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NEO Battery Materials Unveils Breakthrough Silicon Battery Capacity, Expanding to Space Industry With Solid-State Batteries

NEO Battery Materials Unveils Breakthrough Silicon Battery Capacity, Expanding to Space Industry With Solid-State Batteries

小蟻電池材料推出突破性硅電池容量,擴展到行業板塊並推出固態電池。
GlobeNewswire ·  01/07 14:30
  • New High-Performance Silicon Anode Product Line: NBMSiDE P-300
    • Breakthrough 43% to 130% Improvement in Initial Battery Capacity Compared to Traditional Graphite Anodes with Less Material Used
    • Under Optimization for Pilot Production and Implementation in Full Cells
  • Submitted Patent Application to Protect P-300 Manufacturing Know-How
  • Expanding Downstream Focus to Space & eVTOL Industries through High Compatibility with Solid-State Batteries
  • 全新高性能硅陽極產品線:NBMSide P-300
    • 與使用較少材料的傳統石墨陽極相比,初始電池容量突破性提高了43%至130%
    • 正在優化全電池中試生產和實施
  • 已提交專利申請以保護 P-300 製造專有技術
  • 通過與固態電池的高兼容性,將下游重點擴展到太空和 eVTOL 行業

TORONTO, Jan. 07, 2025 (GLOBE NEWSWIRE) -- NEO Battery Materials Ltd. (TSXV: NBM) (OTC: NBMFF), a low-cost silicon anode materials developer that enables longer-running, rapid-charging lithium-ion batteries, is pleased to announce the launch of an advanced high-performance silicon anode product called NBMSiDE P-300 with breakthrough battery capacity. Alongside its core focus on electric vehicles and electronics, NEO is expanding its strategic downstream focus to the space and eVTOL industries through solid-state batteries.

多倫多,2025年1月7日(GLOBE NEWSWIRE)——支持運行時間更長、可快速充電的鋰離子電池的低成本硅陽極材料開發商NEO Battery Materials Ltd.(多倫多證券交易所股票代碼:NBMFF)欣然宣佈推出一款名爲NBMSide P-300 的先進高性能硅陽極產品,其電池容量突破。除了對電動汽車和電子產品的核心關注外,NEO還通過固態電池將其戰略下游重點擴展到太空和eVTOL行業。

The Advent of P-300: Moving Towards Commercialization with Graphite Anode Blends

P-300 的問世:使用石墨陽極混合物走向商業化

On August 13, 2024, NEO announced coating technology innovations that improved battery cycling performance and Coulombic efficiency1. After passing stringent validation tests and exceeding performance thresholds, NEO Battery is delighted to introduce the most advanced silicon anode product called NBMSiDE P-300.

2024 年 8 月 13 日,NEO 宣佈了塗層技術創新,旨在提高電池循環性能和庫侖比效率1。在通過了嚴格的驗證測試並超過了性能閾值之後,NEO Battery很高興推出名爲NBMSide P-300 的最先進的硅陽極產品。

Using P-300 products, NEO further achieved a technological milestone of manufacturing silicon-graphite composite (mixed) anodes with industry-leading battery capacity results. Initial P-300 silicon-graphite anodes demonstrate a 500 mAh/g capacity by adding under 7% of silicon. This represents a 43% higher initial capacity than traditional graphite anodes, additionally saving 50% of materials compared to competitors' silicon anodes.

使用 P-300 產品,NEO 進一步實現了製造硅石墨複合材料(混合)陽極的技術里程碑,其電池容量結果處於行業領先地位。最初的 P-300 硅石墨陽極通過添加不到 7% 的硅而表現出 500 mAh/g 的容量。這意味着初始容量比傳統石墨陽極高43%,與競爭對手的硅陽極相比,還節省了50%的材料。

Furthermore, P-300 exhibits good compatibility with graphite and an uncomplicated silicon-graphite ratio control. Hence, P-300 silicon-graphite anodes can easily achieve an 800 mAh/g capacity – a 130% higher initial capacity than graphite anodes. These results signal that P-300 is a strongly favourable candidate for commercial graphite anodes in large cell formats. NBMSiDE P-300 is now under the optimization process for pilot production and implementation within full cell2 designs and tests.

此外,P-300 與石墨表現出良好的兼容性,並且具有簡單的硅石墨比率控制。因此,P-300 硅石墨陽極可以輕鬆實現 800 mAh/g 的容量,初始容量比石墨陽極高 130%。這些結果表明,P-300 非常適合大型電池格式的商用石墨陽極。NBMSide P-300 目前正處於優化過程中,用於在完整的 cell2 設計和測試中進行試生產和實施。

To protect the proprietary manufacturing know-how, NEO has submitted the related patent application to the Korean Intellectual Property Office (KIPO). Enhanced concepts for engineering silicon particle size through the utilization of key additives during the milling process comprise the core content of the applied patent.

爲了保護專有製造技術,NEO已向韓國知識產權局(KIPO)提交了相關的專利申請。通過在研磨過程中使用關鍵添加劑來設計硅顆粒大小的增強概念構成了申請專利的核心內容。

Expanding Focus to Solid-State Batteries for Space and eVTOL Industries

將重點擴展到太空和 eVTOL 行業的固態電池

Recent advancements in NBMSiDE P-300 reinforce that NEO's products are highly applicable and necessary for solid-state batteries. Solid-state batteries are recognized as the most practical battery systems for the space and electric vertical take-off and landing (eVTOL) industries due to thermal stability with a wide operating temperature range, non-flammable safety, and high energy density.

NBMSide P-300 的最新進展進一步證實了 NEO 的產品高度適用,是固態電池所必需的。固態電池被認爲是太空和電動垂直起降(eVTOL)行業中最實用的電池系統,這要歸因於其熱穩定性、寬工作溫度範圍、不易燃的安全性和高能量密度。

Mr. Spencer Huh, President & CEO of NEO, commented, "In 2025, NEO Battery Materials is committed to diversifying the applications of our advanced silicon anode technology to capitalize on emerging opportunities in the rapidly growing space and eVTOL industries. These sectors represent significant market potential, driven by increasing demand for lightweight, high-performance, and thermally stable energy solutions. By targeting these transformative industries, along side our existing focus on electric vehicles, NEO aims to position itself at the forefront of innovation, addressing critical challenges and advancing energy storage technology to support the next generation of transportation and aerospace applications."

NEO總裁兼首席執行官Spencer Huh先生評論說:「到2025年,NEO電池材料致力於實現我們先進硅陽極技術的應用多樣化,以利用快速增長的空間和eVTOL行業的新興機遇。在對輕質、高性能和熱穩定能源解決方案的需求不斷增長的推動下,這些行業代表着巨大的市場潛力。通過瞄準這些變革性行業,加上我們目前對電動汽車的關注,NEO旨在將自己定位在創新的最前沿,應對關鍵挑戰並推進儲能技術以支持下一代交通和航空航天應用。」

As NEO's products are based on metallurgical, micron-sized silicon with polymer coatings, reducing silicon particle fracturing and adverse side reactions at the electrolyte-electrode interface is essential to mitigate contact loss during cycling tests in solid-state batteries. P-300's enhanced conductivity and improved lithium-ion diffusion would provide stable performance and high compatibility between pure silicon anodes in solid-state batteries.

由於NEO的產品以冶金、微米大小的硅爲基礎,帶有聚合物塗層,因此減少硅顆粒破裂和電解電極界面的不良副反應對於減少固態電池循環測試期間的接觸損耗至關重要。P-300 增強的導電性和改進的鋰離子擴散將提供穩定的性能和固態電池中純硅陽極之間的高兼容性。

1Coulombic Efficiency: Ratio of electrons transferred out from an electrode material/battery during discharging to the number transferred into the material during charging over a full charging cycle (Discharging Capacity-to-Charging Capacity). Ex. If the current discharging capacity is 2,000 mAh/g and the preceding charging capacity was 2,500 mAh/g, the Coulombic efficiency is 80%.

1庫侖效率:放電過程中從電極材料/電池傳出的電子與在整個充電週期內充電期間轉移到材料中的數字的比率(放電容量與充電容量)。例如。如果當前的放電容量爲2,000 mAh/g,而之前的充電容量爲2,500 mAh/g,則庫侖比效率爲80%。

2Full Cell: Lithium-ion battery comprises all four core materials (cathode, anode, separator, and electrolyte). Generally, battery anode materials proof-of-concept and optimization are initiated with half cells in which only the anode, separator, and electrolyte are used with a lithium-metal counter electrode that may supply an infinite number of lithium-ions. Full cells have a limited number of lithium-ions given that commercial-level cathode materials retain trivial amounts of lithium-ions compared to lithium-metal. Consequently, capacity retention is heavily affected by Coulombic efficiency at every charging cycle.

2Full Cell:鋰離子電池包含所有四種核心材料(陰極、陽極、隔膜和電解質)。通常,電池陽極材料的概念驗證和優化是從半電池開始的,其中只有陽極、隔膜和電解質與可以提供無限數量鋰離子的鋰金屬對電極一起使用。鑑於與鋰金屬相比,商用級陰極材料保留的鋰離子量微乎其微,因此全電池的鋰離子數量有限。因此,在每個充電週期中,容量保持都受到庫侖比效率的嚴重影響。

About NEO Battery Materials Ltd.
NEO Battery Materials is a Canadian battery materials technology company focused on developing silicon anode materials for lithium-ion batteries in electric vehicles, electronics, and energy storage systems. With a patent-protected, low-cost manufacturing process, NEO Battery enables longer-running and ultra-fast charging batteries compared to existing state-of-the-art technologies. The Company aims to be a globally-leading producer of silicon anode materials for the electric vehicle and energy storage industries. For more information, please visit the Company's website at: .

關於 NEO 電池材料有限公司
NEO Battery Materials是一家加拿大電池材料技術公司,專注於爲電動汽車、電子和儲能系統中的鋰離子電池開發硅陽極材料。與現有的最先進技術相比,NEO Battery採用受專利保護的低成本製造工藝,可延長電池的運行時間和超快的充電速度。該公司的目標是成爲全球領先的電動汽車和儲能行業硅陽極材料生產商。欲了解更多信息,請訪問該公司的網站:。

On Behalf of the Board of Directors
Spencer Huh
Director, President, and CEO

代表董事會
斯賓塞呵呵
董事、總裁兼首席執行官

For Investor Relations, PR & More Information:
info@neobatterymaterials.com
T: +1 (437) 451-7678

有關投資者關係、公關及更多信息:
info@neobatterymaterials.com
電話:+1 (437) 451-7678

This news release includes certain forward-looking statements as well as management's objectives, strategies, beliefs and intentions. All information contained herein that is not clearly historical in nature may constitute forward-looking information. Generally, such forward-looking information can be identified notably by the use of forward-looking terminology such as "plans", "expects" or "does not expect", "is expected", "budget", "scheduled", "estimates", "forecasts", "intends", "anticipates" or "does not anticipate", or "believes", 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". Forward-looking information is subject to known and unknown risks, uncertainties and other factors that may cause the actual results, level of activity, performance or achievements of the Company to be materially different from those expressed or implied by such forward-looking information, including but not limited to: (i) volatile stock prices; (ii) the general global markets and economic conditions; (iii) the possibility of write-downs and impairments; (iv) the risk associated with the research and development of advanced technologies; (v) the risk associated with the effectiveness and feasibility of technologies that have not yet been tested or proven on commercial scale; (vi) the risks associated with entering into joint ventures or partnerships; (vii) the risks associated with the construction, completion, and financing of commercial facilities; (viii) fluctuations in input precursor prices; (ix) the risks associated with uninsurable risks arising during the course of research, development and production; (x) competition faced by the resulting issuer in securing experienced personnel and financing; (xi) access to adequate infrastructure to support battery materials research and development activities; (xii) the risks associated with changes in the technology regulatory regime governing the Company; (xiii) the risks associated with the timely execution of the Company's strategies and business plans; (xiv) the risks associated with the lithium-ion battery industry's demand and adoption of the Company's silicon anode technology; (xv) the risks associated with the various environmental and political regulations the Company is subject to; (xvi) risks related to regulatory and permitting delays; (xvii) the reliance on key personnel; (xviii) liquidity risks; (xix) the risk of litigation; (xx) risk management; and (xxi) other risk factors as identified in the Company's recent Financial Statements and MD&A and in recent securities filings for the Company which are available on . Forward-looking information is based on assumptions management believes to be reasonable at the time such statements are made, including but not limited to, continued R&D and commercialization activities, no material adverse change in precursor prices, development and commercialization plans to proceed in accordance with plans and such plans to achieve their stated expected outcomes, receipt of required regulatory approvals, and such other assumptions and factors as set out herein. Although the Company has attempted to identify important factors that could cause actual results to differ materially from those contained in the forward-looking information, there may be other factors that cause results not to be as anticipated, estimated or intended. There can be no assurance that such forward-looking information will prove to be accurate, as actual results and future events could differ materially from those anticipated in such forward-looking information. Such forward-looking information has been provided for the purpose of assisting investors in understanding the Company's business, operations, research and development, and commercialization plans and may not be appropriate for other purposes. Accordingly, readers should not place undue reliance on forward-looking information. Forward-looking information is made as of the date of this presentation, and the Company does not undertake to update such forward-looking information except in accordance with applicable securities laws.

本新聞稿包括某些前瞻性陳述以及管理層的目標、戰略、信念和意圖。此處包含的所有不明確的歷史信息均可能構成前瞻性信息。通常,此類前瞻性信息可以通過使用諸如 「計劃」、「預期」 或 「不期望」、「預期」、「預算」、「預期」、「估計」、「預測」、「打算」、「預期」 或 「不預見」 或 「不相信」 等前瞻性術語或陳述某些行動、事件或結果 「可能」 的變體來識別, 「將」, 「可能」 或 「將被採取」, 「發生」 或 「實現」.前瞻性信息受已知和未知風險、不確定性和其他因素的影響,這些因素可能導致公司的實際業績、活動水平、業績或成就與此類前瞻性信息所表達或暗示的結果存在重大差異,包括但不限於:(i)波動的股價;(ii)總體全球市場和經濟狀況;(iii)減記和減值的可能性;(iv)與研發相關的風險先進技術;(v) 相關的風險包括尚未經過商業規模測試或證實的技術的有效性和可行性;(六)與建立合資企業或夥伴關係相關的風險;(七)與商業設施的建造、完工和融資相關的風險;(viii)投入前體價格的波動;(ix)研究、開發和生產過程中出現的不可保風險的相關風險;(x)有經驗的發行人在擔保方面面臨的競爭人事和資金;(xi) 獲取支持電池材料研發活動的充足基礎設施;(xii)與公司管理的技術監管制度變更相關的風險;(xiii)與及時執行公司戰略和業務計劃相關的風險;(xiv)與鋰離子電池行業需求和採用公司硅陽極技術相關的風險;(xv)與公司受的各種環境和政治監管相關的風險;(xvi)與監管相關的風險和允許延遲;(xvii)對關鍵人員的依賴;(xviii)流動性風險;(xix)訴訟風險;(xx)風險管理;以及(xxi)公司最近的財務報表和管理報告以及公司最近的證券申報中確定的其他風險因素,這些風險因素可在上找到。前瞻性信息基於管理層在發表此類聲明時認爲合理的假設,包括但不限於持續的研發和商業化活動、前體價格沒有重大不利變化、開發和商業化計劃將按照計劃和計劃進行以實現其既定預期結果、獲得所需的監管批准以及此處列出的其他假設和因素。儘管公司試圖確定可能導致實際業績與前瞻性信息中包含的業績存在重大差異的重要因素,但可能還有其他因素導致業績與預期、估計或預期不符。無法保證此類前瞻性信息會被證明是準確的,因爲實際結果和未來事件可能與此類前瞻性信息中的預期存在重大差異。提供此類前瞻性信息的目的是幫助投資者了解公司的業務、運營、研發和商業化計劃,可能不適用於其他目的。因此,讀者不應過分依賴前瞻性信息。前瞻性信息是自本演示之日起提供的,除非根據適用的證券法,否則公司不承諾更新此類前瞻性信息。

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