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Quantum Materials provides eight-fold boost to QD production capacity

Quantum Materials provides eight-fold boost to QD production capacity

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By eeNews Europe



The new continuous-flow process equipment will increase production capacity by 2,000 kilograms and fits within a wet lab at the company’s headquarters in San Marcos, Texas, USA. Quantum Materials’ patented continuous flow process does not require the massive and costly factory construction used by competitors to scale production and also allows the company to locate production facilities at or near large-scale customers’ production sites, simplifying their supply chain management and eliminating the logistical challenges of shipping sensitive materials across borders.

David Doderer, Quantum Materials Vice President for Research and Development explained: "The system’s early delivery demonstrates our ability to both quickly replicate our process and also scale production to meet the new industrial demand currently exploding in the HD television and display sector.  We note that as quantum dots offer new levels of performance, adoption by manufacturers has historically been tempered by concerns of sufficient, stable supply. A few years ago I wrote an article predicting that a small-capital-expense flow system could be built to produce 30,000 kilograms of quantum dots per year for high capacity solar projects. The delivery of this new automated system shows we are rapidly progressing on that path for multiple industries. We believe quantum dots will become the industry standard for 4K and 8K Ultra-High Definition (UHD) Displays and that Quantum Materials will be a large part of that growth."

Quantum Materials Corp CEO Stephen Squires added: "The numerous competitive advantages extend beyond our production quantity and quality. Our multiple flow systems not only increase our production capacity to compete with the largest quantum dot manufacturers, but provide agility in producing a wide range of Group II-VI and Group

III-V quantum dots, whether composed of high-performing-low-use cadmium sources or cadmium-free, temperature stable QDs, metal oxides and other nanoparticles. This
inherent flexibility expedites partner and client custom designs that require application-specific nanomaterials. In addition to the display market, which has the most press coverage at the moment, there are a number of quantum dot applications that are beginning commercialization due to the automated mass-production and economies of scale Quantum Materials can provide. For example, we are dedicating a program for mass-production of industry-specific uniform nano-size catalysts for the automotive and broader combustion-related industries."

"Our rapid development and recent shipping of Cadmium-free quantum dots is the first step to help manufacturers comply with RoHS restrictions on the use of Cadmium in electronic devices before the exemption deadline. We are adding state-of-the-art research equipment and quadrupling lab space and scientific staffing to meet the needs of the LCD display, LED solid-state lighting, solar and biotech manufacturing industries," concluded Squires.

Related articles and links:
 
www.QMCDOTS.com

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