BASIC ENERGY SCIENCES -- Serving the Present, Shaping the Future

1. BASIC ENERGY SCIENCES -- Serving the Present, Shaping the Future Basic Energy Sciences Advisory Committee Patricia M. Dehmer Associate Director of Science for Basic Energy Sciences22 July 2002 http://www.science.doe.gov/bes

2. What’s New? • News • FY 2003 budget update • Update on FY 2002 NSET awards and the Nanoscale Science Research Centers • Follow on activities resulting from the Chemical Sciences Committee of Visitors • Who’s new in BES and on BESAC • Updates on HFIR, LANSCE, SNS and LCLS and Microscopy Centers • BES reviews of the synchrotron radiation light sources • BESAC/BES Activities and Workshops Completed, to be reported at this meeting • Theory and Modeling in Nanoscience (Joint with ASCAC; Bill McCurdy/ Ellen Stechel) • Opportunities for Catalysis Science in the 21st Century (Michael White) • Basic Research Needs for Countering Terrorism Workshop (BES; Terry Michalske, Chair; Walter Stevens, BES lead) Scheduled • Basic Research Needs to Assure a Secure Energy Future (John Stringer, Linda Horton, October 21-25, 2002) New charges to be discussed at this meeting (BESAC) • Committee of Visitors - Materials Sciences and Engineering (TBD) • 4th Generation X-ray Science (TBD)

3. SBIR/STTR 17.7 175.9 251.6 Research (Universities*) Construction Research 12.6 GPP (Laboratories) 231.9 76.2 Capital Eq User Facilities 9.1 AIP (Operating) 244.6 FY 2003 BES President’s Request B/A in millions of dollars $ 1,019.6 * Includes the funding for not-for-profits, other agencies, and private institutions

4. FY 2003 Budget Highlights • Increases for science at the nanoscale • Condensed matter physics, materials synthesis and processing, catalysis • Project Engineering & Design (PED) and Construction funding of nanoscale science research centers • Increases for other BES core activities • Materials chemistry, photochemistry, separations science, heavy-element chemistry • Increases for facility operations, upgrades, and construction • Synchrotron light sources, neutron scattering facilities, combustion research facility • Completion of SPEAR 3 upgrade • Full funding for the Spallation Neutron Source • PED funding for the Linac Coherent Light Source • Increases for major instrumentation • Instrumentation for x-ray and neutron scattering research • Also, an increase in ASCR for computational nanosciences

5. 12,801 14,690 18,595 3,905 30,808 27,650 29,602 1,952 35,837 34,115 38,020 3,905 31,682 40,611 54,377 13,766 26,298 26,064 29,163 3,099 25,464 24,779 31,333 6,554 14,393 12,967 14,407 1,440 8,154 7,637 8,637 1,000 The FY 2003 Budget Provided Increases for Research … (dollars in thousands) FY 2001 FY 2002 FY 2003 $ Change Materials Sciences and Engineering Synthesis and Processing Science Materials Chemistry Experimental Condensed Matter Physics Neutron and X-ray Scattering Chemical Sciences, Geosciences, and Energy Biosciences Photochemistry and Radiation Research Catalysis and Chemical Transformation Separations and Analyses Heavy Element Chemistry

6. FY 2001 FY 2002 FY 2003 $ Change % Change Operation of National User Facilities 35,605 37,009 39,561 2,552 6.90 Advanced Light Source 90,314 87,380 91,291 3,911 4.48 Advanced Photon Source 34,720 33,671 35,893 2,222 6.60 National Synchrotron Light Source 21,696 21,357 22,673 1,316 6.16 Stanford Synchrotron Radiation Laboratory 15,341 0 0 0 High Flux Beam Reactor 37,197 37,872 36,854 -1,018 -2.69 High Flux Isotope Reactor 6,512 6,606 6,712 106 1.60 Radiochemical Engineering Development 13,833 15,826 17,015 1,189 7.51 Intense Pulsed Neutron Source 9,190 9,044 9,678 634 7.01 Manuel Lujan, Jr. Neutron Scattering Center 19,059 15,100 14,441 -659 -4.36 Spallation Neutron Source 283,467 263,865 274,118 Totals … and Increases for Operations of Major Scientific User Facilities

7. Current Status of FY 2003 Budget Dollars in Thousands FY 2002 Comparable FY 2003 FY 2003 Difference * Basic Energy Sciences Appropriation Request House Mark vs. FY03R Materials Sciences and Engineering 512,522 547,883 547,883 0 Chemical Sciences, Geosciences, and Energy Biosciences 207,783 220,146 220,146 0 720,305 768,029 768,029 0 - Subtotal Spallation Neutron Source Construction 276,300 210,571 210,571 0 ORNL Nanoscale Science Research Center 0 24,000 24,000 0 PED, Nanoscale Science Research Centers 3,000 11,000 11,000 0 PED, LCLS 0 6,000 6,000 0 279,300 251,571 251,571 0 - Subtotal (Construction) Total, Basic Energy Sciences 999,605 1,019,600 1,019,600 0 General Reduction 0 0 0 0 Total, Basic Energy Sciences 999,605 1,019,600 1,019,600 0 NSRC PED breakdown: Molecular Foundry, LBNL,$6.8M; CNMS, ORNL, $1.0M; CINT, LANL/SNL, $3.2M *A general reduction of $18,639,000 has been applied to the Science account.

8. For updates: www.science.doe.gov/bes/budget.html

9. FY 2002 NSET Solicitations BES Division Institution Preproposals Proposals Awards Total Funding ($M) National Labs 23 6 4.25 Materials Sciences & Engineering Universities 265 215 27 4.84 Industry 3 0 0 0.00 National Labs 14 6 3.72 Chemical Sciences, Geosciences, Biosciences Universities 263 124 19 5.32 Industry 1 1 0 0.00 TOTALS 532 377 58 18.12

10. Nanoscale Science Research Centers

11. Announcement of Initiation of Conceptual Design of the BNL NSRC Remarks by Secretaryof Energy Spencer AbrahamBrookhaven National LaboratoryJune 14, 2002 President Bush has given the scientific community a challenge. He said recently that the more research and development we do, "the more likely it is we'll find interesting answers to energy problems, or health problems, or national security challenges." And he has made nanotechnology one of the major scientific initiatives of his Administration. So, I've come to Brookhaven today to help fulfill the President's challenge. On behalf of the entire Department of Energy, I am pleased to announce today the approval to begin the Conceptual Design of the $85 million Center for Functional Nanomaterials here at Brookhaven National Laboratory. The Center, which will be located next to the National Synchrotron Light Source, will design new classes of materials ….. http://www.energy.gov/HQDocs/speeches/2002/junss/BrookhavenNationalLaboratory_v.html

12. Further Excerpts from Secretary Abraham’s Speech at BNL DOE and American Leadership in Science Of course, it's not just progress in nanotechnology that will depend upon our Department in the future. The Department of Energy could well have been called the Department of Science and Energy … given our contribution to American science. What is so exciting about the work we do is that we produce benefits to America and the world that go well beyond the original scope of our mission. Researchers probably never anticipated when they started smashing atoms and protons in our large accelerators that their science … their very basic research on matter … would eventually give us remarkable life-saving technology. One of every three hospital patients in the U.S. benefits from nuclear medicine. About 10,000 cancer patients are treated every day with electron beams from linear accelerators. Superconductors developed for high energy accelerators now provide the strong and stable magnetic fields needed for the sharpest Magnetic Resonance Imaging. And accelerators invented for high energy and nuclear physics research now provide intense sources of synchrotron light that is used for structural biology, chemistry, and material research. High energy physicists, looking to share information, invented and helped establish the World Wide Web: a profound advance in human civilization - if only because it occupies the free time of our teenagers. The practical value of basic research is often disguised. And those engaged in it often seek only to follow their curiosity, rather than to find an every day use for their work. But, as I hope I have shown, the connection of basic research to our missions here at DOE couldn't be stronger. I think it's clear. A nation that embraces basic research embraces a brighter future. http://www.energy.gov/HQDocs/speeches/2002/junss/BrookhavenNationalLaboratory_v.html

13. Nanoscience Center User Workshops

14. Follow On Actions from the Chemical Sciences COV The February report of the Committee of Visitors provided recommendations in two main categories: • General recommendations • Both university and laboratory activities [i.e., documentation] will benefit from standardization • National Laboratory program documentation • New initiatives generally well documented • Continuing program documentation less complete • Program specific recommendations During the past six months, we have reexamined our processes for review. We will implement new, standardized processes beginning in FY 2003.

15. Follow On Actions from the Chemical Sciences COV • Presented the merit review procedures for laboratory proposals and grant applications in a table that clearly displays the steps in each process, as well as the analogies • Developed a standard letter to reviewers • Developed an Office of Basic Energy Sciences GUIDE FOR PREPARATION OF REVIEW DOCUMENTS that will be used for laboratory activities • Developed standard document archiving procedures for laboratory activities • Prepared a list of laboratory activities that will be reviewed in FY 2003 After the foundation documents have been “beta tested” for clarity by external readers, they will be placed on the BES website. The new procedures will go into effect at the beginning of FY 2003. The details will be presented to the next COV in 2003.

16. Federal Advisory Committee Role in SC Activities • Six Federal Advisory Committees aid in program assessment and long-range planning for the six major program areas of the Office of Science. • NRC, COSEPUP, Washington Advisory Group, JASON, SEAB, focused workshops, etc. are used for long-range planning. Also, Interagency Working Groups provide both the Administration perspective and federal coordination. Director Raymond Orbach Principal Deputy Director James Decker Deputy Director for Operations Milton Johnson ASCAC BESAC BERAC FESAC HEPAP NSAC Program: FY01 Funding*: ASCR $161.3M BES $973.8M BER $514.1M FES $241.9M HEP $695.9M NP $351.8M Office of Advanced Scientific Computing Res. Associate Director C. Edward Oliver Office of Basic Energy Sciences Associate Director Patricia Dehmer Office of Biological and Environmental Res Associate Director Aristides Patrinos Office of Fusion Energy Sciences Associate Director N. Anne Davies Office of High Energy and Nuclear Physics Associate Director S. Peter Rosen

17. BESAC Activities 1996 - Program Assessment • DOE Synchrotron Radiation Sources and Science (November, 1997; Robert Birgeneau, Chair and Z.-X. Shen, Vice Chair) • Review of the High Flux Isotope Reactor Upgrade and User Program(October, 1998; Jack Crow, Chair) • Review of the Advanced Light Source(February, 2000; Yves Petroff, Chair) • Review of the Electron Beam Microcharacterization Centers(February, 2000; John Stringer, Chair) • Review of IPNS/LANSCE(December, 2000; Ward Plummer, Chair) • Committee of Visitors, Chemical Sciences Research Activities(February 2002; Carl Lineberger, Chair) • Performance Measurement in the Office of Science (February 2002; John Stringer) Program Planning • Neutron Source Upgrades and the Specifications for the SNS(1996) • Research Reactor Upgrades (Robert Birgeneau, Chair) • Spallation Neutron Source Upgrades (Gabriel Aeppli, Chair) • Technical Specifications for the Next Generation Spallation Source (Thomas Russell, Chair) • Novel, Coherent Light Sources(January, 1999; Steve Leone, Chair) • Complex Systems(August, 1999) • Biomolecular Materials (February, 2002; Mark Alper and Sam Stupp, Cochairs) • Opportunities for Catalysis Science in the 21st Century(Report due 2002; Michael White, Chair) • Theory and Modeling in Nanoscience (Report due 2002; Bill McCurdy/Ellen Stechel, Cochairs) • Basic Research Needs to Assure a Secure Energy Future(Report due 2002; John Stringer, Linda Horton, Cochairs)

18. Theory and Modeling in Nanoscience Date: May 10-11, 2002 Co-chairs: William McCurdy, LBNL Ellen Stechel, Ford Motor Co. Organizers: Peter Cummings, Univ. of TN Bruce Hendrickson, SNLDavid Keyes, Old Dominion University Purpose: To identify challenges and opportunities for theory, modeling, and simulation in nanoscience and nanotechnology and to investigate the growing and promising role of applied mathematics and computer science in meeting those challenges. Participation: A broad selection of university and national laboratory scientists contributed to the workshop, which included scientific presentations, a panel discussion, breakout sessions, and short white papers. Report: Submitted to BESAC and ASCAC. ASCAC will obtain electronic approval from its members.

19. Opportunities for Catalysis Science in the 21st Century Date: May 14-16, 2002 Chair: J. Michael White, University of Texas - Austin Purpose: To identify the opportunities and challenges in catalysis and catalytic materials, including the importance of nanoscale catalysis phenomena in achieving understanding and control of chemical transformations. Participation: University, industry, and national laboratory participants/attendees. Report: Submitted to BESAC

20. Basic Research Needs to Assure a Secure Energy Future Date: October 22-25, 2002 Chair: John Stringer, EPRI Co-Chair: Linda Horton, ORNL Purpose: To assess new research opportunities in the basic energy sciences relevant to: fossil energy, solar and renewable energy, nuclear fission, nuclear fusion, hydrogen, distributed generation (transmission, storage, fuel cells, etc.), transportation, and industrial/commerical sectors. Participation: University, industry, and national laboratory participants/attendees. All BESAC members are invited to attend and participate. Report: Winter or spring 2003

21. COV for Materials Sciences and Engineering Division New - July 2002 Charge Date: Spring 2003 Chair: TBD Purpose: The August 10, 1999, charge to BESAC requested that a Committee of Visitors (COV) assess the program management of major elements of the Basic Energy Sciences (BES) program every three to four years. The COV review of the chemical sciences activities held in January 2002 resulted in many improvements to the review process. Consistent with the 1999 charge, BESAC is now asked to conduct a COV review of the activities of the Materials Sciences and Engineering Division. Participation: BESAC recommendations encouraged Report: Summer or fall 2003

22. Short-pulse, Short-wavelength, High-intensity Light Sources New - July 2002 Charge Date: Spring/Summer 2003 Chair: TBD Purpose: BESAC and other groups internationally have identified high-intensity, coherent hard x rays (8- 20 keV or higher) as the most exciting probe for innovative science. For this reason, we have started design of the Linac Coherent Light Source (LCLS) at Stanford, which will provide a source of high-intensity, coherent x rays at 0.15 nanometer. Europe and Japan are planning high-intensity, 0.1-nanometer sources. The assessment should include a survey of the types of sources currently being proposed, the projected scientific impact of each, and the relative importance of each for the scientific programs of BES. This assessment will provide the foundation for establishing a roadmap for x-ray science. Participation: BESAC recommendations encouraged. All BESAC members are invited to the presentations. Report: Summer or fall 2003

23. Office of Basic Energy Sciences Associate Director's Office Staff Contacts Patricia Dehmer, Director Iran Thomas, Deputy Director Mary Jo Martin, Secretary Robert Astheimer F. Don Freeburn Stanley Staten Sharon Long * Materials Sciences and Engineering Division Chemical Sciences, Geosciences, and Biosciences Division * Iran Thomas, Director Christie Ashton, Program Analyst Anna Lundy, Secretary Vacant, William Kirchhoff, Acting Director Karen Talamini, Program Analyst Carolyn Dorsey, Secretary Condensed Matter Physics and Materials Chemistry X-Ray and Neutron Scattering Materials and Engineering Physics Fundamental Interactions Energy Biosciences Research Molecular Processes and Geosciences William Oosterhuis Melanie Becker, Prog. Assistant Robert Gottschall Terry Jones, Prog. Assistant Allan Laufer Sharon Bowser, Prog. Assistant William Millman Vacant, Prog. Assistant Gregory Dilworth Patricia Snyder, Prog. Assistant Structure and Composition of Materials Plant Sciences Experimental Condensed Matter Physics Atomic, Molecular, and Optical Science Catalysis and Chemical Transformation X-ray and Neutron Scattering Gregory Dilworth James Tavares Jerry Smith uDavid Zehner, ORNL Raul Miranda lJulie d'Itri, U. Pittsburgh Altaf (Tof) Carim John Vetrano, PNNL Helen Kerch Eric Rohlfing Biochemistry and Biophysics Walter Stevens Sharlene Weatherwax Theoretical Condensed Matter Physics Separations and Analysis Chemical Physics X-ray and Neutron Scattering Facilities Mechanical Behavior of Materials & Radiation Effects John Miller uHenry Shaw, LLNL William Kirchhoff uFrank Tully, SNL Manfred Leiser Dale Koelling Yok Chen uHarriet Kung, LANL lMichael Kassner, OR State Pedro Montano Materials Chemistry & Biomolecular Materials Photochemistry & Radiation Research Heavy Element Chemistry Spallation Neutron Source(Construction) Physical Behavior of Materials Norman Edelstein, LBNL uHenry Shaw, LLNL Vacant FTE Dick Kelley Aravinda Kini Matesh Varma (PT) Mary Gress Walter Stevens Jeffrey Hoy Vacant FTE Robert Hwang, SNL Nanoscale Science Research Centers (Construction) Facility Operations Chemical Energy and Chemical Engineering Synthesis and Processing Science Paul Maupin William Millman William Kirchhoff uVacant Detailee Vacant FTE Jane Zhu Experimental Program to Stimulate Competitive Research (EPSCoR) Geosciences Research Engineering Research * Nicholas Woodward lRoger Turpening, MTU Dual Capacity lIPA uDetailee Detailee, 1/4 time, not at HQ Timothy Fitzsimmons lBassem Armaly, U. of MO Matesh Varma July 2002

24. BESAC Membership for the 2002-2003 Term Chair: Geraldine Richmond, U. of Oregon Vice Chair: Bradley Moore, Ohio State U. Nora Berrah, Western Michigan U. Collin Broholm, The Johns Hopkins U. Philip Bucksbaum, U. of Michigan Patricia Dove, Virginia Poly. Institute Mostafa El-Sayed, Georgia Institute of Tech. George Flynn, Columbia U. Wayne Goodman, Texas A&M U. Laura Greene, U. of Illinois John Hemminger, U.of Calif., Irvine Eric Isaacs, Bell Labs/Lucent Tech. Anthony Johnson, New Jersey Institute of Tech. Walter Kohn, U. of Calif., Santa Barbara Gabrielle Long, NIST Anne Mayes, Massachusetts Institute of Tech. William McCurdy, Lawrence Berkeley National Lab. Daniel Morse, U. of Calif., Santa Barbara Martin Moskovits, U. of Calif., Santa Barbara Cherry Murray, Bell Labs/Lucent Tech. Ward Plummer, U. of Tennessee John Richards, California Institute of Tech. Richard Smalley, Rice U. Joachim Stohr, Stanford U. Samuel Stupp, Northwestern U. Kathleen Taylor, General Motors (retired) Rudolf Tromp, IBM Stanley Williams, Hewlett-Packard Labs. Mary Wirth, U. of Delaware New members indicated in red.

25. Nora Berrah, Western Michigan University Professor of Physics Ph.D. in Physics, May 1987, University of Virginia RESEARCH EXPERIENCE AND INTERESTS: Experimental studies of atomic and molecular electronic structure and processes. Studies of few and many electrons systems. Many body studies using Laser photodetachement of negative ions, photoionization and photoexcitation of atoms, molecules, ions, autoionization and photodissociation. RECENT PROFESSIONAL POSITIONS: Professor, Physics Department, Western Michigan University, August 1999. Associate Professor, Physics Department, Western Michigan University, August 1994. RECENT PROFESSIONAL ACTIVITIES: Chair, 2000 Users Executive Committee of the Advanced Light Source (ALS) in Berkeley, California. Member, Users Executive Committee of the Advanced Light Source (ALS) in Berkeley, California, 1993 1996, 1997 2000. Vice Chair, 1999 Users Executive Committee of the Advanced Light Source (ALS) in Berkeley, California. Member, BESAC (Basic Energy Science Advisory Committee) subcomittee to review 4th generation Light Sources (the Leone Panel), 1999. Member, UNESCO panel charged in relocating BESSY I ring to the middle east, 1999. Member, Selection committee for the I. I. Rabi prize, 1998-02 Member, committee of the International Conference in X Ray and Inner Shell Processes, 1996 1999. Member, subcommittee for the annual conference QELS æ97, «Laser Spectroscopy, Laser Cooling, and Atom TrappingÆ, 1997. Member, committee on International Scientific Affairs, CISA of the American Physics Society, 1994 1997. AWARDS: 2000 Western Michigan University Distinguished Faculty Scholar 1999 American Physical Society Fellow (DAMOP) W. M. U. President Award for excellence in Research (1996). W. M. U. Dean’s Award for excellence in Research (1995, 1997). Humboldt Fellowship from the Alexander von Humboldt Foundation for 1 year (1992 , 1993). Baccalaureate exam with Honors in 1975.

26. John Hemminger, U. of California, Irvine Professor of Chemistry Ph.D.; Chemical Physics, Harvard University BS; Chemistry, University of California, Irvine Honors/Awards Outstanding Faculty Research Award of the UCI Alumni Association Alfred P. Sloan Fellow Fellow of the American Physical Society Fellow of the American Vacuum Society Alexander von Humboldt Foundation Senior Scientist Research Award Lab Web Site http://www.chem.uci.edu/people/faculty/jchemmin/ Research Interests: Surface Chemistry and Physics Surfaces are of great importance in innumerable problems of interest to chemists (surfaces of electrodes, heterogeneous catalysis, corrosion problems, solar energy systems, microelectronics fabrication, and atmospheric chemistry). Recent advances in the area of surface science have allowed detailed studies of these and many other phenomena at the molecular level. Our research involves the use of modern surface science techniques to study the chemistry and structure of adsorbates on single crystals of metals, semiconductors, and insulators. Underlying all of our research is an interest in understanding the fundamentals of the interactions of small molecules with surfaces. Structural and spectroscopic experiments are combined with reactivity experiments utilizing well-characterized single crystal surfaces to understand the mechanistic details of heterogeneous reactions. In collaboration with Professor Finlayson-Pitts, we have recently begun a program in which we use the modern surface probes we have available to study heterogeneous reactions which are important in the atmosphere. As part of this project we have studied the reactions of oxides of nitrogen with sodium chloride. These reactions are important to tropospheric chemistry near oceans where wave action and spray generate substantial quantities of sea-salt particles in the atmosphere. Our studies shed substantial light on the fundamental aspects of such gas/solid chemistry and its importance in atmospheric chemistry.

27. Eric Isaacs, Bell Labs/Lucent Technologies Director Materials Physics Research Department Ph.D. Physics, MIT (1988) Bell Labs Service Post Doc, Scattering Physics Research (1988); Member of Technical Staff, Microstructures Research (1990) and Condensed Matter Research (1998); Technical Manager, MEMS Network Subsystems Research (2000); Director, Materials Physics Research (2000 - present) Current Research Programs Studies of new opto-electronic materials and novel condensed matter systems, such as magnetic nano-particles, using x-ray microscopy with sub-100 nm resolution. X-ray scattering studies of novel materials, hydrogen-bonding, and glasses. Development of MEMS-based optical network sub-systems. Latest Technical and Career Milestones Confirmed the controversial idea that the hydrogen bond in ice and simple organic molecules is partly covalent, as first proposed by L. Pauling in 1935, using inelastic x-ray scattering. First measurement of the dispersion of the full Mott-gap using x-rays. Delivered first small (32x32) MEMS-based optical cross-connect prototype. Awards/Memberships in Professional Societies: Fellow, American Physical Society; Chair, Advanced Photon Source Users Organization; member, ACS and APS.

28. Martin Moskovits, U. of California, Santa Barbara Dean, Division of Mathematical, Life & Physical Sciences • B.Sc. (Toronto) • Ph.D. (Toronto) Research Interests Our research focuses on three major areas: (1) Strategies for making, imaging and studying very small structures. Uniform nanometer-sized particles are generated by a variety of techniques and their novel, optical, electrical and chemical properties are studied. One of the techniques involves the use of electrochemically-generated `nanotemplates'. Another uses a gas-phase cluster machine to produce clusters of metals and semi-conductors of uniform size. (2) A unique low temperature, ultra-high vacuum, scanning tunneling microscope was constructed which allows us to study surface processes with atomic resolutions as a function of temperature. A sister technology, photon scanning tunneling microscopy, was also developed with which optical images can be obtained with sub-wavelength resolution. (3) Novel fullerene-based materials are produced and their optical, chemical and electrical properties studied under ultra-high vacuum conditions.

29. Stanley Williams, Hewlett-Packard Laboratories HP Labs Fellow and Director, Quantum Science Research B.A., Rice University, Chemical Physics M.S. and Ph.D., University of California, Berkeley R. Stanley Williams is HP Labs Fellow and Director of Quantum Science Research (QSR), the basic research group in the physical sciences at Hewlett-Packard Laboratoriesin Palo Alto, California. His research interests are in the areas of the thermodynamics of size and shape of nanometer-scale materials, molecular electronics, and the physics of information. He is also an Adjunct Professor of Chemistry at the University of California Los Angeles. Dr. Williams attended Rice University from 1970-74, where he obtained his B. A. degree in Chemical Physics. He attended the University of California Berkeley from 1974-1978, where he obtained his M. S. and Ph. D. degrees in Physical Chemistry. From 1978-80, he was a Member of Technical Staff at AT&T Bell Laboratories. He moved to the University of California Los Angeles as an Assistant Professor in the Department of Chemistry, and was promoted to Associate Professor in 1984 and Professor in 1986. He joined Hewlett-Packard Labs in 1995 to found the QSR. His awards for scientific and academic achievement include the Dreyfus Teacher-Scholar Award, the Sloan Foundation Fellowship, the Julius Springer Award for Applied Physics, and the Feynman Prize in Nanotechnology. He has been an advisor to the Defense Science Board, an advisor to the Frontier Research Program at the Institute for Physics and Chemistry Research (RIKEN) in Japan, and a frequent lecturer at the Pepperdine School of Business Management. He was a co-organizer of the workshop and co-editor of the report that led to the National Nanotechnology Initiative in 2000.

30. Mary Wirth, University of Delaware C. Eugene Bennett Professor Analytical, Physical, and Materials Chemistry B.S., Northern Illinois University, 1974 Ph.D., Purdue University, 1978 We study surfaces that are interesting and important. Virtually every modern technology relies on surface properties, so our research is widely applicable from life sciences to electronics. Our primary application is bioanalytical chemistry, specifically surfaces used for chromatography, electrophoresis and biochips. The need for new surfaces in bioanalytical chemistry is huge and growing. The scientific question we ask is how adsorbates, such as proteins or DNA, interact with engineered surfaces. Surfaces can be as thin as one atom because it is the outermost atoms on a surface that touch the outside world. We design and study surfaces to achieve a molecular scale control and understanding of how they work. We employ state-of-the art spectroscopic measurement tools to learn how molecules adsorb, and these tools include single-molecule fluorescence spectroscopy, atomic force microscopy, solid state NMR spectroscopy, scanning electron microscopy, and bioseparations. More specific information is provided in the section under research. Students working in our group have many career opportunities, and the jobs our graduates have chosen are described in a page on former students.

31. C. Bradley Moore, The Ohio State University Vice President for Research President of The Ohio State University Research Foundation Ph.D., Chemistry, University of California,1963 B.S., Harvard University in 1960 Holds appointments as Professor of Chemistry and Distinguished Professor of Mathematical and Physical Sciences. He came to Ohio State from the University of California, Berkeley where he started as an assistant professor in 1963. He served as Vice Chair and Chair of the Chemistry Department and as Dean of the College of Chemistry. From 1974-2000 he was a Faculty Senior Scientist at the Lawrence Berkeley National Laboratory and served as Director of its Chemical Sciences Division from 1998-2000. BESAC Vice Chair Physical chemistry research has focused on molecular energy transfer, chemical reaction dynamics, photochemistry and spectroscopy. His research group uses lasers to produce and detect molecules in specific energy states. Moore has taught courses ranging from freshman chemistry to graduate quantum mechanics. He was the founding chair of the Committee for Undergraduate Science Education of the National Academy of Sciences and the National Research Council and has helped guide undergraduate chemistry curriculum development. Moore was elected to the National Academy of Sciences in 1986 and to the American Academy of Arts and Sciences in 1996. He is a member of the American Chemical Society, and is a Fellow of the American Physical Society and the American Association for the Advancement of Science. Over the years his work has been recognized by more than a dozen fellowships and awards.

32. Geraldine Richmond, University of Oregon Professor of Chemistry Richard M. and Patricia H. Noyes Professor 1976-1980 Ph.D., Physical Chemistry, U. of California Berkeley 1971-1975 B.S., Chemistry, Kansas State University Professional Appointments BESAC Chair 2001- Richard M. and Patricia H. Noyes Distinguished Professor 2002-2005 Member, Chemical and Engineering News Advisory Board2002-2005 Member, Chemical Sciences Roundtable, NAS1999-2004 Member, OR State Board of Higher Ed., Governor appointee1998-2003 Chair, Basic Energy Sciences Advisory Committee 1998-2005 Chair, Committee on the Advancement of Women Chemists 1987-2004 Dir., Research Experience for Undergrad. Prog. in Chem. Phys. 1998- 2001 Knight Professor of Liberal Arts and Sciences, U. of Oregon1996-2001 Member, Council on Chemical Sciences, DOE1998-1999 Chair & Program Chair, Physical Chemistry Division, ACS 1995-1998 Member, Basic Energy Sciences Advisory Board, DOE Recognition • Women Chemists Committee Award for Diversity, ACS, 02 • Spectrochemical Analysis Award, ACS, 02 • Oregon Outstanding Scientist Award • Oregon Academy of Science, 01 • NSF ADVANCE Leadership Award, 01-03 • Presidential Award for Excellence in Sci. and Engineering Mentoring, White House, 97 • Francis P. Garvan Medal of the ACS, 96 • Distinguished Lecturer, APS Laser Science Topical Group, 96-00 • Agnes Faye Morgan Research Award, 93 • APS Fellow, 93 • Coblentz Society Spectroscopy Award, 89 • Camille and Henry Dreyfus Teacher-Scholar Award, 86 • NSF Presidential Young Investigator Award, 85-90 • Alfred P. Sloan Research Fellow, 85-89 Distinguished Lectureships • Nakamoto Lecture, Marquette U., 02 • Bergmann Lecture, Yale U., 02 • Gerhard L. Closs Lecture, U. of Chicago, 02 • Directors Lectureship, PNNL, 02 • Distinguished Lecturer, APS, 96-00

33. BUDGET PRIMER FOR NEW MEMBERS

34. FY 2002 FY 2003 FY 2004 The DOE/SC Budget Cycle

35. The DOE/SC Budget Cycle

36. Abbreviations BA Budget Authority OBS Obligations BO Budget Outlays CRB Corporate Review Budget Process OMB Office of Management and Budget FY Fiscal Year AFP Approved Funding Program CID Contract Identification Number B&R Budget and Reporting Classification FMIS Financial Management Information System FTP Field Task Proposal PY Prior Year CY Current Year BY Budget Year PR Procurement Request WAS Work Authorization System FTE Full Time Equivalent (Staffing) GPP General Plant Projects GPE General Purpose Equipment OE Operating Expenses CE Capital Equipment PL Plant (Construction)

37. Definitions Budget AuthorityThe amount of funds authorized and appropriated by Congress for the year. Obligations The amount of funds obligated (or planned for obligation) in the current year (may be greater than or less than B/A). Budget Outlays The amount of funds actually dispersed from the Treasury to make payments to contractors. Costs The amount of work performed, irrespective of whether payment has been made by the Treasury. Unobligated Balances Amount of prior year budget authority that has not been obligated to a contractor (this is typically reallocated for use in the following year). Prior Year Deobligations Funds from an old contract action that are deobligated when contract is closed out (these funds are returned to the CFO’s allotment for use on other DOE needs; not necessarily to the Office of Science). Uncosted Obligations Amount of funds provided (obligated) that have not been costed, i.e., work not complete.