Lab Partnering Service Discovery

Professor of Chemistry, received his B.S. in 1997 from Pennsylvania State University, where he worked in the group of Prof. Ayusman Sen on palladium-catalyzed co- and terpolymerizations. He earned his Ph.D. from the University of California, Berkeley in 2003 under the guidance of Prof. T. Don Tilley, primarily focused on the development of new catalytic C–H bond functionalizations. Following postdoctoral work at the Swiss Federal Institute of Technology (ETH Zürich) with Antonio Togni investigating catalytic asymmetric hydroamination and hydrophosphination, Aaron joined the chemistry faculty at Iowa State University in 2005. He was promoted to associate professor in 2011, and to professor in 2016.

Brookhaven National Laboratory

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504

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Brookhaven National Laboratory (BNL) is a multipurpose research institution funded primarily by the U.S. Department of Energy's Office of Science and located in the center of Long Island, New York. Home to seven Nobel Prizes, BNL brings world-class facilities and expertise to the most exciting and important questions in basic and applied science—from the birth of our universe to the sustainable energy technology of tomorrow. We operate cutting-edge large-scale facilities for studies in physics, chemistry, biology, energy, applied science, and a wide range of advanced technologies. The Laboratory's 2,700 scientists, engineers, and support staff are joined each year by more than 4,000 visiting researchers from around the world. Our award-winning history stretches back to 1947, and we continue to unravel mysteries from the nanoscale to the cosmic scale, and everything in between.

Energy research represents a major focus for BNL over the next decade. We are using a multifaceted approach driven by the unique state-of-the art laboratory facilities and the inter-disciplinary expertise of our scientific staff to solve fundamental questions regarding U.S. energy independence and to translate discoveries into deployable technologies. The laboratory has identified several energy focus areas – including biofuels, complex materials, catalysis, and solar energy.

BNL's one-of-kind user facilities include the National Synchrotron Light Source II NSLS-II, which produces extremely bright beams of x-ray, ultraviolet, and infrared light for scientists exploring materials—including superconductors, catalysts, geological samples, and proteins—to accelerate advances in energy, environmental science, and medicine. Scientists at our Center for Functional Nanomaterials create materials and explore their unique structure and properties at the nanoscale, with a focus on more efficient solar and energy storage materials. And at BNL's Northeast Solar Energy Research Center, where researchers from labs, academia, and industry study test new solar technologies, working to make solar "power plants" more efficient and economical

In addition to fundamental research, the laboratory actively collaborates with industry and other academic institutions to bring the benefits of scientific discoveries to the marketplace. Brookhaven's Office of Strategic Partnerships integrates Brookhaven Lab's industry engagement, technology licensing, and economic development functions to expand the impact of collaborative research and technology commercialization. Strategic Partnerships supports the Laboratory's science mission through identifying, pursuing and managing partnerships with a broad set of private-sector companies, federal agencies, and non-federal entities. For information on licensing and industry.

Jeff Urban

Lawrence Berkeley National Laboratory

Areas of Expertise

Thermoelectric Power

Nanomaterials

Catalysts

Electrochemical

Synthesis

Advanced Materials

Energy Storage

Carbon Capture

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He is a staff scientist and facility director at Lawrence Berkeley National Laboratory’s Molecular Foundry leading research in thermoelectrics and hydrogen storage. His research focuses on the materials and physics of mass, heat, and charge transport in complex hybrid nanomaterials. His expertise is developing new materials and measurement tools for solid-state energy storage and conversion applications; investigating transport at the organic-inorganic interface; and identifying energy efficient desalination methods.

Areas of expertise: energy storage, hydrogen storage, thermoelectrics, new materials for desalination and water remediation, 2D materials, nanotechnology

Lawrence Berkeley National Laboratory

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1k⁺

Patents

Stories

Facilities

212

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Lawrence Berkeley National Laboratory (Berkeley Lab), a U. S. Department of Energy Office of Science national lab managed by the University of California, delivers science solutions to the world â€“ solutions derived from hundreds of patented and patent pending technologies plus scores of copyrighted software tools and published, peer-reviewed manuscripts.

Berkeley Lab has more than one hundred cutting-edge research projects using AI to find new scientific solutions to national problems. Through this effort, computer scientists, mathematicians, and domain scientists are collaborating to turn burgeoning datasets into scientific insights. Visit Berkeley Labâ€™s Machine Learning for Science site for more information.

Berkeley Labâ€™s advanced materials expertise is applied to innovation in batteries and other energy storage technologies, semiconductors, and photovoltaics. Additional energy-related areas of expertise include grid modernization and security, bio-based fuels and chemicals and building energy and demand response. Several National User Facilities are available for collaborative engagement: the Advanced Light Source, Molecular Foundry, National Energy Research Scientific Computing Center (NERSC), Energy Sciences Network, and the Joint Genome Institute. Other specialized facilities include FLEXLAB for building energy research and the Advanced Biofuels Process Demonstration Unit.

Ernest Orlando Lawrence, the lab's founder, believed team science yielded the greatest discoveries. That belief is reflected today in interdisciplinary teams and collaborative projects connecting Berkeley Lab, industry, and other research organizations. Berkeley Lab's Intellectual Property Office, connects industry partners with lab innovations and unique facilities to enable lab-to-market transition.

J. Anibal Boscoboinik

Brookhaven National Laboratory

Areas of Expertise

Surface Science

Catalysts

Advanced Materials

Thin Films

Nanomaterials

Instrumentation

Materials Characterization

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His research revolves around the study of solid surfaces with focus in experimental model systems for heterogeneous catalysts. Specifically, he pioneered the development of surface science models for zeolites, the most used catalysts in the industry, while working at the Fritz Haber Institute of the Max-Planck Society in Berlin, Germany. His current research at the Center for Functional Nanomaterials focuses on experimental models for zeolites and other catalysts aiming at elucidating the reaction mechanisms for catalytic processes of importance for energy transformations. At Brookhaven National Laboratory, he is in charge of the Ambient Pressure Photoelectron Spectroscopy endstation, in partnership with the National Synchrotron Light Source II. He received his bachelor’s in chemistry from University of San Luis, Argentina, and doctorate in chemistry from the University of Wisconsin-Milwaukee, followed by postdoctoral research at the Fritz-Haber Institute of the Max-Planck Society under the auspices of the Alexander von Humboldt Foundation.

Theresa Windus

Ames Laboratory

Areas of Expertise

Machine Learning

Computer Code Validation

Solvent Extraction

Critical Material Recovery

Optics

Catalysts

Modeling

Simulation

Solar

Rare Earth Materials Technology

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She has more than 30 years of experience in theoretical and computational chemistry. She develops new methods and algorithms for high performance computational chemistry as well as applying those techniques to both basic and applied research. Her current application interests are rare earth and heavy element chemistry, separations, catalysis, aerosol formation, cellulose degradation, and photochemistry. Much of her research interests involve large, collaborative efforts between scientists in multiple fields working together to solve difficult scientific challenges. She is a distinguished professor in the Chemistry Department of Iowa State University. Prior to joining Ames Laboratory, she worked at Pacific Northwest National Laboratory as the lead for the NWChem development group and the Visualization and User Services Group. She also worked at the Wright Patterson Air Force Base in technology transfer and training. She received her bachelor’s in chemistry, mathematics, and computer science from Minot State University and her doctorate in physical chemistry from Iowa State University.

Igor Slowing

Ames Laboratory

Areas of Expertise

Additive Manufacturing

Adsorption

Critical Material Recovery

Nanomaterials

Coating Materials

Gas Separation

Catalysts

Aqueous Separations

Materials Characterization

Advanced Materials

Rare Earth Materials Technology

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Igor I. Slowing received his License degree in Chemistry at San Carlos University, Guatemala in 1995, and his Ph.D. at Iowa State University in 2008. He joined the Ames Laboratory as a staff scientist in 2009, and joined the Department of Chemistry of Iowa State University in 2013 as an Adjunct Professor. His research focuses on the development of multifunctionalized nanostructured materials for catalysis, especially for conversions of biorenewable resources into commodity chemicals, and in the design of additive manufacturing approaches for generating chemically active architectures.

Rob Dagle

Pacific Northwest National Laboratory

Areas of Expertise

Catalysts

Carbon Capture Processes

Carbon Capture

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Mr. Dagle’s research interests lie in the area of heterogeneous catalysis and chemical process development. Currently, Mr. Dagle manages projects for the Department of Energy’s Bioenergy Technologies Office (DOE-BETO) in the area of thermochemical conversions. Research experience with multiple catalytic process applications include: steam reforming of hydrocarbons and bio-derived oxygenates for H2 production, conversion of bio-derived light oxygenates (e.g., ethanol, acetic acid) to fuels and chemicals, catalytic combustion, water-gas-shift catalysis, reactive distillation, syngas conversion technologies (e.g., synthesis of alcohols, transportation fuels, synthetic natural gas, and hydrogen), and chemical synthesis (e.g., acetic acid, olefins, alcohols). Mr. Dagle also has development experience with integrating engineered catalysts within novel reactor architectures for process intensification purpose (e.g., meso- and micro-channel technology). His work has benefited clientele in both the government and private industry arena and has resulted in numerous journal articles, book chapters, and presentations. Responsibilities include keeping current with associated R&D technology areas, developing and writing proposals, leading projects, and mentoring of junior staff and students. Mr. Dagle has authored > 30 peer reviewed publications, 6 book chapters, 10 issued U.S. patents, and 1 R&D 100 award (2014).

Pacific Northwest National Laboratory

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2k⁺

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The Pacific Northwest National Laboratory (PNNL) is focused on DOE' s missions in science, energy, environment, and national security.PNNL researchers integrate across fundamental science and applied technology programs, engaging partners across the country to take on big challenges.Every year, we are privileged to help hundreds of businesses ranging from entrepreneurial startups to multi-national corporations.They can tap into thousands of PNNL experts to help them solve perplexing, technical problems, develop new technology products, obtain the rights to technologies and software, and receive specialized assistance for competitive advantage.

National Renewable Energy Laboratory

Experts

718

Patents

Stories

Facilities

253

Technologies

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The National Renewable Energy Laboratory is the only federal laboratory dedicated to the research, development, commercialization, and deployment of renewable energy and energy efficiency technologies.We focus on creative answers to today's energy challenges, from breakthroughs in fundamental science to new clean technologies to integrated energy systems that power our lives. NREL researchers are transforming the way the nation and the world use energy. Our primary research and development areas are: Analysis, Bioenergy, Buildings, Geothermal, Grid Modernization, Hydrogen and Fuel Cells, Solar, Transportation, Water Power and Wind Energy.

Ames Laboratory

Experts

105

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Ames Laboratory, a U.S. Department of Energy Office of Science National Laboratory managed by Iowa State University, creates materials and energy solutions. With its roots in the Manhattan Project, Ames Laboratory today seeks solutions to energy-related problems of national importance through the exploration of physics, chemistry, engineering, applied mathematics, and materials sciences.

Ames Laboratory accelerates the discovery of new materials and adds value by sharing these materials and its expertise with the scientific community and partners throughout the U.S. and the world. We advance and promote the application of these materials for economic and national security. Through Strategic Partnership Projects, Ames Laboratory enhances our national and economic competitiveness while reducing technical barriers for U.S. industry. We are a top national laboratory in converting science into licensed technologies.

Today, we are addressing the global challenge of critical materials as we lead the Critical Materials Institute, a DOE Energy Innovation Hub. And we are tackling the 100-year-old technology of compressed vapor refrigeration to significantly improve efficiency and reliability through the CaloriCoolTM consortium, part of DOE's Energy Materials Network.

Ames Lab's Materials Preparation Center is recognized by researchers worldwide for its unique capabilities in the purification, preparation, and characterization of rare earths and other materials. We also characterize materials with specialty tools we develop and with world-leading capabilities at our Sensitive Instrument Facility.

Lawrence Livermore National Laboratory

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For more than 60 years, the Lawrence Livermore National Laboratory has applied science and technology to make the world a safer place. Livermore's defining responsibility is ensuring the safety, security and reliability of the nation' s nuclear deterrent. Yet LLNL's mission is broader than stockpile stewardship, as dangers ranging from nuclear proliferation and terrorism to energy shortages and climate change threaten national security and global stability. The Laboratory' s science and engineering are being applied to achieve breakthroughs for counter terrorism and nonproliferation, defense and intelligence, energy and environmental security.

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