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PARTICIPANT
Lastname
KEYWORDS DESCRIPTION
Lihuang Zhu
Graduate Student
Physics and Astronomy
Dartmouth College
Hanover, NH
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EPR Techniques:
DNP, EDMR

Research Areas:
defect centers, inorganic semiconductors

1-Graduate student
2-EDMR hardware for zero-field, low-field (2-4GHz) and high-field (94GHz)
3-Various 2-4GHz resonator designs
3-Donor electrons in phosphorus doped silicon sample
4-Vacancy defects in Si:C


Xiaojun Zhang
Postdoctoral Scholar
Chemistry
USC
Los Angeles, California
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EPR Techniques:
cw EPR, DEER / PELDOR, ENDOR, EPR theory and simulation, pulse EPR

Research Areas:
nucleic acids, single-molecule magnets

My research focuses on using EPR to study nucleic acids structure and dynamics and their interaction with proteins. Joining SharedEPR network is one of the best way to learn the cutting-edge EPR techniques, get to be informed of the major advancements in EPR field, as well as the problems we are facing. I will gain invaluable experiences on how to plan my career, as well as build connections for possible future collaborations.


Yunzhi Zhang
Graduate Student
Department of Chemistry
Clemson University
Clemson, SC
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EPR Techniques:
DNP

Research Areas:
organic radicals

My research project now is interested in DNP technology, especially dissolution DNP. we try to use nano-scale beads which involve radicals inside to work for DNP, when combine with radicals such as BDPA, nanobeads can be very helpful to polarize materials without glassing solvent. I have the passion to continue my research project, which means I need more knowledge outside my university. So participate in the SharedEPR can really help me to my future research work.


Zhelin (Jason) Yu
Graduate Student
University of Denver
Denver, Colorado
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EPR Techniques:
cw EPR, EPR oxymetry, EPR theory and simulation, imaging, rapid-scan EPR

Research Areas:
defect centers, diagnostics / imaging, instrumentation / methods development, nitroxides, organic radicals, transition metals

I am a graduate student in University of Denver. My research includes rapid scan and digital EPR developments in solid state nitroxides, spin-labeled proteins, irradiated tooth enamel and fingernails.


Zhongyu Yang
Principal Investigator
Chemistry and Biochemistry
North Dakota State University
Fargo, North Dakota
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Website
EPR Techniques:
cw EPR, DEER / PELDOR, ESEEM / HYSCORE, pulse EPR, time-resolved EPR

Research Areas:
nitroxides, soluble proteins, transition metals

My research interest is to study the molecular interaction between proteins and ligand, including metallocomplexes and small drug-like molecules. I also want to study a couple of intrinsically disordered proteins. The purpose for participating is to communicate with the EPR community, share research ideas and look for potential postdoc candidates.


Dr Richard Wylde
Principal Investigator
Thomas Keating
Billingshurst, West Sussex
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Website
EPR Techniques:
THz EPR

Research Areas:

EPR spectometers

TK develops makes and sells Quasi-Optical THz EPR bridges


Blake Wilson
Graduate Student
Institute for Terahertz Science and Technology
UC Santa Barbara
Santa Barbara, California
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EPR Techniques:
cw EPR, EPR theory and simulation, high-field EPR, pulse EPR, THz EPR

Research Areas:
instrumentation / methods development, lanthanides, membrane proteins, nitroxides

My research focuses on developing high-field (240 GHz) EPR instrumentation and methodologies. The experiment I work on is based around the UCSB mm-wave free electron laser (FEL) as a source of high power microwave radiation, to perform pulsed EPR at high field with short pulse lengths. In addition, I study high-field relaxation mechanisms in nitroxides and in gadolinium centers. I am interested broadening my knowledge of EPR techniques, and in connecting with my colleges.


Hilary Weismiler
Graduate Student
Molecular and Cellular Biophysics
University of Denver
Englewood, Colorado
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EPR Techniques:
cw EPR, DEER / PELDOR

Research Areas:
amyloid fibrils

We are interested in characterizing the structure of tau fibrils using DEER.


John Weaver
Laboratory Manager
College of Pharmacy
University of New Mexico
Albuqueque, NM
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EPR Techniques:
cw EPR, EPR oxymetry, imaging

Research Areas:
diagnostics / imaging, education, enzymes, instrumentation / methods development, nitroxides

My research focuses on the role of O2, free radicals and oxidative stress in brain injury and treatments for neurological disorders and diseases. Moreover, I play a key role in the advancement of EPR to enhance the detection, identification and quantification of free radicals and O2 in biology. My motivation for joining the SharedEPR network is to foster collaborations with scientists from varying disciplines to find solutions to scientific questions using EPR technology.


Kurt Warncke
Principal Investigator
Physics
Emory University
Atlanta, GA
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Website
EPR Techniques:
cw EPR, ENDOR, EPR theory and simulation, ESEEM / HYSCORE, pulse EPR, time-resolved EPR

Research Areas:
catalysis, energy materials, enzymes, instrumentation / methods development, nitroxides, soluble proteins

The biophysics research in my laboratory in the Department of Physics at Emory University focuses on elucidation of the fundamental contributions of molecular structure and dynamics to assembly and reactivity in protein systems, by using time-resolved and cw-EPR methods and unique low-T systems. EPR instrumentation includes a home-constructed X- and Ku-band pulsed-EPR spectrometer and a Bruker E500 X- and Q-band CW-EPR spectrometer (EPR & ENDOR).


Kashmira Wani
Undergraduate Student
Steppingstone MAgnetic Resonance Training Center
Farmington Hills, MI
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EPR Techniques:
EPR microscopy

Research Areas:
organic radicals

I have worked with Dr. Phillip D. Morse at the Steppingstone Magnetic Resonance Training Center and utilized the concept of Electron Paramagnetic Resonance Spectrometry and used a Spectrometer to analyze the effects of environmental factors on the antioxidant properties of beer as a function of time using the molecules TEMPOL and PBN. I would like to join the SharedEPR network to collaborate with other labs and so that I can take my research further.


Xiaoling Wang
Postdoctoral Scholar
National High Magnetic Field Laboratory
Tallahassee, FL
United States
EPR Techniques:
DNP

Research Areas:
lanthanides

I have interest in the development of DNP methods and the design of polarizing radicals. Joining SharedEPR network will provide me opportunities to communicate with the EPR community and benefit my on going research.


Eric Walter
Principal Investigator
Environmental Molecular Sciences Laboratory
Pacific Northwest National Laboratory
Richland, Washington
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Website
EPR Techniques:
cw EPR, DEER / PELDOR, ESEEM / HYSCORE, high-field EPR, pulse EPR, rapid-freeze quench, spectroelectrochemistry

Research Areas:
catalysis, energy materials, nitroxides, organic radicals, soluble proteins, transition metals

I am the EPR contact for EMSL, a national user facility with an extensive magnetic resonance capability. Users have access to CW-EPR at S, X, Q and W-band, and pulsed EPR at X (Bruker 580) and W-band (HIPER).


Ronald Walsworth
Principal Investigator
Physics
Harvard University
Cambridge, MA
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Website
EPR Techniques:
ODMR

Research Areas:
defect centers, diagnostics / imaging

I lead an interdisciplinary research group with a focus on developing precision measurement tools and applying them to important problems in both the physical and life sciences - from quantum physics and astrophysics to bioimaging and brain science. Relevant to this group, we are pioneers in the development and application of magnetic sensing and imaging using NV-diamond.


Johan van Tol
Principal Investigator
National Maglab
Florida State University
Tallahassee, FL
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Website
EPR Techniques:
cw EPR, DEER / PELDOR, DNP, EDMR, ENDOR, EPR theory and simulation, ESEEM / HYSCORE, high-field EPR, ODMR, pulse EPR, time-resolved EPR

Research Areas:
catalysis, defect centers, education, energy materials, inorganic semiconductors, instrumentation / methods development, lanthanides, organic radicals, organic semiconductors, single-molecule magnets, transition metals

Interested in all aspects of high frequency EPR


Ned Van Eps
Professional
Biochemistry
University of Toronto
Toronto, ON
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EPR Techniques:
cw EPR, DEER / PELDOR, EPR theory and simulation, pulse EPR, time-resolved EPR

Research Areas:
membrane proteins, nitroxides, soluble proteins

I utilize EPR, together with spin labeling, to study the function of proteins involved in cell signaling.

We use methods such as DEER/PELDOR, time-resolved EPR and traditional cw-EPR.

We follow real time dynamics of protein conformational changes using photochemistry and EPR.


Mark Tseytlin
Principal Investigator
Biochemistry
West Virginia University
Morgantown, WV
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Website
EPR Techniques:
cw EPR, EPR oxymetry, EPR theory and simulation, imaging, in-cell EPR, pulse EPR, time-resolved EPR
Rapid-scan EPR; Multi-harmonic EPR

Research Areas:

multi-functional EPR Imaging

Major focus of our lab is on the development of:
- Rapid-scan and multi-harmonic EPR
- Field-swept rapid-scan EPR
- Field-modulated pulsed EPR
- New 3D and 4D imaging algorithms
- New digital EPR methodologies and instruments
- Multi-functional EPR imaging


Sefadzi S Tay-Agbozo
Graduate Student
Chemistry
University of Alabama
Tuscaloosa, Al
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EPR Techniques:
cw EPR, ENDOR

Research Areas:

The need to learn something new and bring that to bear on society and the scientific world in particular is the driving force behind my research interest.
Annatto (bixin) has been used extensively in the past by locals and currently by food, beverage, pharmaceutical industries, etc., mainly for appearance than for nutritional/medicinal purpose. My current research is focused on studying bixin by way of EPR so I can add to the trough of knowledge on bixin


Narin Tangprasertchai
Graduate Student
Chemistry
University of Southern California
Los Angeles, CA
United States
EPR Techniques:
cw EPR, DEER / PELDOR, pulse EPR

Research Areas:
nitroxides, nucleic acids, soluble proteins

As a graduate student using site-directed spin labeling (SDSL) and EPR to investigate nucleic acid-protein complexes, I am joining SharedEPR in order to stay updated with developments and advancements in the EPR field, as well as broaden my academic and professional networks.


Susumu Takahashi
Principal Investigator
Department of Chemistry; Department of Physics
University of Southern California
Los Angeles, California
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Website
EPR Techniques:
cw EPR, DEER / PELDOR, high-field EPR, ODMR, pulse EPR, THz EPR

Research Areas:
defect centers, education, instrumentation / methods development, nitroxides, nucleic acids, single-molecule magnets

Our research interests include
- Spin dynamics of a single nitrogen-vacancy (NV) center in diamond,
- Development of single-molecule magnetic resonance techniques using a NV,
- Nanomagnetism in quantum molecular magnets,
- Conformational dynamics in biological systems.


Claudia Tait
Postdoctoral Scholar
Department of Chemistry
University of Washington
Seattle, Washington
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EPR Techniques:
cw EPR, DEER / PELDOR, ENDOR, ESEEM / HYSCORE, pulse EPR, time-resolved EPR

Research Areas:
energy materials, enzymes, instrumentation / methods development, organic radicals, transition metals

My research involves the application of a variety of EPR techniques for the investigation of electronic and structural properties of materials and biological systems. I'm interested in the improvement of methodologies and analysis methods with the aim of extending the capabilities of EPR spectroscopy.


Veronika Szalai
Principal Investigator
Center for Nanoscale Science & Technology
National Institute of Standards & Technology
Gaithersburg, Maryland
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Website
EPR Techniques:
cw EPR, DEER / PELDOR, spectroelectrochemistry

Research Areas:
catalysis, energy materials, enzymes, nucleic acids, transition metals

Being part of the SharedEPR network supports our work with partners to develop measurement tools for nanocatalysts and nanobiomaterials (Szalai) and nanomagnet dynamics (McMichael). Part of the Center for Nanoscale Science & Technology user facility, we develop EPR, ODMR, & FMR-based tools and instrumentation for detection, monitoring, and measurements of paramagnets and nanomagnet systems.


Dieter Suter
Principal Investigator
Physics
TU Dortmund University
Dortmund,
Germany
Website
EPR Techniques:
cw EPR, microresonators, ODMR, pulse EPR, rapid-scan EPR, special resonators, time-resolved EPR

Research Areas:
defect centers, education, inorganic semiconductors, instrumentation / methods development

Our main interest is the development of EPR technology and instrumentation for specific applications, such as measurements on small samples (using microresonators) or optical-microwave double resonance techniques for applications in semiconductors or defect centers in diamond. Several of these projects are focused on quantum computing.


Stefan Stoll
Principal Investigator
Chemistry
University of Washington
Seattle, Washington
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Website
EPR Techniques:
cw EPR, DEER / PELDOR, ENDOR, EPR theory and simulation, ESEEM / HYSCORE, high-field EPR, pulse EPR, time-resolved EPR

Research Areas:
enzymes, instrumentation / methods development, membrane proteins, soluble proteins, transition metals

My research group specializes in pulse EPR and works in several areas: (1) mapping conformational landscapes of membrane proteins using DEER spectroscopy, (2) investigating the identity and structure of paramagnetic intermediates in enzymatic reactions, (3) characterizing the structure and dynamics of energy materials, (4) developing new instrumentation and computational methods for EPR, including the simulation software EasySpin (easyspin.org).


Sebastian Stoian
Postdoctoral Scholar
EMR
National High Magnetic Field Laboratory
Tallahassee, FL
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Website
EPR Techniques:
cw EPR, EPR theory and simulation, high-field EPR, rapid-freeze quench, special resonators, spectroelectrochemistry

Research Areas:
catalysis, energy materials, enzymes, instrumentation / methods development, lanthanides, single-molecule magnets, transition metals

TBA


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