Volt Carbon Technologies Launches Battery Testing with Exclusive Dry-Separated Graphite Sourced from GEM's Property and Releases Preliminary Test Data
Volt Carbon Technologies Inc. (TSXV: VCT) (OTCQB: TORVF) is pleased to announce the commencement of battery anode development using graphite refined from Green Battery Minerals (TSXV: GEM) (FSE: BK2P) (WKN: A2QENP) (OTCQB: GBMIF) Berkwood property, accompanied by the release of initial test results affirming the high-grade graphite's suitability for lithium-ion batteries.
12/11/2023 - 08:53 AM
Calgary, Alberta--(Newsfile Corp. - December 11, 2023) - Volt Carbon Technologies Inc. (TSXV: VCT) (OTCQB: TORVF) ("Volt Carbon" or the "Company") is pleased to announce the commencement of battery anode development using graphite refined from Green Battery Minerals (TSXV: GEM) (FSE: BK2P) (WKN: A2QENP) (OTCQB: GBMIF) Berkwood property, accompanied by the release of initial test results affirming the high-grade graphite's suitability for lithium-ion batteries.
Highlights
Utilizing the super jumbo flake graphite concentrate derived from rock samples provided by GEM to Volt in July 2023, Volt's Scarborough facility successfully executed a dry separation process, yielding a record-high total carbon content of 98.4% , as announced on August 15, 2023. Under the guidance of Dr. Aiping Yu, Volt's newest Board Member and University of Waterloo Professor, the graphite underwent a straightforward mechanical reduction process to achieve battery-grade anode sizes without the need for additional purification treatment.
Dr. Yu's team extensively characterized the graphite using techniques such as x-ray diffraction (XRD), Inductively Coupled Plasma Mass Spectrometry (ICP-MS), and scanning electron microscopes (SEM), confirming its suitability for further battery anode development. This involved coin cell fabrication through a straightforward micronization process applied to the flake graphite concentrate.
Subsequently, coin cells were manufactured alongside benchmarked samples of commercially available graphite anodes and are currently undergoing cycle testing at both Solid Ultrabattery's and the University of Waterloo's labs. Initial coin cell testing revealed a capacity of 344mAh/g, achieved without any chemical processes and under entirely dry handling conditions and without spheroidization and carbon coating. This highlights the efficacy of the mechanical reduction process and underscores the promising potential of sustainable dry-separated graphite for battery applications. With further process adjustments, the company aims to achieve results exceeding 360 mAh/g in the upcoming quarter.
The XRD and Raman shift plots below show the similarities of GEM's natural graphite structure against commercial battery grade anodes. The integrity of the graphite structure is evaluated by the ID/IG ratio of the samples. All of GEM's samples showed approximately the same ratio as the commercial anode.
Figure 1: displays X-ray Diffraction (XRD) results, provided by the University of Waterloo, demonstrating the similarities between GEM's graphite benchmarked against commercially available battery anode.
To view an enhanced version of this graphic, please visit:https://images.newsfilecorp.com/files/9904/190524_a11ecab8b46019dc_001full.jpg
Figure 2: Raman Shift results post-micronization, courtesy of the University of Waterloo, revealing the similarities between GEM's graphite benchmarked against commercially available battery anode.
To view an enhanced version of this graphic, please visit:https://images.newsfilecorp.com/files/9904/190524_a11ecab8b46019dc_002full.jpg
These outcomes mark the initial stride in optimizing GEM's graphite for lithium-ion batteries, reinforcing Volt Carbon's commitment to advancing battery technologies, as explicitly stated in our July 24, 2023, press release. Volt Carbon remains dedicated to refining dry processes for converting GEM's materials into battery-grade anodes, maximizing value with our mineral processing agreement with GEM while driving significant technical progress in the North American battery materials supply chain.
"The constraints on graphite trade in North America have spurred our determination to innovate and develop resources sustainably and cost-effectively within the region. We have determined through testing that high-grade graphite mineral deposits provides significant advantages, making the processing to graphite concentrate and anodes much simpler compared to low-grade deposits. We're on the brink of a great opportunity, and I'm eagerly looking forward to the upcoming results from our highly qualified technical teams." - V-Bond Lee, CEO of Volt Carbon Technologies.
About Volt Carbon Technologies
Volt Carbon is a publicly traded carbon science company, with specific interests in energy storage and green energy creation, with holdings in mining claims in the provinces of Ontario, Quebec and British Columbia in Canada. For the latest information on Volt Carbon's properties and news please refer to the website www.voltcarbontech.com.
On behalf of the Board of Directors
Volt Carbon Technologies Inc. V-Bond Lee, P. Eng.
Information Contact :info@voltcarbontech.com
Neither 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.
FORWARD-LOOKING STATEMENTS: This press release contains forward-looking statements, within the meaning of applicable securities legislation, concerning Volt Carbon's business and affairs. In certain cases, forward-looking statements can be identified by the use of words such as ''plans'', ''expects'' or ''does not expect'', "intends" ''budget'', ''scheduled'', ''estimates'', "forecasts'', ''intends'', ''anticipates'' or variations of such words and phrases or state that certain actions, events or results ''may'', ''could'', ''would'', ''might'' or ''will be taken'', ''occur'' or ''be achieved''. Such forward-looking statements include those with respect to: (i) management's belief that the patent filing will result in a patent grant. (ii) the expectation that the technology will gain market acceptance (iii) the expectation that the air classifier will result in disruptive commercialization of a product. Statements of past performance should not be construed as an indication of future performance. Forward-looking statements involve significant risks and uncertainties, should not be read as guarantees of future performance or results, and will not necessarily be accurate indications of whether or not such results will be achieved. A number of factors, including those discussed above, could cause actual results to differ materially from the results discussed in the forward-looking statements. Any such forward-looking statements are expressly qualified in their entirety by this cautionary statement. All of the forward-looking statements made in this press release are qualified by these cautionary statements. Readers are cautioned not to place undue reliance on such forward-looking statements. Forward-looking information is provided as of the date of this press release, and Volt Carbon assumes no obligation to update or revise them to reflect new events or circumstances, except as may be required under applicable securities legislation.
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What is Volt Carbon Technologies Inc.'s ticker symbol?
Volt Carbon Technologies Inc.'s ticker symbol is VCT on the TSXV and TORVF on the OTCQB.
What is the latest development announced by Volt Carbon Technologies Inc.?
Volt Carbon Technologies Inc. has announced the commencement of battery anode development using graphite refined from Green Battery Minerals (TSXV: GEM) (FSE: BK2P) (WKN: A2QENP) (OTCQB: GBMIF) Berkwood property, accompanied by the release of initial test results affirming the high-grade graphite's suitability for lithium-ion batteries.
Who is the CEO of Volt Carbon Technologies Inc.?
V-Bond Lee is the CEO of Volt Carbon Technologies Inc.
What is the capacity of the initial coin cell testing?
The initial coin cell testing revealed a capacity of 344mAh/g, achieved without any chemical processes and under entirely dry handling conditions and without spheroidization and carbon coating.
What is the aim of Volt Carbon Technologies Inc. in the upcoming quarter?
Volt Carbon Technologies Inc. aims to achieve results exceeding 360 mAh/g in the upcoming quarter with further process adjustments.
