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Volt Carbon Technologies Announces Record Results of Graphite Purification Tests and Receipt of a 27 Ton Graphite Bulk Sample for Processing

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Volt Carbon Technologies Inc. announces successful graphite purification results with 96.1% purity in graphitic carbon and 98.1% total carbon. The company used its proprietary dry separation techniques on six graphite rock samples sourced from Ontario and Quebec. Volt believes these results demonstrate the potential for further development and a more environmentally conscious approach to battery-grade anodes. Volt also received a 27-ton bulk sample from Green Battery Minerals, marking an operational milestone.
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  • Volt achieved a 96.1% purity in graphitic carbon and 98.1% total carbon through its dry separation techniques.
  • The results demonstrate the potential for further development in graphite purification.
  • The use of dry separation techniques could lead to a more environmentally conscious approach to battery-grade anodes.
  • Volt received a 27-ton bulk sample from Green Battery Minerals, marking an operational milestone.
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Calgary, Alberta--(Newsfile Corp. - August 16, 2023) - Volt Carbon Technologies Inc. (TSXV: VCT) (OTCQB: TORVF) (BE: WNF) ("VCT" or "Volt") is pleased to announce the results of its graphite purification endeavors conducted at the Scarborough, Ontario facility over the initial seven months of 2023.

Key Achievements in Dry Separation
Volt has conducted comprehensive dry separation procedures, using its innovative proprietary techniques, on six distinct graphite rock samples sourced from various third-party graphite deposits in the provinces of Ontario and Quebec. Internal analyses of the processed samples demonstrated a 96.1% purity in graphitic carbon and 98.1% total carbon, more particulars of which are set forth below in Figure 1.

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Figure 1: Results of Thermogravimetric Analysis (TGA) of Volt's graphite concentrate

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https://images.newsfilecorp.com/files/9904/177407_voltcarbonfigure1.jpg

Volt believes the results represent an unprecedented level of graphitic carbon purity and demonstrate that exceptionally high yielding results can be obtained from applying Volt's dry separation techniques to some of the graphite rock samples in Ontario and Quebec. Although further testing and sampling is required to demonstrate feasibility, Volt is optimistic about the opportunities for further development.

Furthermore, the composition of residual ash post-Thermogravimetric Analysis (TGA) underwent internal evaluation using Inductively Coupled Plasma Mass Spectrometry (ICP-MS), revealing minimal traces of remaining elements as set out below in Figure 2. The targeted removal of these trace elements is set for upcoming dry separation trials. The processed materials and results described herein have not been independently verified although Volt plans to have them verified by an independent lab.

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Figure 2: Inductively Coupled Plasma Mass Spectrometry (ICP) results of the ash content

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https://images.newsfilecorp.com/files/9904/177407_voltcarbonmetalsfigure2.jpg

Volt is pleased with these results which it believes is attributed to the innovative advancements it has made to its own process which include the introduction of previously disclosed proprietary dry processing and mechanical separation methods at the Scarborough facility. This led to the improvement to the efficacy of the air classification process. Throughout the initial seven months of the year, Volt dedicated extensive efforts, encompassing more than 200 process iterations, to achieve these results.

A Sustainable and Responsible Path Forward
Volt believes that these test results support the potential replacement of conventional wet processes in the pursuit of battery-grade anodes which could be a more environmentally conscious approach to the commercial deployment of this vital mineral. Subsequent development phases are intended to involve the transformation of graphite concentrates into battery-grade anodes, followed by the creation of anode electrodes at Volt's battery plant in Guelph. This integrated approach from raw graphite bearing mineral deposits to battery utilization underscores Volt's dedication to a comprehensive ecosystem. In preparation for these upcoming stages, Volt has initiated laboratory benchmarking of competitor anodes and expects to develop technical objectives for its next phases of development.

Milestone in Operations
Volt also announces that it has received a 27 ton graphitic bulk sample from Green Battery Minerals ("GEM") at its Scarborough facility, an operational milestone as the largest bulk sample delivery it has received to date. This material was provided as part of the feasibility phase of the Preliminary Mineral Processing Agreement (the "Processing Agreement") disclosed by Volt in its June 5, 2023 news release, where readers may obtain further information regarding the Processing Agreement and the stages of development of the project with GEM. The bulk sample is important to the feasibility phase of the project and the advancement of Volt's dry separation equipment.

Pursuant to the Processing Agreement, GEM is responsible for paying to Volt the processing costs of the bulk sample which were estimated in the Processing Agreement to be $50,000 per ton. To process the bulk sample and earn the revenue to which it is contractually entitled, Volt expects to accelerate its process development and testing capacity. Volt has not determined how long it may take to complete the processing of the bulk sample and at this time expects that it will take several months.

Anticipating the Future
Volt is preparing to scale up its operations, culminating in a demonstration of its production equipment at its facilities around the end of 2024. The organization's strategic plan encompasses fundraising endeavors to reach this milestone, with engineering design for the scaled-up machinery currently underway in-house.

Qualified Person
Christian Derosier, P.Geo., PhD., is the qualified person (QP) as defined in National Instrument 43-101 and acting on behalf of Volt. Dr. Derosier has reviewed and approved the technical content of this news release.

"The inherent mineralogy of the graphite bearing deposit plays a pivotal role in the feasibility of dry separation. Our findings suggest that numerous graphite deposits in Ontario and Quebec lend themselves well to dry processing techniques. These outcomes have the potential to establish a dependable and sustainable source of graphite for the battery industry in North America," affirmed V-Bond Lee, CEO of Volt Carbon Technologies.

About Volt
Volt Carbon Technologies Inc. is a publicly traded carbon science company, with a specific focus on energy storage and green energy innovation. The company holds mining claims in the provinces of Ontario, Quebec, and British Columbia in Canada. For the latest updates on Volt's properties and news, please visit the website www.voltcarbontech.com.

On behalf of the Board of Directors of Volt Carbon Technologies Inc,

V-Bond Lee, P. Eng.
CEO, President, Chairman of the Board and Director

Contacts:
Email: info@voltcarbontech.com
Tel: (647-546-7049)

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'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) the potential for replacing wet processes in developing battery grade anodes with Volt's dry processes; (ii) any benefits to the environment as a result of the commercially deploying Volt's technology; (iii) the development of technical objectives arising from, among other things, laboratory benchmarking of competitor anodes; (iv) Volt's dedication to a comprehensive ecosystem; (v) the acceleration of process development and testing; (vi) the potential sale of graphitic and or bulk samples and resulting profits therefrom; the scale-up and demonstration of its facilities and the timing thereof; (vi) the amount of any future fundraising required by Volt and the timing of such fundraising; (vii) the testing of residual ash; (viii) the performance of any future phases of the Preliminary Mineral Processing Agreement; (ix) the ability to transform graphite concentrates into battery-grade anodes; (x) the amount and opportunity for commercial development of graphite deposits in the Provinces of Ontario and Quebec; and (xi) that it will complete the processing of the 27 tons of graphite deposits and earn or collect any of the revenue associated with such operations. 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 assumes no obligation to update or revise them to reflect new events or circumstances, except as may be required under applicable securities legislation.

To view the source version of this press release, please visit https://www.newsfilecorp.com/release/177407

FAQ

What are the key achievements of Volt's graphite purification endeavors?

Volt achieved a 96.1% purity in graphitic carbon and 98.1% total carbon through its proprietary dry separation techniques.

What are the potential benefits of Volt's dry separation techniques?

The results demonstrate the potential for further development in graphite purification and a more environmentally conscious approach to battery-grade anodes.

What operational milestone did Volt reach?

Volt received a 27-ton bulk sample from Green Battery Minerals, marking an operational milestone.

Who is the qualified person responsible for Volt's technical content?

Christian Derosier, P.Geo., PhD., is the qualified person (QP) as defined in National Instrument 43-101 and acting on behalf of Volt.

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