ASP Isotopes Inc. Announces Collaboration with University of Bristol for Revolutionary Lithium Laser Research Facility

ASPI's QLE collaborates with the University of Bristol to design a lithium laser research facility for advanced nuclear fuels.

Quiver AI Summary

ASP Isotopes Inc. announced that its UK subsidiary, Quantum Leap Energy LLC, has entered a strategic partnership with the University of Bristol to design a cutting-edge lithium laser research facility. This collaboration aims to enhance QLE's commercial strategy to meet increasing demands for advanced nuclear fuels. The University will oversee the initial design and feasibility study for the facility over four months, involving detailed engineering specifications and safety reviews. The project aligns with QLE's commitment to safety and regulatory compliance and is supported by consultations with UK government bodies. The facility is expected to play a key role in advancing nuclear fuel technology, particularly in the enrichment of lithium isotopes essential for fission and fusion energy applications.

Potential Positives

ASP Isotopes Inc.'s collaboration with the University of Bristol marks a significant milestone in advancing innovative technologies for nuclear fuel, highlighting the company's commitment to meeting growing market demand.
The partnership leverages the University of Bristol's world-class expertise, enhancing the credibility and potential success of the development of a state-of-the-art lithium laser research facility.
This initiative reinforces QLE's strategic focus on building partnerships with leading academic institutions, which could drive technological advancements in nuclear fuels and expand business opportunities.
The project aligns with UK government and regulatory bodies, showcasing QLE's commitment to safety, security, and regulatory compliance in nuclear technology developments.

Potential Negatives

Possible over-reliance on the collaboration with the University of Bristol, which may not yield the anticipated results within the expected timeframe, raising concerns about project feasibility and resource allocation.
The mention of risks and uncertainties related to forward-looking statements highlights potential instability in the company's future plans and performance, which may deter investors.
The strategic collaboration, aimed at addressing "rapidly growing market demand," suggests the company may currently face challenges in meeting existing demand for its technologies or products.

FAQ

What is the purpose of the collaboration with the University of Bristol?

The collaboration aims to design a state-of-the-art lithium laser research facility for advanced nuclear fuels.

How long will the initial design phase take?

The initial design phase for the lithium laser research facility is estimated to take four months.

What expertise does the University of Bristol bring to the project?

The University of Bristol provides expertise in research facility design, lithium handling, and various engineering fields.

What technologies will Quantum Leap Energy focus on?

Quantum Leap Energy will focus on uranium conversion, isotopic separation of lithium, and advanced nuclear fuel technologies.

How does QLE ensure safety in its operations?

QLE consults with UK government and regulatory bodies to maintain high standards of safety and regulatory compliance.

Disclaimer: This is an AI-generated summary of a press release distributed by GlobeNewswire. The model used to summarize this release may make mistakes. See the full release here.

$ASPI Insider Trading Activity

$ASPI insiders have traded $ASPI stock on the open market 11 times in the past 6 months. Of those trades, 0 have been purchases and 11 have been sales.

Here’s a breakdown of recent trading of $ASPI stock by insiders over the last 6 months:

PAUL ELLIOT MANN (Executive Chairman) has made 0 purchases and 4 sales selling 486,806 shares for an estimated $2,947,317.
ROBERT AINSCOW (COO) has made 0 purchases and 5 sales selling 131,876 shares for an estimated $1,055,160.
MICHAEL GORLEY sold 64,000 shares for an estimated $624,236
HEATHER KIESSLING (Chief Financial Officer) sold 80,000 shares for an estimated $463,840

To track insider transactions, check out Quiver Quantitative's insider trading dashboard.

$ASPI Hedge Fund Activity

We have seen 125 institutional investors add shares of $ASPI stock to their portfolio, and 80 decrease their positions in their most recent quarter.

Here are some of the largest recent moves:

ROVIDA ADVISORS INC. removed 2,200,000 shares (-100.0%) from their portfolio in Q3 2025, for an estimated $21,164,000
ALYESKA INVESTMENT GROUP, L.P. added 2,072,851 shares (+73.4%) to their portfolio in Q4 2025, for an estimated $11,089,752
CAPITAL RESEARCH GLOBAL INVESTORS removed 2,043,567 shares (-100.0%) from their portfolio in Q4 2025, for an estimated $10,933,083
VANGUARD GROUP INC added 1,889,481 shares (+41.8%) to their portfolio in Q4 2025, for an estimated $10,108,723
PHILADELPHIA FINANCIAL MANAGEMENT OF SAN FRANCISCO, LLC removed 1,661,494 shares (-100.0%) from their portfolio in Q4 2025, for an estimated $8,888,992
UBS GROUP AG added 1,445,165 shares (+150.3%) to their portfolio in Q4 2025, for an estimated $7,731,632
DRIEHAUS CAPITAL MANAGEMENT LLC removed 1,419,837 shares (-100.0%) from their portfolio in Q4 2025, for an estimated $7,596,127

To track hedge funds' stock portfolios, check out Quiver Quantitative's institutional holdings dashboard.

$ASPI Analyst Ratings

Wall Street analysts have issued reports on $ASPI in the last several months. We have seen 2 firms issue buy ratings on the stock, and 0 firms issue sell ratings.

Here are some recent analyst ratings:

Cantor Fitzgerald issued a "Overweight" rating on 12/04/2025
Canaccord Genuity issued a "Buy" rating on 11/24/2025

To track analyst ratings and price targets for $ASPI, check out Quiver Quantitative's $ASPI forecast page.

$ASPI Price Targets

Multiple analysts have issued price targets for $ASPI recently. We have seen 2 analysts offer price targets for $ASPI in the last 6 months, with a median target of $12.0.

Here are some recent targets:

Derek Soderberg from Cantor Fitzgerald set a target price of $13.0 on 12/04/2025
George Gianarikas from Canaccord Genuity set a target price of $11.0 on 11/24/2025

Full Release

DALLAS, March 24, 2026 (GLOBE NEWSWIRE) -- ASP Isotopes Inc. (NASDAQ: ASPI) (“ASPI”) today announced that a UK subsidiary of Quantum Leap Energy LLC (“QLE”), a wholly-owned subsidiary of ASPI dedicated to advancing innovative technologies and processes across critical segments of the fission and fusion nuclear fuel cycle, has commenced a strategic collaboration with the University of Bristol for the design of a state-of-the-art lithium laser research facility in the UK. This collaboration marks a significant milestone in QLE's commercial strategy to meet rapidly growing market demand for advanced nuclear fuels.

Under the terms of the agreement, the University of Bristol will lead the design and feasibility study for a site-agnostic laser enrichment research facility over an estimated four-month initial phase. The project involves comprehensive desk-based concept design work, detailed engineering specifications, and safety reviews to establish the foundation for what could become a groundbreaking research hub.

"This collaboration with the University of Bristol represents a pivotal step forward in our mission to advance nuclear fuel technology," said Dr Ryno Pretorius, CEO of Quantum Leap Energy LLC. "Bristol University's world-class expertise in research facility design, coupled with their team’s deep understanding of lithium and critical elements in nuclear technology make them an ideal partner for this ambitious project."

The University of Bristol will coordinate a comprehensive team of specialists, including experts in mechanical, electrical, and plumbing specification, structural engineering, architecture, construction project management, pyrophoric lithium handling, and laser safety. The project will progress through multiple phases, including documentation review, safety assessments, cell design development, and detailed facility design work culminating in RIBA Stage 4 (Technical Design) completion.

Subject to a positive feasibility assessment, the parties intend to proceed with construction of the facility at a suitable University of Bristol site off-campus where it will enable cutting-edge research commissioned and funded by QLE.

QLE’s UK program of work has been developed in consultation with key UK government and regulatory bodies, including the Department for Energy Security and Net Zero, the UK Atomic Energy Authority, the Office for Nuclear Regulation, and the Environment Agency, demonstrating QLE's commitment to the highest standards of safety, security and regulatory compliance.

The new collaboration underscores QLE's strategic focus on building partnerships with leading academic institutions to advance technological capabilities that address the rapidly growing market demand for advanced nuclear fuel components. While enriched lithium-6 (⁶Li) is essential for fusion reactors' breeding systems, requiring enrichment levels of 60-90% compared to natural lithium's 7.5% ⁶Li content, lithium-7 (⁷Li) also plays a critical role in some existing and next-generation fission technologies. The QE technology, originally developed for uranium isotope separation, leverages quantum mechanical principles to achieve isotopic separation with several compelling advantages over existing methods and represents a unique strategic opportunity that could redefine nuclear energy supply economics.

About Quantum Leap Energy

Quantum Leap Energy is a development stage nuclear fuels company dedicated to advancing innovative technologies and processes across critical segments of the nuclear fuel cycle. The Company focuses on both front-end activities, including uranium conversion, enrichment of uranium-235 for nuclear fuel production (HALEU, LEU+ and LEU), and isotopic separation of lithium-6 and lithium-7, as well as back-end radioactive waste treatment technologies. Through exclusive global rights to proprietary Aerodynamic Separation Process (ASP) and laser-based Quantum Enrichment (QE) technologies, Quantum Leap Energy aims to address gaps in the nuclear fuel supply chain for advanced nuclear reactors, small modular reactors, and fusion systems. The Company has established strategic partnerships with industry leaders including TerraPower, Fermi America, and the South Africa Nuclear Energy Corporation (Necsa) to accelerate the commercialization of critical isotopes essential for next-generation nuclear energy systems. For additional information, please visit: https://www.qleapenergy.com/ .

About ASP Isotopes Inc.

ASP Isotopes is developing a differentiated isotope enrichment platform to strengthen global supply chain access to critical materials used in nuclear medicine, next-generation semiconductors, and nuclear energy. The Company’s proprietary technologies, the Aerodynamic Separation Process (“ASP technology”) and Quantum Enrichment (“QE technology”), are designed to enable the production of isotopes for a range of industrial and advanced technology applications. ASP Isotopes operates isotope enrichment facilities in Pretoria, South Africa, focused on the enrichment of low atomic mass elements, or light isotopes. For more information, please visit www.aspisotopes.com .

Forward-Looking Statements

Statements contained herein relating to future plans, results, performance, expectations, achievements and the like are considered “forward-looking statements” within the meaning of the Private Securities Litigation Reform Act of 1995. These forward-looking statements include, but are not limited to, the outcome of the collaboration with Bristol University, the commencement of research, development and production activities in the United Kingdom, the future of the company’s enrichment technologies as applied to lithium enrichment, the outcome of the company’s initiative to commence enrichment of lithium in the UK and the company’s discussions with nuclear regulators in the UK, QLE’s anticipated growth strategies and anticipated trends in QLE’s business, statements related to the anticipated benefits to QLE and the collaboration resulting from the research agreement discussed herein, and statements we make regarding expected operating results, such as future revenues and prospects from the potential commercialization of isotopes, future performance under contracts, and our strategies for product development, engaging with potential customers, market position, and financial results. These forward-looking statements involve known and unknown risks, uncertainties, and other factors, many of which may be beyond QLE’s or ASPI’s control, that may cause actual results to differ materially from any future results, performance or achievements expressed or implied by any forward-looking statements. All forward-looking statements speak only as of the date hereof. QLE and ASPI undertake no obligation to revise or update any forward-looking statements except as may be required by applicable law.

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