|
Joy Andrews
California State University East Bay, Chemistry,
25800 Carlos Bee Blvd., Hayward, CA 94542 |
|
Professor in the Department of Chemistry and Biochemistry at
California State University, East Bay, where she has taught since 1996. Her
B.A. degree is in biochemistry from Barnard College, and Ph.D. in Biophysical
Chemistry from UC Berkeley. Her research is on the detection, speciation and
remediation of heavy metal contamination at various environmental sites, using
atomic absorption spectroscopy, ion chromatography, and x-ray absorption
spectroscopy. She is also conducting continuous monitoring of water quality
parameters in SF Bay, funded by CICORE/NOAA. She was Chair, Executive
Committee, Stanford Synchrotron Radiation Lightsource User's Organization Oct
2005-Oct 2006; and Chair, Synchrotron and Neutron User's Group Advocacy
Committee since October 2005.
|
|
email: joy.andrews@csueastbay.edu
|
ph:
510-885-3492
fax: 510-885-4675 |
|
|
|
|
|
Yuji Arai
Clemson University, Department of Entomology, Soils and
Plant Science, Clemson, S. Carolina, 29634-0315 |
|
Assistant Professor of Environmental Soil Chemistry at
Clemson University in Clemson, SC. Since 1997, he has been conducting molecular
environmental soil chemistry research using bulk- and microfocused(µ)-XAS,
µ-XRF and µ-XRD techniques at ALS, APS, NSLS, and SSRL. His major research
interest is to understand the molecular scale chemical reactions of nutrients,
metal(loid)s, and radionuclides at the soil mineral-water interface that is
responsible for the field-scale transport processes. He is interested in
developing an interdisciplinary molecular environmental soil chemical research
program through academia. He would like to represent the voice of users to
further improve the BL capabilities and the accommodation of SSRL user
facilities. |
|
email: yarai@clemson.edu |
ph: 864-656-2607
|
|
|
|
|
|
Rebecca Fenn
Stanford University, Department of Biochemistry and
Biophysics, 279 Campus Dr., Stanford, CA 94305 |
|
Doctoral student in Dr. Pehr Harbury's Research Group in the Department of
Biochemistry and Biophysics at Stanford University. Rebecca's research
involves the development of an x-ray scattering method that is capable of
characterizing the conformational ensembles of biological macromolecules in
solution. She has frequently used the SSRL SAXS beam lines for her research
during te past three years, and looks forward to continued involvement in the
synchrotron community.
|
|
email: becks@stanford.edu
|
ph:
650-723-6719 |
|
|
|
|
|
Jesse
Guzman
University of California at Santa Cruz, Physics, 1313 High
St., Santa Cruz, CA 95060 |
| |
Second year UCSC graduate student doing EXAFS studies
with the Bud Bridges group. His undergraduate studies at the University of
Michigan with a BS in physics allowed him close access to APS. Working at APS
sector 7 from 2001 until 2004 exposed him to a variety of x-ray science
techniques such as time-resolved x-ray diffraction, coherent Bragg rod x-ray
diffraction of thin films, and beam-line studies. Time resolved EXAFS, EXAFS on
single crystals (including transmission through manganite single crystals), and
developing new x-ray techniques currently dominate his research interests. |
|
email: guzman@physics.ucsc.edu |
ph:
531-459-3646
|
|
|
|
|
Katherine A.
Kantardjieff
CSU Fullerton/Keck Center for Molecular Structure |
|
Professor of Chemistry and Biochemistry at California
State University Fullerton, is Director of the W.M. Keck Foundation Center for
Molecular Structure. She completed Ph.D and postdoctoral work in physical
chemistry and structural biology at UCLA with David Eisenberg. Kantardjieff's
laboratory is the only member of the Tuberculosis Structural Genomics
Consortium from a non-PhD granting institution. CMolS is comprised of
comprehensive X-ray diffraction and computational laboratories supporting
research and education as a core facility in the 23-campus CSU, as well as the
STaRBURSTT-CyberDiffraction Consortium, a nationwide virtual organization of
predominantly undergraduate institutions. CMolS pioneered the use of remote
instrumentation access at PUIs and, since 2006, CMolS is a research partner
with SSRL. Kantardjieff's own research investigates protein structure and
function, employing combined experimental and in silico approaches of
crystallography, biophysical methods, computation and informatics. The
knowledge gained is applied to the engineering of molecules with specific
properties, and to structure-guided drug design. Systems of current interest
include bacterial cytochromes c', carbonyl reductases, cholinesterases and
several tuberculosis proteins. Kantardjieff and collaborators at Fullerton have
established a research computing cluster for computational biochemistry and
crystallography, which is part of a larger CSU system-wide, distributed
computing resource. Kantardjieff has developed and deployed crystallography and
computational courses and workshops, including some delivered entirely online,
at both the undergraduate and post-graduate levels. She has led national and
international efforts in crystallography education and training. Kantardjieff's
activities led to her election to the United States National Committee for
Crystallography, of which she is currently Vice Chair. |
|
email: kkantardjieff@fullerton.edu |
ph: 714-278-3752
fax: 714-449-5316 |
|
|
| |
|
Christopher S. Kim (Ex-Officio)
Chapman University, Physical Sciences, One University
Ave., Orange, CA 92866 |
|
Assistant Professor in the Department of Physical Sciences at Chapman
University in Southern California. He conducted his graduate work at Stanford
University under Gordon Brown and continued his research as a post-doc at
Lawrence Berkeley National Laboratory with Glenn Waychunas. He has been a user
at SSRL since 1996 and has also conducted research at the ALS and APS.
Currently, he is studying trends in the speciation, concentration, and
distribution of heavy metals in mine wastes as well as the mechanisms and
extent of metal uptake and (co-)precipitation with iron oxyhydroxide
nanoparticles. Chris is also involved in increasing opportunities for
undergraduate students to conduct research at national synchrotron facilities. |
|
email: cskim@chapman.edu |
ph: 714-628-7363
fax: 723-532-6048 |
|
|
|
|
Cathy Knotts (SSRL Liaison)
SSRL, User Research Administration,
2575 Sand Hill Rd., Menlo Park, CA 94025 |
|
Manager of User Research Administration since November 2000. Prior to that time, Cathy managed administrative operations and corporate communications in the biotechnology industry. She was a management analyst for National Institute on Aging/National Institutes of Health before moving to North
ern California in 1994. Cathy received a B.S. from the University of Maryland
majoring in Health Science and Policy. |
|
email: knotts@slac.stanford.edu |
ph:
650-926-3191
fax: 926-926-3600 |
|
|
|
|
Richard Lee
Lawrence Livermore National Laboratory, 7000 East Ave., Li
vermore, CA 94550 |
|
Senior Scientist in the Physics and Advanced Technologies Directorate at
Lawrence Livermore National Laboratory responsible for developing scientific
efforts in high and moderate energy density science. Dick has been a member of
the LCLS Science Advisory Committee since its inception and was the team
leader
for the Plasma and Warm Dense Matter experiment that was one of the five 'First
Experiments for LCLS'. He is currently actively involved in both experiment and
theory related to ultra fast x-ray scattering studies of laser-excited solids. |
|
email: dicklee@llnl.gov |
ph: 92-422-7209
fax: 925-423-2463 |
|
|
|
|
Wayne Lukens
Lawrence Berkeley National Laboratory, Chemical
Sciences, 1 Cyclotron Rd., Berkeley, CA 94720 |
|
Staff scientist in the Actinide Chemistry Group at Lawrence Berkeley National
Laboratory. His research focuses mainly on the behavior of technetium in
nuclear waste and nuclear wasteforms. In addition, his research examines
electronic structure and bonding in actinide complexes. He has carried out
EXAFS experiments at SSRL since 1992. Currently, he is using EXAFS and XANES
to characterize the speciation of technetium in different nuclear wasteforms. |
|
email: wwlukens@lbl.gov |
ph: 510-486-4305
fax: 510-486-5596 |
|
|
|
|
Karen McFarlane Holman
Willamette University, Chemistry Department, 900 State
St, Salem, OR 97301 |
|
Associate Professor of Chemistry at Willamette University in Salem, OR. She
has been a user at SSRL and the ALS since 1998. As a postdoc at LBNL
(1998-2000), she worked with Mel Klein and VIttal Yachandra on SSRL Beam Lines
6-2, 7-3 and 9-3 in projects related to chloride in Photosystem II and sulfur
in proteins. Another postdoctoral project in the Klein group involved
designing and building the EXAFS endstation on Beam Line 9.3.1 at the ALS. Her
current research projects use XANES to investigate fundamental mechanisms
related to in vivo reactions of ruthenium-based anti-cancer drugs.
Coming from Willamette University which is a liberal arts college, another goal
of hers is to give undergraduate students the opportunity to travel to a
national laboratory and collect their own data at a synchrotron source. |
|
email: kholman@willamette.edu |
ph: 503-370-6417 |
|
|
|
|
Art Nelson
Lawrence Livermore National Laboratory, 7000 East Ave,
Livermore, CA 94550 |
|
Scientific Capability Leader in the Materials Science and Technology Division,
Chemistry and Materials Science Directorate at Lawrence Livermore National
Laboratory. He is responsible for research activities on novel materials and
the reaction chemistry of materials in high-temperature and
high-pressure environments. Art began performing experiments at SSRL in 1979
as a researcher at the Naval Weapons Center, China Lake, CA. He continued
experiments at SSRL on manganese speciation in exhaust particulates, energetic
materials, and non-linear optical materials. Art represented LLNL in the SPPS
collaboration and continues to be involved in experimental planning for the
LCLS. |
|
email: nelson63@llnl.gov |
ph: 925-422-6488
fax: 925-422-6892 |
|
|
|
|
Stephane Richard
The Salk Institute, Biological Studies, 10010 N Torrey
Pines Rd, La Jolla, CA 92037-1099 |
|
Stephane Richard graduated from the University Joseph Fourier in Grenoble
(France) where he completed his Ph.D. studying the principles underlying
adaptation to extreme saline environments using X-ray protein crystallography
as a tool. He then joined the team of Prof. Joseph P. Noel in the Structural
Biology laboratory of the Salk Institute to study the biosynthesis of terpenoid
natural products. Now part of the Jack H. Skirball Center for Chemical Biology
and Proteomics, his interests concerns the biosynthesis of active
polyketide/terpenoids hybrid natural products using a structure guided
chemo-enzymatic approach for natural product derivatization to develop novel
therapeutically relevant compounds. |
|
email: richard@salk.edu |
ph:
858-453-4100 1380 |
|
|
|
|
Monika Sommerhalter
California State University East Bay, Department of
Chemistry and Biochemistry, Hayward, CA 94542 |
|
Assistant Professor in the Department of Chemistry and Biochemistry at
California State University, East Bay. She has been a user at SSRL since 2002
and was trained as a protein crystallographer in the laboratory of Dr. Amy C.
Rosenzweig at Northwestern University, Evanston, Illinois. Her research
interest is located at the interface of bioinorganic chemistry and structural
biology. |
|
email: monika.sommerhalter@csueastbay.edu |
ph:
510-885-3427
fax: 510-885-4675 |
|
|
|
|
Robert Szilagyi (Chair)
Montana State University, Chemistry and Biochemistry,
223 Gaines Hall, Bozeman, MT 59715 |
|
Assistant Professor of Chemistry at Montana State
University-Bozeman. His research interest focuses on bioinorganic,
organometallic, and computational application of synchrotron radiation. He has
five years of experience in XAS at various beamlines of SSRL and ALS. He uses
NEXAS and EXAFS techniques in close correlation with theoretical calculations
to investigate the relationships between chemical reactivity and electronic and
geometric structures of bioinorganic active sites and biomimetic compounds,
such as iron-sulfur clusters, S-nitrosated thiolates, as well as, tungsten,
molybdenum, and palladium containing homogeneous catalysts. His motivation to
be part of the SSRLUOEC is to provide a representation for junior faculty, to
increase graduate and undergraduate student training, and to develop a spectral
database for the community of synchrotron radiation users. |
|
email: szilagyi@montana.edu |
ph: 406-994-4263
fax: 406-994-5407 |
|
|
|
|
|
|
|
|
|
|
