000 hour continuous on-time durability test for the Company’s cadmium-free quantum dots in a remote light emitting diode (LED) application. The QD-LEDs were under continuous power at 2.5 Volts DC at 70mA and were measured initially, incrementally and at the 7000 hour mark with no measurable degradation of intensity, peak emission or FWHM, which is the measure for color purity. Passing 10,000 hour mark for continuous on time is a major achievement in proving our quantum dots and our encapsulation technologies can enable QD-LED’s and the wide range of potential QD-LED applications. Through this development effort we have also made significant discoveries that have improved performance of our electroluminescent quantum dot materials, paving the way for next generation display and lighting applications. Our team continues to demonstrate the extraordinary accelerated discovery that can be accomplished using our patented continuous flow process. This patented technologies in the hands of our brilliant scientist keep Quantum Materials on the forefront of nanomaterial implementation and discovery.
Plan of Operation
Page 17 of https://www.sec.gov/Archives/edgar/data/14035...rm10-k.htm
We currently operate from a leased facility in San Marcos, Texas at the STAR Park Technology Center, an extension of Texas State University (the “San Marcos Facility”). This location provides us with convenient access to university faculty and specialized laboratory facilities that can support joint research and development efforts with Texas State University. Located approximately 30 miles south of Austin, Texas, this location is also in close proximity to a number of leading companies in the electronics, lighting, solar, and life sciences markets. We intend to relocate the operations to a larger facility capable of accommodating the manufacturing of QD processing equipment once sustained revenues are achieved.
The Company has established commercial-scale manufacturing equipment at the San Marcos facility and now through process optimizations has the capacity to produce more than four metric tons (4,000kg) per year of quantum dots and other nanomaterials for supply to its customers. Management believes that the production capacity of the San Marcos facility is similar to, or greater than its largest competitors’ operating factories which are much larger and required significantly higher capital expenditures. This efficiency is the direct result of our patented continuous flow process and proprietary manufacturing knowhow and equipment. While we plan to work extensively with its current provider of equipment, we own all rights to the designs and intellectual property resulting from the development process and could contract with one or more other competent suppliers of equipment, if necessary.
Vision for the future
Stephen Squires (March 19 PR): "Our partnership with Amtronics CC is an important step in expanding the value of the QMC franchise globally ".
Company website
https://www.quantummaterialscorp.com/
Press Release
http://www.globenewswire.com/Search?organizat...als%20Corp
Quantum Materials Corp - Blog
https://www.quantummaterialscorp.com/blog/con...blockchain
November 19, 2019 Webinar
https://www.youtube.com/watch?v=GgC09TGNbe4
Quantum dots - What is it and what is its applications
https://www.youtube.com/results?search_query=...p=CAM%253D
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