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Greenland Energy Company (NASDAQ: GLND) Gains Relevance as Energy-Security Concerns Intensify

  • The renewed focus on energy security stems from ongoing concerns surrounding the Strait of Hormuz, one of the world’s most important energy transportation corridors.
  • For companies such as Greenland Energy Company that are pursuing new exploration opportunities outside traditional producing regions, these developments can strengthen the investment case for frontier projects.
  • The company’s upcoming drilling program in the Jameson Land Basin represents the first modern effort to fully test portions of the basin using contemporary exploration techniques.

In reaction to the ongoing conflict within the Middle East, the global energy market has once again been reminded how quickly geopolitical events can disrupt oil supplies and drive volatility across economies. Discussions surrounding the Strait of Hormuz and the strategic importance of new oil-producing regions have highlighted the need for diversified energy sources, creating a potentially favorable backdrop for Greenland Energy (NASDAQ: GLND), which is advancing exploration activities in Greenland’s Jameson Land Basin and seeking to unlock a significant frontier oil resource. 

The renewed focus on energy security stems from ongoing concerns surrounding the Strait of Hormuz, one of the world’s most important energy transportation corridors. Roughly one-fifth of global petroleum liquids consumption moves through the narrow waterway connecting the Persian Gulf to international markets. Any disruption can have an outsized effect on global oil prices because energy markets are interconnected regardless of where the oil is ultimately consumed. 

Those concerns were highlighted in a recent report discussing comments from U.S. Ambassador to Denmark Ken Howery’s successor, Tom Landry, regarding Greenland’s untapped energy potential. Landry suggested that Greenland could eventually help alleviate some of the supply pressures associated with global dependence on the Strait of Hormuz, noting the significant oil resource potential that exists within Greenland’s sedimentary basins. The comments reflect a broader recognition that new sources of oil supply outside traditional producing regions could become increasingly valuable as governments and markets seek greater energy diversification. 

The importance of alternative supply sources became especially evident during recent disruptions involving Iran and the Strait of Hormuz. Energy markets experienced substantial price volatility as concerns mounted over the movement of oil through the region. Oil prices rose sharply during periods of uncertainty and subsequently fell when negotiations appeared to improve prospects for reopening the waterway. The episode demonstrated how heavily global energy markets remain influenced by geopolitical developments in a relatively small geographic area. 

For companies pursuing new exploration opportunities outside traditional producing regions, these developments can strengthen the investment case for frontier projects. Greenland, while historically underexplored compared with major producing basins elsewhere in the world, possesses significant geological potential. Greenland Energy Company is focused on the Jameson Land Basin in eastern Greenland, where the company has secured an agreement that could allow it to earn up to a 70% interest in the basin by funding exploration activities. According to the company, it will fund 100% of the costs associated with two planned exploration wells designed to evaluate the basin’s hydrocarbon potential. 

The Jameson Land Basin has attracted attention because of its geological similarities to other productive North Atlantic petroleum systems. The company’s upcoming drilling program represents the first modern effort to fully test portions of the basin using contemporary exploration techniques. The company has outlined plans for two exploration wells, known as OPW-1 and OPW-6, as part of its initial drilling campaign. Recent company disclosures indicate that field preparation, infrastructure planning, and logistics activities are underway in support of the targeted 2026 drilling program. 

The significance of the project was recently discussed by Greenland Energy Company CEO Robert Price during an interview with Energy, Oil & Gas magazine. In that discussion, Price described the evolving nature of the Jameson Land Basin exploration project and the opportunity presented by one of the world’s last major frontier petroleum basins. The interview highlighted the company’s planned exploration activities; the geological characteristics of the basin and the broader role Greenland could potentially play in future energy markets. 

Price has consistently emphasized the project’s long-term strategic importance. Industry publications have reported that GLND’s exploration efforts are supported by reprocessed historical seismic data and a comprehensive geological review of the basin. According to the company, the Jameson Land project is fully financed for its planned initial drilling activities, a notable distinction in the frontier exploration sector where many projects remain dependent on future funding or farm-out agreements before drilling can begin. 

The company’s progress comes at a time when policymakers, investors and energy consumers are increasingly focused on supply resilience. Recent events involving the Strait of Hormuz have underscored the risks associated with concentrated production and transportation infrastructure. Even when disruptions are temporary, they can create significant market volatility, influence inflation and affect economic growth. As a result, exploration projects capable of expanding the global supply base often receive heightened attention during periods of geopolitical uncertainty. 

As global energy markets continue to respond to geopolitical developments, the search for new and reliable sources of oil supply remains a central theme. Recent discussions about Greenland’s potential role in enhancing energy security have brought additional attention to the region’s resource base. For Greenland Energy Company, the convergence of rising interest in energy diversification, growing concerns about supply-chain vulnerability, and the advancement of its Jameson Land exploration program could provide an opportunity to demonstrate the value of frontier exploration in an increasingly complex global energy landscape. 

For more information, visit the company’s website at www.GreenlandEnergyCo.com.

NOTE TO INVESTORS: The latest news and updates relating to GLND are available in the company’s newsroom at ibn.fm/GLND

Forward-Looking Statements

This communication contains “forward-looking statements” within the meaning of the “safe harbor” provisions of the United States Private Securities Litigation Reform Act of 1995 and within the meaning of Section 27A of the Securities Act of 1933, as amended (the “Securities Act”), and Section 21E of the Securities Exchange Act of 1934, as amended. All statements contained herein other than statements of present or historical fact, including, without limitation, statements regarding Greenland Energy Company’s (the “Company”) future financial performance, business strategy, operations, financial position, estimated revenues and losses, projected costs, prospects, plans, objectives of management, and expected benefits of the Company’s recent business combination, are forward-looking statements. Forward-looking statements are generally identified by the use of words such as “believe,” “may,” “will,” “estimate,” “continue,” “anticipate,” “intend,” “expect,” “should,” “would,” “plan,” “project,” “forecast,” “potential,” “predict,” or the negative of these terms or similar expressions, although not all forward-looking statements contain such identifying words.

These forward-looking statements are based on management’s current expectations, assumptions and beliefs regarding future events and are based on information currently available to the Company. These statements involve a number of risks and uncertainties, many of which are difficult to predict and are beyond the Company’s control, and actual results may differ materially from those expressed or implied by these forward-looking statements. Factors that could cause actual results to differ materially include, among others: (i) Exploration and Geological Risks, including the Company’s status as a development-stage company with no operating history, revenues, or proved reserves; the inherent uncertainty in prospective resource estimates, including that the 13 billion barrel estimate is based on undiscovered accumulations with no certainty of discovery or commercial viability; geological complexity arising from limited seismic data coverage, pervasive igneous intrusions, faulting patterns, and significant Tertiary uplift creating thermal maturity uncertainty; the fact that the basin has never produced a commercial discovery despite decades of study dating back to the 1970s, and a 2008 USGS report stating less than a 10% chance of containing a technically recoverable hydrocarbon accumulation; and high-cost frontier exploration with estimated well costs of $40 million for the first well and $20 million for subsequent wells; (ii) Operational and Environmental Risks, including the challenges of operating in a remote Arctic location with extreme climate, harsh weather, limited daylight, no existing infrastructure, and seasonal access windows for equipment and personnel; drilling hazards such as blowouts, equipment failures, well control events, environmental releases, and accidents inherent in oil and gas operations; reliance on third-party contractors; and climate change scrutiny, as operations in Greenland face increasing opposition from environmental groups and institutional investors due to Arctic drilling concerns; (iii) Regulatory and Political Risks, including the 2021 Greenland drilling moratorium, and while licenses are grandfathered, future regulatory changes could jeopardize operations; geopolitical tensions, including U.S. interest in acquiring Greenland and Greenland’s internal independence movements that could affect operations; permit requirements, as drilling requires Environmental Impact Assessment approval and Field Activities Application approval from Greenlandic authorities; and forfeiture risk, as failure to meet drilling milestones could result in loss of the Company’s right to earn working interests; (iv) Financial and Capital Risks, including significant capital requirements and the need for substantial funding beyond current resources to complete the drilling program; commodity price volatility, as oil, gas, and NGL prices are highly volatile and will heavily influence project viability; a long development timeline during which market conditions may change significantly before potential production, unlike short-cycle shale projects; going concern uncertainty and substantial doubt about the Company’s ability to continue as a going concern without additional financing; and energy transition risk, as global demand for oil may decline due to electric vehicle adoption, renewable energy policies, and changing consumer preferences; and other risks and uncertainties as set forth in the Company’s Prospectus filed with the Securities and Exchange Commission pursuant to Rule 424(b)(4) under the Securities Act on April 29, 2026, in the section titled “Risk Factors”.

Forward-looking statements speak only as of the date they are made. The Company undertakes no obligation to update or revise any forward-looking statements, whether as a result of new information, future events or otherwise, except as required by applicable law.

American Fusion(TM) Inc. (AMFN) Expands North Texas Operations as Texatron(TM) Testing and Patent Activity Advance

  • The company is relocating its headquarters to the Fort Worth metropolitan area as it expands engineering, laboratory, and fabrication operations.
  • The new facility is intended to consolidate engineering, manufacturing and administrative functions under one roof.
  • The company is progressing toward a testing agreement with Texas Tech University for both its 5MW and 500kW Texatron(TM) Fusion Engine(TM) platforms.
  • Management expects university testing infrastructure to accelerate portions of its development program, with initial testing activities targeted as early as July.
  • Seven additional U.S. patent applications were filed to expand intellectual property surrounding the Texatron(TM) Fusion Engine(TM) architecture.

American Fusion(TM) (OTC: AMFN), a developer of next-generation fusion energy technologies, has announced a series of operational and technology milestones as it advances development of its Texatron(TM) Fusion Engine(TM) platform, highlighting a headquarters relocation to the Fort Worth area, progress toward a university testing agreement, and continued expansion of its intellectual property portfolio. The updates, announced July 1, reflect several parallel initiatives intended to support the company’s long-term commercialization strategy (https://ibn.fm/5m9td). 

The company said it is relocating its operations from Midland, Texas, to the Fort Worth metropolitan area, where engineering, fabrication, laboratory and administrative functions will ultimately operate from a single integrated facility. According to management, the move will occur in two stages. Engineering and administrative personnel are initially relocating into temporary facilities adjacent to the permanent headquarters while construction of the company’s dedicated engineering shop and laboratory is completed. American Fusion(TM) expects the permanent facility to become operational within approximately one month.

Executive Chairman Brent Nelson said consolidating the company’s technical and executive teams under one roof is expected to improve collaboration and streamline development activities as work progresses on the Texatron(TM) Fusion Engine(TM) platform.

Alongside the relocation, American Fusion(TM) reported continued progress toward finalizing definitive agreements with Texas Tech University for access to specialized testing facilities. The proposed arrangement would provide infrastructure for evaluating both the company’s new 5-megawatt Texatron(TM) Fusion Engine(TM) and conducting additional testing on its existing 500-kilowatt platform.

Management believes utilizing established university research facilities could accelerate portions of the testing schedule while providing opportunities to collaborate with experienced scientific and technical personnel. According to the company, discussions continue to advance toward final agreements, with initial testing activities potentially beginning as early as July if current timelines remain on schedule.

Chief Technology Officer Dr. John E. Brandenburg said combining the new North Texas engineering operations with access to specialized testing infrastructure could streamline the company’s development program as both internal and external capabilities expand.

The announcement also highlighted continued investment in intellectual property protection, another important consideration for companies developing emerging technologies. Between June 26 and June 30, American Fusion(TM) filed seven additional U.S. patent applications covering various aspects of its proprietary Texatron(TM) Fusion Engine(TM) platform.

Collectively, the filings describe technical concepts involving fusion confinement architecture, hollow toroidal chamber designs, rifled interior surfaces, electromagnetic field generation and related system configurations. The applications include both clam-shell and unitary confinement device designs, as well as methods intended to generate what the company describes as an electromagnetic foil within portions of the confinement system.

As with any patent application, the filings remain subject to examination by the United States Patent and Trademark Office, and there can be no assurance that any application will ultimately mature into an issued patent or that any resulting claims will receive the scope currently sought by the company. Nevertheless, management views continued patent activity as an important component of its commercialization strategy.

Chief Legal Officer Michael G. Smith noted that each filing represents extensive engineering analysis, technical documentation and legal review designed to strengthen the company’s growing intellectual property portfolio around the Texatron(TM) platform.

The latest patent applications build upon American Fusion’s(TM) broader strategy of protecting multiple aspects of its fusion technology while continuing engineering development in parallel.

American Fusion(TM) operates through its wholly owned subsidiary, Kepler Fusion Technologies, which is responsible for developing the Texatron(TM) fusion platform. Following its previously announced merger with Kepler, the company adopted the American Fusion(TM) name as it shifted its focus toward advancing fusion energy technologies. 

The Texatron(TM) Fusion Engine(TM) is being developed as an aneutronic fusion platform intended for modular deployment across industrial, commercial, defense and grid-constrained energy applications. The company’s strategy emphasizes system-level engineering, scalable architecture and disciplined capital allocation while building an intellectual property portfolio designed to support future commercialization.

Fusion energy remains an emerging field attracting increasing interest from both public and private investors because of its potential to produce large amounts of energy with lower emissions than conventional fossil fuels. However, commercial deployment across the broader industry remains technically challenging, requiring significant advances in plasma confinement, engineering reliability and manufacturing scalability.

Against that backdrop, American Fusion’s(TM) latest announcement illustrates the practical steps many early-stage energy technology companies must take as development progresses, from expanding engineering infrastructure and establishing external research partnerships to protecting proprietary designs through patent filings.

For more information, visit the company’s website at www.AmericanFusionEnergy.com.

NOTE TO INVESTORS: The latest news and updates relating to AMFN are available in the company’s newsroom at https://ibn.fm/AMFN

BluSky AI Inc. (BSAI) Is Looking to Build the Next Generation of AI Infrastructure Without

  • BluSky AI’s solution addresses many of the most common pain points in the AI industry, such as build-out time, size, and both energy and water requirements. 
  • The company’s strategy emphasizes modular deployment, flexible cooling technologies and distributed infrastructure designed to support evolving customer requirements.
  • BluSky AI’s leadership team brings experience across technology, finance, telecommunications, infrastructure development, and energy.

Addressing Growing Demand for AI Compute

The rapid adoption of artificial intelligence is driving increased demand for the computing infrastructure required to support AI training and inference workloads. Industry participants, including NVIDIA CEO Jensen Huang, have noted that certain AI workloads can require substantially greater computing resources than many traditional computing applications. Industry analysts have also identified increasing demand for AI infrastructure and have projected continued investment in AI-enabled data center capacity.

BluSky AI (OTC: BSAI) is developing infrastructure intended to help address this growing demand through its modular SkyMod(TM) AI factory platform.

A Modular Infrastructure Strategy

BluSky AI recently presented its business strategy to investors, outlining its approach to developing modular AI infrastructure designed to support the expanding AI ecosystem.

The company’s strategy centers on building a distributed network of prefabricated modular AI facilities that can be deployed individually or in combination, depending on customer requirements, available power resources and project-specific conditions.

BluSky AI believes modular infrastructure may provide greater deployment flexibility than conventional large-scale data center campuses while supporting expanding AI compute requirements.

Focus on Efficient Deployment

According to the company, its SkyMod(TM) platform is designed to simplify data center development through prefabricated modular construction.

BluSky AI states that its facilities are intended to require less physical space than many traditional hyperscale campuses and may be deployed on accelerated timelines, depending on site conditions, permitting, utility availability and other project-specific factors. While conventional hyperscale facilities may require multiple years to develop, the company believes certain SkyMod deployments may become operational in approximately 12 months, although actual timelines will vary.

The company’s facilities are also designed with flexible cooling options, including closed-loop liquid cooling systems and air-cooled configurations, depending on customer requirements and deployment environments.

NeoCloud(TM) Platform Strategy

An important component of BluSky AI’s long-term strategy is the planned development of its NeoCloud(TM) platform, which is intended to connect future SkyMod(TM) AI factory locations through a distributed AI compute network.

The company has disclosed plans that contemplate developing more than 10 future AI factory locations in the United States with an aggregate projected capacity exceeding 200 megawatts. These plans remain subject to financing, customer demand, permitting, power availability, construction progress and other factors, and there can be no assurance that these facilities will be completed as currently contemplated.

BluSky AI believes its distributed infrastructure approach may offer customers benefits including scalable compute capacity, deployment flexibility and expanded infrastructure availability.

Experienced Leadership

BluSky AI’s management team brings experience across multiple industries, including technology, telecommunications, finance, blockchain, infrastructure development and energy.

The company is led by CEO Trent D’Ambrosio, whose professional background includes telecommunications, natural resource development and investment management.

Chief Technology Officer Julien Bedard has experience in software development and blockchain technologies, while Chief Operating Officer Dan Gay has held leadership positions across technology, telecommunications, finance and energy-related organizations.

Positioning for an Expanding Market

As organizations continue adopting AI technologies, demand for computing infrastructure is expected to remain an important area of investment across the technology sector.

BluSky AI is pursuing a strategy centered on modular, distributed AI infrastructure that the company believes can provide an alternative approach to conventional large-scale data center development. Through its SkyMod(TM) platform and planned NeoCloud(TM) network, the company is seeking to expand AI compute capacity while emphasizing deployment flexibility, resource efficiency and scalable infrastructure.

There can be no assurance that the company’s development plans, deployment objectives or growth strategy will be achieved.

For more information about BluSky AI, visit www.BluSkyAIDataCenters.com.

NOTE TO INVESTORS: The latest news and updates relating to BSAI are available in the company’s newsroom at https://ibn.fm/BSAI

Forward-Looking Statements

This communication contains forward-looking statements within the meaning of the federal securities laws. Forward-looking statements include, but are not limited to, statements regarding planned facilities, anticipated deployment timelines, projected capacity, future market demand, NeoCloud(TM) development, business strategy, expected operational benefits and other statements that are not historical facts.

Safe Pro Group Inc. (NASDAQ: SPAI) Awarded New Government Contract for UGV Integration and Contracted to Provide U.S. Army Edge AI Operational Support

  • Safe Pro Group has been awarded a new government contract to integrate AI-powered landmine detection into unmanned ground vehicles.
  • The technology is powered by Safe Pro’s patented Safe Pro Object Threat Detection (“SPOTD”), which uses AI trained on a large dataset of drone imagery to rapidly detect and identify small objects and threats.
  • Safe Pro was also recently contracted to provide U.S. Army edge AI operational support for an airfield exercise, further expanding Safe Pro’s role in force protection applications.

Safe Pro Group (NASDAQ: SPAI), a mission-driven tech company that delivers advanced security and defense solutions, recently announced that it has been awarded a new $1.3 million U.S. Government subcontract (https://ibn.fm/LrF01).

The award was under Forterra, a leading U.S. Defense Prime Contractor, and Safe Pro has been contracted to integrate its real-time AI-powered threat detection technology into autonomous unmanned ground vehicles (“UGVs”), significantly expanding its use beyond the analysis of aerial/drone-based imagery to now include a wide array of potential ground vehicles. 

Under the award, Safe Pro will both integrate and test this technology and proprietary advanced computer vision and machine learning AI pipeline onboard these UGVs, to provide the real-time detection of threats such as landmines.

The technology is powered by Safe Pro’s Safe Pro Object Threat Detection (“SPOTD”) technology, which uses AI and machine learning algorithms trained on one of the world’s largest real-world drone imagery datasets to detect small and hard-to-find threats like landmines, ambush drones, unexploded ordnance (“UXO”), and cluster munitions.

In total, the platform is capable of identifying more than 150 threats, providing much more situational awareness on the battlefield. Safe Pro’s massive AI dataset currently contains more than 2.9 million drone images, as well as over 51,750 confirmed detections across more than 37,835 acres of land.

In addition to announcing this new contract, Safe Pro was also recently contracted to provide U.S. Army Edge AI operational support for an airfield exercise (https://ibn.fm/lYdhy). At the event, Safe Pro demonstrated how its threat detection technology can be a force multiplier for rapid airfield operations, by being able to quickly assess the condition of airfields, runways, and landing zones.

Speaking about the exercise, Safe Pro’s Chairman and CEO, Dan Erdberg, said that “For several years our team has firmly believed that our novel models would grow beyond surveying minefields and this latest Army request to have our AI potentially support their airfield operations is evidence that we have opportunities to globally scale our growth.”

This exercise, and the previous participation in other U.S. Army exercises, has expanded Safe Pro’s role in force protection applications, and has highlighted the U.S. Army’s continued interest in the capabilities of Safe Pro’s technology.

About Safe Pro Group Inc. (NASDAQ: SPAI)

Safe Pro Group is a mission-driven tech company that designs and delivers AI-powered defense and security solutions for customers in the law enforcement, humanitarian, homeland security, and defense industries. At the heart of Safe Pro’s mission is the patented computer vision software technology that detects and identifies small explosive threats in drone footage, to help make field operations safer and assist governments, enterprises, and organizations, in responding to evolving threats.

For more information, visit Safe Pro Group’s website at www.SafeProGroup.com.

NOTE TO INVESTORS: The latest news and updates relating to SPAI are available in the company’s newsroom at https://ibn.fm/SPAI

Canada Crypto Week Returns July 20–26, 2026, Turning Toronto into a Global Hub for Web3 and AI

Canada Crypto Week is back. Now in its sixth year, the week-long Web3 takeover of Toronto will run July 20–26, 2026, drawing builders, investors, founders, and community members from around the world for one of the most concentrated gatherings of Web3 activity on the global calendar.

At the center of Canada Crypto Week is Blockchain Futurist Conference, taking place July 21–22 at Rebel Entertainment Complex and Cabana Pool Bar, Canada’s largest and longest-running Web3 and AI conference.

Many of the week’s events, activations, and networking experiences will take place within the festival-style conference, while the surrounding days will feature independently organized and community-driven events across the city. All events are listed and accessible through the Canada Crypto Week calendar at canadacryptoweek.com.

This year’s side event lineup is already taking shape, with a broad mix of experiences happening on-site at Rebel and across the city. Confirmed side events and activations include:

  • VIP Rum Bar by Cayman Finance
  • Blast Wheels IRL Racing Tournament
  • Institutional Breakfast presented by SheFi
  • Solana & Superteam Canada Mixer
  • ETHWomen & ETHToronto
  • AI Futurist Conference (across both conference days)
  • Crypto & Web3 Bootcamp for Beginners
  • Founder & Funder Lounge by InclusifAI
  • InvestHK Workshop – Hong Kong: the Global Hub for Digital Assets
  • Book Signings with Amanda Wick, Audrey Nesbitt, and Annelise Osborne
  • Pudgy Penguins Canada @ Blockchain Futurist Conference
  • Agentic Day @ Blockchain Futurist Conference
  • CryptoMonday Toronto
  • Agentic Commerce Workshop by Agnic.AI
  • The Cayman-Canada Summit

Events range from free community socials to invite-only investor gatherings, beginner-friendly educational bootcamps to high-level institutional workshops. Canada Crypto Week has become the connective tissue between Futurist’s main conference and the broader Toronto Web3 community, creating a full week of programming that extends well beyond the two days on the main stage.

Organizations interested in hosting a side event during Canada Crypto Week can register through canadacryptoweek.com.

Sponsorship opportunities are also available through futuristconference.com/sponsorship-form.

Conference Tickets: futuristconference.com/toronto/ticket

For media passes or media inquiries, please contact james@futuristconference.com.

Beeline Holdings Inc. (NASDAQ: BLNE) Brings AI Platform In-House with MagicBlocks Acquisition

  • The transaction brings the technology that already powers key components of Beeline mortgage platform fully in-house and is intended to accelerate AI deployment across mortgage origination, title operations, and future digital real estate products.
  • Beeline continues to position itself as a technology-focused mortgage platform, serving both traditional homebuyers and real estate investors through digital lending tools.
  • Beeline’s AI-powered customer assistant Bob has already demonstrated measurable business results, contributing to an 8% increase in lead-to-lock mortgage conversions when customers engage with the platform.
  • The MagicBlocks acquisition gives Beeline greater control over AI development, while MagicBlocks will continue licensing its technology to third-party financial institutions.

Beeline Holdings (NASDAQ: BLNE), a fast-growing digital mortgage platform offering a quicker and easier path to homeownership, has completed the acquisition of artificial intelligence company MagicBlocks, bringing the technology that already powers key components of its mortgage platform fully in-house.

The transaction gives Beeline complete ownership of the AI infrastructure behind Bob, the company’s proprietary artificial intelligence assistant, while providing greater control over future development across its mortgage origination and title businesses (https://ibn.fm/yG3Qc). According to Beeline, the acquisition is expected to accelerate deployment of artificial intelligence throughout its lending platform, enabling additional workflow automation, improved operational efficiency and expanded decision-support tools across multiple business functions.

MagicBlocks provides the technology behind Bob, the company’s AI-powered customer assistant, which communicates with borrowers through the website, text messaging and the digital loan application process. Management said Bob has produced measurable operating results, contributing to an 8% increase in lead-to-lock conversion rates when borrowers actively engage with the platform during the mortgage application journey. Lead-to-lock conversion is a closely watched performance metric in mortgage lending because it measures how many prospective borrowers ultimately move forward to lock a loan before closing.

Chief Executive Officer Nick Liuzza said full ownership will allow the company to expand AI capabilities more rapidly without depending on an outside technology provider. “MagicBlocks’ technology is already working inside our platform,” Liuzza said in announcing the transaction. “Full ownership gives us the ability to move faster, integrate deeper, and build on what’s already working without constraint,” Liuzza said. “Beeline was designed from the start to be a technology-first mortgage company. This acquisition is consistent with that vision and gives us greater control over how we develop and deploy AI across the business going forward.”

The acquisition also reflects a broader trend occurring across financial services. Mortgage lenders increasingly are adopting artificial intelligence to automate document collection, improve customer communication, assist underwriting decisions and reduce processing times. As competition intensifies, many lenders are looking to digital platforms to lower operating costs while improving borrower experience.

Beeline’s strategy has focused on building a technology-centered lending platform rather than relying primarily on traditional mortgage origination processes. Through its subsidiary, Beeline Loans Inc., the company provides residential mortgages, title services and home equity products while emphasizing digital workflows intended to shorten closing timelines.

According to the company, its technology platform enables many loans to close within approximately 14 to 21 days, considerably faster than traditional mortgage timelines. The company has also reported a Net Promoter Score exceeding 80, significantly above typical industry averages, although future customer satisfaction levels will depend on continued operational performance as the platform evolves.

Beyond faster processing, artificial intelligence also plays an important role in borrower qualification. Beeline says its automated systems can evaluate applicants in roughly seven to eight minutes and provide borrowers with a high level of confidence regarding mortgage eligibility early in the application process. That capability may be particularly relevant for younger borrowers whose employment patterns differ from traditional full-time salaried workers.

Many members of Generation Z and the Millennial generation participate in freelance, contract or gig-economy employment, creating additional complexity during conventional mortgage underwriting. According to figures cited by the National Mortgage Professional, homeownership rates remain comparatively low among younger generations, with affordability and mortgage accessibility continuing to present challenges (https://ibn.fm/hy0Zy). 

Beeline’s lending strategy extends beyond owner-occupied housing. The company also serves borrowers purchasing residential investment properties, reflecting growing interest among younger investors seeking rental real estate as part of long-term wealth-building strategies.

Management believes digital underwriting and automated workflows may help simplify financing for both first-time homebuyers and individuals purchasing investment properties. The MagicBlocks acquisition may also support expansion into additional product categories.

Beeline said the technology will be integrated more deeply across mortgage origination, title services, home equity products and future digital real estate transactions. At the same time, MagicBlocks will continue licensing its software platform to other mortgage lenders and financial institutions, allowing the technology to maintain an external commercial presence.

From a financial standpoint, the transaction was structured as a related-party acquisition. Prior to the deal, Beeline already owned approximately 48% of MagicBlocks. To acquire the remaining ownership interest, the company issued 209,456 shares of common stock valued at $2.25 per share, representing total consideration of approximately $471,000. According to Beeline, the transaction was supported by an independent third-party fairness opinion valuing MagicBlocks at approximately $1 million and was reviewed by a special committee of independent directors because of the existing ownership relationship.

For more information, visit the company’s website at www.MakeABeeline.com.

NOTE TO INVESTORS: The latest news and updates relating to BLNE are available in the company’s newsroom at https://ibn.fm/BLNE

VERAXA Biotech AG (NASDAQ: VRXA) Advances Lead BiTAC(R) T-Cell Engager Program with Cell Line Development Partnership

  • The company has initiated cell line development for its lead BiTAC(R) T-cell engager program, selecting ATUM to support manufacturing development as the candidate advances toward IND/CTA-enabling studies.
  • ATUM will apply its Leap-In Transposase(R) technology to generate stable clonal cell lines for VERAXA’s lead therapeutic candidate.
  • The collaboration represents an important development milestone, supporting manufacturing, analytical development and nonclinical studies required before clinical testing.
  • VERAXA’s BiTAC(R) platform is designed to improve the selectivity of T-cell engagers, potentially reducing toxicity associated with conventional approaches.
  • The company recently expanded its research facilities in Heidelberg, Germany, increasing laboratory capacity as multiple oncology programs move toward clinical development.

VERAXA Biotech (NASDAQ: VRXA), an emerging leader in designing novel cancer therapies, has begun cell line development for its lead BiTAC(R) T-cell engager (“BiTAC(R)-TCE”) program, marking another step in preparing the company’s most advanced oncology candidate for future clinical development.

The company announced that it has selected ATUM, a U.S.-based contract research organization specializing in bioengineering and cell line development, to generate stable clonal cell lines using its proprietary Leap-In Transposase(R) technology. According to VERAXA, the collaboration is intended to support the program as it advances toward investigational new drug (“IND”) and clinical trial application (“CTA”)-enabling activities (https://ibn.fm/FNr1C). 

Although often less visible than clinical trial announcements, cell line development represents an important stage in biologic drug development. Before antibody therapies can enter human studies, developers must establish manufacturing systems capable of consistently producing sufficient quantities of highly uniform therapeutic material. Stable clonal cell lines serve as the foundation for that manufacturing process, supporting process development, analytical testing, formulation work and production of material required for nonclinical studies.

VERAXA said the resulting cell lines will be used throughout its chemistry, manufacturing and controls (“CMC”) development program as preparations continue for regulatory submissions.

The company selected ATUM because its Leap-In Transposase(R) platform is designed to support efficient production of complex multi-chain biologic molecules such as VERAXA’s BiTAC(R) T-cell engagers. According to the company, ATUM’s technology has previously supported stable cell line generation for more than 50 investigational new drug submissions, providing an established manufacturing approach for advanced antibody formats.

The announcement follows encouraging preclinical data that VERAXA presented earlier this year at the American Association for Cancer Research (“AACR”) Annual Meeting. Those studies evaluated the company’s lead BiTAC(R)-TCE candidate in laboratory and animal models, where the therapy demonstrated selective activity against cancer cells expressing both intended target antigens while sparing cells carrying only one target. The results reflected the underlying design of VERAXA’s proprietary BiTAC(R) platform.

Traditional T-cell engagers generally function by simultaneously binding a tumor-associated protein and the CD3 receptor on T-cells, directing the immune system to attack cancer cells. While the approach has demonstrated clinical benefit in certain cancers, many conventional T-cell engagers face development challenges because the targeted proteins may also be present on healthy tissue, increasing the risk of unintended immune activation and treatment-related toxicity.

VERAXA’s BiTAC(R) strategy seeks to address that limitation through a different molecular design. Instead of delivering one fully active molecule, the technology divides the therapeutic into two complementary precursor molecules. Each precursor independently recognizes a different tumor-associated target but remains incapable of activating T-cells on its own.

Only when both precursors bind simultaneously to two distinct targets on the same cancer cell is the CD3-binding function reconstructed, activating the immune response. This “AND-gated” mechanism is intended to concentrate T-cell activity on cells displaying both target markers while reducing effects on healthy tissues expressing only one antigen.

The company believes this conditional activation approach could broaden the therapeutic window by maintaining anti-cancer activity while reducing off-target toxicity. That hypothesis will require further validation through future preclinical and clinical studies.

VERAXA has also continued investing in its broader research infrastructure. In June, the company announced a more than 60% expansion of laboratory space at its research and development facility in Heidelberg, Germany (https://ibn.fm/O6eTH). The additional capacity is intended to accommodate planned research staff growth, new laboratory equipment and expanded development activities as multiple proprietary and partnered programs move toward early clinical development.

The Heidelberg location also places VERAXA within one of Europe’s established biomedical research clusters, providing proximity to academic institutions and oncology research organizations.

The company continues to build a diversified oncology pipeline that extends beyond its BiTAC(R) platform. Alongside BiTAC(R) T-cell engagers, VERAXA is developing bispecific antibody-drug conjugates (“ADCs”), additional engineered antibody formats and other oncology candidates derived from technologies originally developed through scientific discoveries at the European Molecular Biology Laboratory (“EMBL”).

For more information, visit the company’s website at www.Veraxa.com

NOTE TO INVESTORS: The latest news and updates relating to VRXA are available in the company’s newsroom at https://ibn.fm/VRXA

Earth Science Tech Inc. (ETST) Is Building on Unique Competitive Advantages to Deliver Steady Growth

  • Earth Science Tech acquires, operates, optimizes, and manages autonomous revenue-generating divisions across pharmaceuticals, telemedicine, retail, and real estate development
  • This approach has created a “conglomerate” business model that separates ETST from other healthcare companies and enables the company to capture the profit margins at every step that other companies are forced to outsource
  • ETST’s competitive advantages include its end-to-end vertical integration that covers all aspects of patient care (consultation, pharmacies, and fulfillment) as well as the provision of B2B tech and real estate
  • This vertical integration has resulted in direct revenue growth while continually building the company’s product pipeline

Earth Science Tech (OTC: ETST) has shown how its fundamental competitive advantages is able to build profit while serving its expanding base of customers more effectively. As a multifaceted and diversified holding company, ETST creates value by acquiring, operating, optimizing, and managing autonomous revenue-generating divisions across pharmaceuticals, telemedicine, retail, and real estate development. This strategy is baked in to the company’s “conglomerate” business model, which deviates from the traditional healthcare stock, insulating the company from sector-specific risks and shocks.

Within the healthcare domain, ETST is focused on building a vertically integrated platform that seamlessly integrates all aspects of patient care, from telemedicine (consultation) and pharmacy, through to fulfillment. With Peak Curative LLC, the company’s wholly owned subsidiary and telemedicine referral platform, ETST offers asynchronous consultations for Peak-branded compounded medications.

The Peak Curative telehealth platform enables users to discreetly explore various treatment options for things like weight loss and hair growth, connecting online users with licensed medical providers. The provider can approve necessary medication, with Peak Curative then shipping the products directly. These medications are prepared at RxCompound and Mister Meds, ETST’s wholly owned compounding pharmacies that aim to make prescription fulfillment fast and easy.

Similar efficiency is found in Miami-based RxCompound, providing bespoke medications not available from commercial manufacturers. RxCompound has developed an extensive range of affordable formulations designed to meet unique patient requirements. In addition, Texas-based Mister Meds serves as a licensed compounding pharmacy and hazardous drug handler.

RxCompound and Mister Meds are both synchronized into the company’s MOCTeledoc doctor network, creating a fully vertically integrated telehealth and pharmacy ecosystem. Accessible through MyOnlineConsultation.com, MOCTeledoc provides technology and clinical staffing solutions to digital health companies and helps clinics and third-party telemedicine platforms deliver efficient care. It represents an infrastructure-as-a-service tool that enables ETST to tap into the high-margin B2B revenue stream, powering the healthcare industry as a whole, rather than focusing solely on individual consumers (patients). Interestingly, this tool has the net effect of enabling ETST to actively profit by servicing its own competitors.

Besides empowering ETST to serve patients more effectively and generate revenue, the vertically integrated business model also helps feed the company’s product pipeline, as Giorgio R. Saumat, CEO and Chairman of the Board, explained in a BioMedWire Podcast episode (https://ibn.fm/VZSyE). “We always have research and development going on. The compounding pharmaceutical (space) is not your off-the-shelf kind of pharmaceutical products, so we’re always looking for something new. We have our doctors that are constantly suggesting new compounds for… sexual health, hair loss, or skincare. I know that right now, Peaks is working on an anxiety medication. We have a very good pulse into where the healthcare community is going when it comes to health and wellness,” said Mr. Saumat. “I think our pipeline is strong and as we continue to diversify and build on these products, we’ll see the results of that,” he added. 

The expected results Giorgio referenced in his forward-looking statement will build on the progress recorded in Earth Science Tech’s fiscal year-end 2026 results (https://ibn.fm/ZlM3k). The company’s revenue grew 8% year over year, while gross profits and net income increased 5% and 11%, respectively. According to Mr. Saumat, these results were driven “by the work we have done to better integrate the patient experience across our platform….”

ETST’s end-to-end vertical integration means that it owns the healthcare ecosystem, relies on its in-house B2B tech stack, provides a proprietary doctor network to competitors, controls the supply chain (from the manufacture of medications to shipping), and owns real estate through its Avenvi subsidiary. As a result, Earth Science Tech captures the profit margins at every step that other companies are forced to outsource.

For more information, visit the company’s website at www.EarthScienceTech.com.

NOTE TO INVESTORS: The latest news and updates relating to ETST are available in the company’s newsroom at  https://ibn.fm/ETST

SS Innovations International Inc. (NASDAQ: SSII) Is ‘One to Watch’

  • Clinically validated, advanced surgical robotics technology platform.
  • Differentiated SSi Mantra system attributes (e.g., cost advantages, cardiac and pediatric surgery capabilities, ease of use and training, and pioneering telesurgery features).
  • Large and growing addressable market with favorable industry tailwinds.
  • Stronghold in India, global expansion underway, and potential catalysts in the US and EU.
  • World-class R&D and manufacturing facilities to support growth.
  • Robust sales growth, expanding margins, and increasing mix of recurring revenue.
  • Aligned, accomplished management team and Board of Directors.

SS Innovations International (NASDAQ: SSII) develops differentiated surgical robotic technologies, highlighted by its advanced, cost-efficient SSi Mantra surgical robotic system. Spearheaded by a team of visionary engineers and Dr. Sudhir Srivastava, an acclaimed robotic cardiac surgeon and the company’s founder, Chairman and Chief Executive Officer, the SSi Mantra features differentiated capabilities in areas such as telesurgery, cardiac surgery and pediatric procedures. The SSi Mantra’s broad-based surgical robotic applications, modularity, user friendliness, training capabilities, clinical track record and relative cost advantages have contributed to its early commercial success.

SS Innovations is a rapidly growing American company headquartered in India and expanding globally with an eye on democratizing access to cutting-edge surgical robotic technologies. After commencing commercial operations in late 2022, the company’s annual revenue has grown from approximately $5.9 million in 2023 to $42.5 million in 2025, corresponding to a compounded annual growth rate of 169%. Nearly 500 employees and more than 90,000 square feet of world-class R&D and manufacturing facilities support the company’s growth.

The SSi Mantra has been approved for commercial use in 14 countries, and the company currently is pursuing regulatory approval of the SSi Mantra from the U.S. Food and Drug Administration as well as a European Union CE marking.

SSi Mantra

The SSi Mantra is SS Innovations’ proprietary surgical robotic system and serves as the foundation of the company’s technology portfolio. As of May 31, 2026, the SSi Mantra global installed base totaled 210 systems. The platform features a modular architecture with three to five robotic arms, an open-faced surgeon command center, a 3D 4K visualization system and integrated imaging capabilities designed to support a wide range of minimally invasive procedures.

The system has been validated for use across numerous surgical specialties, including general surgery, urology, gynecology, colorectal, cardiac, gastrointestinal, head and neck, thoracic and breast and plastic surgery procedures. According to company disclosures, the SSi Mantra has been utilized in more than 11,700 surgeries, including hundreds of cardiac procedures, pediatric procedures and telesurgeries, and has been clinically validated across more than 170 different surgical procedure types.

SS Innovations also developed the SSi MantrAsana tele-surgeon console — a portable, compact chair-based version of the surgeon command center designed to facilitate remote surgery. The company’s SSi Mantra platform has been utilized in more than 175 telesurgeries, including complex cardiac telesurgeries and multiple long-distance international procedures. In May 2026, a robot-assisted heart procedure was successfully performed with the SSi Mantra across approximately 12,500 miles (20,000 kilometers) of fiber network distance between Guyana and India, making it the world’s longest-distance robotic telesurgery ever conducted. The SSi Mantra’s tele-surgical architecture has been specifically designed to maintain procedural precision across high-latency, long-haul network environments.

SSi Mudra

SSi Mudra is the company’s portfolio of robotic surgical instruments designed for use with the SSi Mantra platform. The product line includes more than 40 instrument types spanning monopolar and bipolar cautery instruments, clip appliers, needle drivers, graspers and specialty instruments developed for robotic cardiothoracic procedures.

The instrument portfolio supports a broad range of surgical applications and includes tools developed specifically for pediatric and cardiac surgery. SS Innovations positions SSi Mudra as an integral component of its surgical robotics ecosystem, providing procedure-specific instrumentation across multiple specialties.

SS Innovations receives recurring revenue from the sale of robotic surgical instruments. Recurring revenue represented approximately 15% of total revenue in 2025 per company disclosures.

SSi Maya

SSi Maya is a mixed-reality surgical platform developed to support visualization, training and procedural planning. The platform incorporates technologies such as 3D holographic imaging, virtual surgery tools, tele-proctoring capabilities and artificial intelligence-based anatomy segmentation.

SS Innovations designed SSi Maya to support surgeon education and procedural preparation while expanding access to advanced training resources. The platform is intended to complement the company’s robotic surgery technologies by providing immersive digital tools for surgical learning and collaboration.

A subsidiary of SS Innovations, the SS International Center for Robotics Surgery (“SSICRS”), graduated its first class in June 2026 from a specialized cardiac training program designed to provide surgeons, medical residents, anesthesiologists, and other healthcare professionals with theoretical classroom instruction and practical hands-on learning in robotic-assisted surgery. The center’s virtual and in-person instruction leverages both the SSi Mantra and SSi Maya. The company aims for SSICRS to become one of the world’s premier training institutes for robotic surgery.

Market Opportunity

According to Markets and Markets, the global surgical robotics market was valued at approximately $12.0 billion in 2024 and is projected to grow to approximately $27.1 billion by 2030, representing a compound annual growth rate of 14.7%.

According to estimates cited in the company’s investor presentation, less than 1% of surgeries performed globally are currently robotic procedures. The company believes this low level of penetration highlights a substantial opportunity for broader adoption of robotic-assisted surgery as healthcare providers seek minimally invasive treatment options and advanced surgical technologies.

The company further notes that, while approximately 95% of the world’s population resides outside the United States, Europe and Japan, only about 5% of installed surgical robotic systems are located in those regions. SS Innovations has positioned its technology portfolio to target healthcare markets that have historically experienced limited access to robotic surgery platforms.

Leadership Team

Dr. Sudhir Srivastava, Founder, Chairman and CEO, is a robotic cardiac surgeon and entrepreneur who founded SS Innovations to advance the accessibility of robotic surgery technologies. He has performed one of the largest volumes of robotic cardiac procedures globally and pioneered several robotic beating-heart TECAB procedures, including multiple world-first operations. In addition to leading SS Innovations, he has trained surgical teams around the world and has been actively involved in the development and advancement of robotic-assisted surgical techniques for decades. As of June 12, 2026, Dr. Srivastava owned approximately 108.6 million SSII shares, or 54.3% of total shares outstanding.

Dr. Frederic Moll, Vice Chairman, is a physician, entrepreneur and medical robotics pioneer widely recognized for his contributions to minimally invasive surgery. He co-founded Intuitive Surgical and helped develop the da Vinci robotic-assisted surgery system. Dr. Moll also founded Hansen Medical and Auris Health and has served on the boards of multiple healthcare technology companies focused on robotics, imaging and cancer treatment technologies. As of June 12, 2026, Dr. Moll owned approximately 20.8 million SSII shares, or 10.4% of total shares outstanding.

Dr. Vishwajyoti Srivastava, Chief Executive Officer – APAC and Board Member, has been involved in robotic surgery technologies since 2008. His work has included the development of robotic surgery training platforms, tele-mentoring initiatives and advanced medical visualization systems. He previously led development of the OMNI 3D Medical Visualization platform and currently oversees activities supporting the continued advancement and expansion of SS Innovations’ technology platform.

Barry Cohen, Chief Operating Officer – Americas and Board Member, brings decades of experience in public-company management, medical technology and capital markets. He founded Avra Medical Robotics and has held leadership positions with several public and private companies throughout his career. His background includes more than 50 years managing industrial and technology-focused businesses and extensive experience in securities and corporate operations.

For more information, visit the company’s website at https://ssinnovations.com.

NOTE TO INVESTORS: The latest news and updates relating to SSII are available in the company’s newsroom at https://ibn.fm/SSII

BluSky AI Inc. (BSAI) Is Looking to Build the Next Generation of AI Infrastructure Without Compromising the Planet

  • As the demand for AI continues to accelerate and supply falls behind, BluSky AI is positioning its SkyMod AI data center model as another solution to the extensive compute needs.
  • BluSky AI’s solution targets many of the most common pain points in the AI industry, such as build-out time, size, and both energy and water requirements. 
  • The company is led by a team of experts with decades of experience in technology, data centers, finance, telecommunications, energy, and other industries.

As technology continues to evolve, so does the power of artificial intelligence, and the demand for the computing infrastructure needed to support it. According to Jensen Huang, CEO of NVIDIA, AI workloads can require anywhere from 100x to 1000x more computing power than traditional computing applications. As a result, demand for AI compute has reportedly increased by as much as one million-fold over the past two years. Goldman Sachs predicts that the enterprise market will see a 24x increase in AI by 2030

BluSky AI aims to help address this growing infrastructure gap through a more sustainable and environmentally conscious approach (https://ibn.fm/rlg0N). 

Recently, BluSky AI Inc. hosted an OTC investor presentation highlighting the company’s operations, long-term vision, and its strategy to address one of the fastest-growing challenges in the technology sector: the global shortage of AI compute infrastructure.

At the center of BluSky AI’s strategy is its mission to build the next generation of AI infrastructure through a network of scalable, prefabricated AI factories designed to accelerate AI compute capacity worldwide.

The company’s broader vision is equally ambitious. BluSky AI aims to support a future where artificial intelligence drives human progress through high-performance, sustainable compute infrastructure that expands global capabilities while minimizing environmental impact.

During the presentation, BluSky AI emphasized a growing imbalance within the AI industry. Demand for AI-powered services and applications continues to surge at an unprecedented pace, while the supply of compute infrastructure struggles to keep up. As adoption accelerates across industries, many analysts expect a multi-year shortage of AI compute capacity. At the same time, the global AI market is projected to grow into a multi-trillion-dollar opportunity over the coming decades.

BluSky AI believes it is well-positioned to help address this challenge through its proprietary SkyMod design, a modular, prefabricated approach to AI data center development intended to bridge the widening gap between supply and demand.

Unlike traditional hyperscale data centers, BluSky AI’s model is built around speed, efficiency, and sustainability. The company states they are targeting deployment significantly faster, require less energy per location, and little to no water in cooling, occupy a smaller footprint, and place less strain on local infrastructure and communities. The design also incorporates distributed deployment strategies and sustainable energy solutions.

According to the presentation, BluSky’s modular AI factories could dramatically reduce development timelines compared to conventional data centers, potentially cutting deployment from several years to approximately 12 months. The company also highlighted lower power requirements, reduced water consumption through closed-loop cooling or air-cooled systems, and smaller facility footprints compared to traditional large-scale campuses.

Rather than pursuing a “bigger is better” strategy, BluSky AI is focused on rapid deployment, modular scalability, and disciplined execution. The company views this approach as better aligned with the evolving needs of the AI industry, especially with new Inference demands.

The BluSky AI team has been stating that they are focused on building a future network of AI Factories for training, but also with a core in targeting inference needs, and the 80% Training models will flip to inference. At the GTC Conference CEO Jensen Huag agree by stated, “The Inflection Point for Inference has arrived”. 

Another key component of the company’s strategy is its Neocloud platform, which is expected to leverage a portfolio of SkyMod AI Factory locations across the United States with projected future capacity exceeding 250 MW. BluSky AI believes the platform is uniquely positioned to address several key AI infrastructure bottlenecks by targeting faster time-to-market, near-term revenue opportunities, scalable client solutions, and reduced risks associated with lengthy development cycles.

The company also outlined several advantages their digital infrastructure may offer over traditional cloud infrastructure, including enhanced compute availability, improved cost efficiency, interoperability, streamlined user experiences, and greater flexibility for innovation. They reviewed their opportunity for providing GPU-as-a-Service for “start-up to scale-up” and providing bare metal solutions for dedicated AI applications, as well as providing resources to other Neoclouds. 

Beyond its technology and infrastructure strategy, BluSky AI emphasized the depth of experience within its leadership team, which spans finance, data centers, telecommunications, technology, blockchain, natural resource development, and energy.

The company is led by CEO Trent D’Ambrosio, whose background includes natural resource development, hedge fund management, hyperscale data center development, and telecommunications, including involvement in the first transatlantic fiber cable project and the development of a successful mining company.

BluSky AI’s executive team also includes CTO Julien Bedard, who is known for launching an early Bitcoin escrow and anti-fraud platform, and COO Dan Gay, who brings Fortune 500 leadership and business expansion experience, Riley Cooney who was a Core Scientific Director in the early days expanding from 8 MW to over 800 MW and assisting in their IPO, and Andi Huels who is their Chief AI Officer who held that same capacity at Lenovo Computers. 

For more information, visit the company’s website at BluSkyAIDataCenters.com.

NOTE TO INVESTORS: The latest news and updates relating to BSAI are available in the company’s newsroom at https://ibn.fm/BSAI

From Our Blog

Greenland Energy Company (NASDAQ: GLND) Gains Relevance as Energy-Security Concerns Intensify

July 10, 2026

In reaction to the ongoing conflict within the Middle East, the global energy market has once again been reminded how quickly geopolitical events can disrupt oil supplies and drive volatility across economies. Discussions surrounding the Strait of Hormuz and the strategic importance of new oil-producing regions have highlighted the need for diversified energy sources, creating […]

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