IonQ Quantum Computing Achieves Greater Accuracy Simulating Complex Chemical Systems to Potentially Slow Climate Change

New advancement lays groundwork for quantum-enhanced modeling in carbon capture and molecular dynamics

COLLEGE PARK, Md.--(BUSINESS WIRE)-- IonQ (NYSE: IONQ), a leading quantum company, today announced a significant advancement in quantum chemistry simulations, demonstrating the accurate computation of atomic-level forces with the quantum-classical auxiliary-field quantum Monte Carlo (QC-AFQMC) algorithm. This demonstration – in collaboration with a top Global 1000 automotive manufacturer – proved more accurate than those derived using classical methods and marks a milestone in applying quantum computing to complex chemical systems.

Computational chemistry techniques are used to predict forces arising from the atomic interactions and can be used to determine chemical reactivity. The ability to simulate atomic forces with extreme precision is critical for modeling materials that absorb carbon more efficiently. Accurate force calculations are essential for modeling how molecules behave and react, which is foundational to everything from drug discovery to decarbonization. With results shown by IonQ’s demonstration, quantum computing’s role in solving real-world chemistry problems has made meaningful progress.

Unlike previous research which focused on isolated energy calculations, IonQ’s implementation enabled the calculation of nuclear forces at critical points where big changes occur. These forces can be fed into classical computational chemistry workflows to trace reaction pathways, improving estimated rates of change within systems, and aiding in the design of more efficient carbon capture materials.

“This research demonstrates a clear path for quantum computing to enhance chemical simulations that are foundational to decarbonization technologies,” said Niccolo de Masi, Chairman and CEO at IonQ. “Our work goes beyond academic benchmarks. It demonstrates a practical capability that can be integrated into molecular dynamics workflows used across pharmaceuticals, battery, and chemical industries.”

Building on IonQ’s prior collaborations in computational chemistry, this advancement extends IonQ’s work with the QC-AFQMC algorithm, one of the methods that IonQ believes will deliver commercial advantage in the coming years, while adding another use case that deepens the company’s expertise and expands its quantum chemistry portfolio.

About IonQ

IonQ, Inc. [NYSE: IONQ] is a leading quantum company delivering solutions to solve the world’s most complex problems. IonQ’s current generation quantum computers, IonQ Forte and IonQ Forte Enterprise, are the latest in a line of cutting-edge systems that have been helping customers and partners such as Amazon Web Services, AstraZeneca, and NVIDIA achieve 20x performance results.

The company is accelerating its technology roadmap and intends to deliver the world’s most powerful quantum computers with 2 million qubits by 2030 to accelerate innovation in drug discovery, materials science, financial modeling, logistics, cybersecurity, and defense. IonQ’s advancements in quantum networking and sensing also position the company as a leader in building the quantum internet.

The company’s innovative technology and rapid growth were recognized in Fortune Future 50, Newsweek’s 2025 Excellence Index 1000, Forbes’ 2025 Most Successful Mid-Cap Companies list, and Built In’s 2025 100 Best Midsize Places to Work in Washington DC and Seattle, respectively. Available through all major cloud providers, IonQ is making quantum computing more accessible and impactful than ever before. Learn more at IonQ.com.

Learn more at IonQ.com.

IonQ Forward-Looking Statements

This press release contains certain forward-looking statements within the meaning of Section 27A of the Securities Act of 1933, as amended, and Section 21E of the Securities Exchange Act of 1934, as amended. Some of the forward-looking statements can be identified by the use of forward-looking words. Statements that are not historical in nature are intended to identify forward-looking statements. These statements include those related to the IonQ’s quantum computing capabilities and plans; IonQ’s technology driving commercial quantum advantage or delivering scalable, fault-tolerant quantum computing in the future; the relevance and utility of quantum algorithms and applications run on IonQ’s quantum computers; the necessity, effectiveness, and future impacts of IonQ’s offerings available today; and the scalability, fidelity, efficiency, viability, accessibility, effectiveness, importance, reliability, performance, speed, impact, practicality, feasibility, and commercial-readiness of IonQ’s offerings. Forward-looking statements are predictions, projections, and other statements about future events that are based on current expectations and assumptions and, as a result, are subject to risks and uncertainties. Many factors could cause actual future events to differ materially from the forward-looking statements in this press release, including but not limited to: IonQ’s ability to implement its technical roadmap; changes in the competitive industries in which IonQ operates, including development of competing technologies; IonQ’s ability to deliver, and customers’ ability to generate, value from IonQ’s offerings; IonQ’s ability to deliver higher speed and fidelity gates with fewer errors, enhance information transfer and network accuracy, or reduce noise and errors; IonQ’s ability to sell effectively to government entities and large enterprises; changes in laws and regulations affecting IonQ’s and its suppliers’ businesses; IonQ’s ability to implement its business plans, forecasts, roadmaps and other expectations, to identify and realize partnerships and opportunities, and to engage new and existing customers; IonQ’s ability to effectively enter new markets; IonQ’s ability to deliver services and products within currently anticipated timelines; IonQ’s inability to attract and retain key personnel; IonQ’s inability to effectively integrate its acquisitions; IonQ’s customers deciding or declining to extend contracts into new phases; the inability of IonQ’s suppliers to deliver components that meet expectations timely; changes in U.S. government spending or policy that may affect IonQ’s customers; and risks associated with U.S. government sales, including availability of funding and provisions that allow the government to unilaterally terminate or modify contracts for convenience; changes in laws and regulations affecting IonQ’s patents; and IonQ’s ability to maintain or obtain patent protection for its products and technology, including with sufficient breadth to provide a competitive advantage. You should carefully consider the foregoing factors and the other risks and uncertainties disclosed in the Company’s filings, including but not limited to those described in the “Risk Factors” section of IonQ’s most recent periodic financial report (10-Q or 10-K) filed by IonQ with the Securities and Exchange Commission. These filings identify and address other important risks and uncertainties that could cause actual events and results to differ materially from those contained in the forward-looking statements. Forward-looking statements speak only as of the date they are made. Readers are cautioned not to put undue reliance on forward-looking statements, and IonQ assumes no obligation and does not intend to update or revise these forward-looking statements, whether as a result of new information, future events, or otherwise. IonQ does not give any assurance that it will achieve its expectations. IonQ may or may not choose to practice or otherwise use the inventions described in the issued patents in the future.

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Source: IonQ, Inc.