Lab Partnering Service Discovery
Use the LPS faceted search filters, or search by keywords, to narrow your results.
Mr. Balsmeier has over 15 years of experience in the nuclear industry including reactor core manufacturing, design engineering, project engineering/management, and nuclear construction. He is currently the Nuclear Remote Systems Department Manager at the Materials and Fuels Complex (MFC). Mr. Balsmeier began his career in 2003 as an Officer in the United States Navy. Mr. Balsmeier was assigned as an engineer at Naval Reactor Headquarters, NAVSEA 08, supporting reactor core manufacturing and development. After his Naval service, Mr. Balsmeier started as a project and design engineer for the Advanced Test Reactor (ATR) at Idaho National Laboratory (INL) in 2008. He focused on plant modifications to support experiments while at ATR. Mr. Balsmeier joined Westinghouse Electric Company in 2011 as a project support engineer for construction of the lead AP1000 plant, Sanmen 1 in Zhejiang, China. While at Sanmen, he focused on reactor plant piping installation and construction of the containment vessel and shield building. In 2014, Mr Balsmeier returned to INL working as an engineer at MFC. While at MFC, he participated in numerous modifications of the Hot Fuels Examination Facility, facility modifications and buildout of research capabilities in the Irradiated Materials Characterization Laboratory, and most recently as an engineering manager. Mr. Balsmeier holds a BS degree in Aerospace Engineering from the University of Kansas and a MS in Engineering Science from the Naval Postgraduate School. Mr. Balsmeier is a licensed Professional Engineer.
A senior research fellow in the Biosciences Center, Dr. Michael Himmel has more than 35 years of experience in conducting, supervising, and planning research in: protein biochemistry, recombinant technology, enzyme engineering, new micro-organism discovery, and physicochemistry of macromolecules.
Dr. Himmel has supervised research that targets the application of site-directed mutagenesis and rational protein design to the stabilization and improvement of important industrial enzymes, especially glycosyl hydrolases. He has functioned as PI for the DOE EERE Office of the Biomass Program (OBP) since 1992, and his responsibilities have included: research to improve cellulase performance; reducing biomass pretreatment costs; and improving yields of fermentable sugars. Dr. Himmel also developed new facilities at NREL for biomass conversion research, including a Cellulase Biochemistry Laboratory, a Biomass Surface Characterization Laboratory, a Protein Crystallography Laboratory, and a new Computational Science Team.
During the past three decades, Dr. Himmel contributed 345 peer reviewed journal articles to the literature. In addition, he has edited eight books and been awarded 25 patents. He has organized or co-organized 15 international conferences on aspects of biotechnology and biomass conversion. In 2008, Dr. Himmel edited a new book for Blackwell Publishers entitled "Biomass Recalcitrance," which is listed as a top selling book in science and has now been translated into Chinese. He served as chair for the new Gordon Research Conference on cellulases and cellulosomes in 2003 and continues to support the conference. Dr. Himmel currently works closely with the biomass conversion industry, as demonstrated by the numerous CRADAs currently underway in his NREL laboratory.
Dr. Guarnieri is a research scientist with experience in biochemistry and molecular genetics, biophysics, and structural biology. Dr. Guarnieri's prior research included examining viral secretions and virus-host interactions.
At the National Renewable Energy Laboratory, Dr. Guarnieri uses a systems biology approach—utilizing functional genomic, molecular, and biophysical techniques to identify, analyze, and engineer pathways involved in algal, bacterial, and fungal hydrocarbon and biochemical production. His current research interests include:
- Biocatalysis of methane to liquid fuels and chemicals,
- Biological upgrading of sugars to value-added chemicals in yeast and bacterial systems,
- Algal omics, protein engineering, and signal transduction,
- Biological deconstruction and upgrading of lignin, and
- Metabolic and protein engineering for enhanced hydrocarbon production.
For more information about Dr. Guarnieri's research at the National Renewable Energy Laboratory, please see his summary here.
Dr. Viktor P. Balema is a Senior Scientist at Ames Laboratory. He joint the laboratory in 2016 to lead new materials development and commercialization at Ames’ led DOE consortium (CaloriCool) founded by US Department of Energy’s Advanced Manufacturing Office. His technical expertise comprises development of biologically active compounds, hard and hybrid materials, polymers and chemical recycling.
Before joining Ames Laboratory, Viktor served in various leading roles, including Hard Materials Head and Global R&D Manager, at Sigma-Aldrich Corporation - a major materials supplier to research and commercial markets. Once at Ames Laboratory, Dr. Balema served on the laboratory’s Research Management Team and Technical Advisory Committee of REMADE Institute and contributed to the development of the Strategic Plan for Ames Laboratory.
Scientific expertise of Dr. Balema spans over chemistry of bio-active agents, synthetic materials chemistry as well as upcycling of spent products, including rare earths and polymers. Viktor published over 70 papers, reviews and proceedings in open literature and filed ~15 US and international patents and IP disclosures. He also developed and commercialized numerous proprietary materials that have been offered through diverse business channels.
Dr. Peterman is a distinguished staff scientist within the Aqueous Separations and Radiochemistry department at Idaho National Laboratory (INL). He has expertise in nuclear fuel cycle separations, radiation chemistry and f-element solution chemistry. At INL he has developed processes for the separation of fission products from acidic dissolved nuclear fuel, and developed and characterized fluorinated aromatic dithiophosphinic acid extractants. These unusual molecules exhibit remarkable selectivity for trivalent actinides over fission product lanthanides, which is a key unresolved challenge in developing closed nuclear fuel cycles. In the area of radiation chemistry, he designed and commissioned an irradiation test loop for the investigation of gamma radiolytic degradation of solvent extraction process flowsheets. He has numerous publications in the areas of separations chemistry and radiation chemistry, and holds seven US patents. His research teams have been recognized with an R&D 100 Award in 2011, a 2014 Secretary of Energy’s Honor Award for Salt Waste Disposal Technologies and a 2015 US-DOE Certificate of Appreciation for the INL Solvent Degradation and Radiation Chemistry Team.