There are a wide array of services available at the WSU Nuclear Radiation Center for researchers, including but not limited to the services listed below.
If your research can be furthered by any of the analyses that we can perform, or if you need another reactor service, please feel free to contact the facility staff.
Located in the Dodgen Research Facility, the WSU Nuclear Radiation Center is the
only research reactor in the State of Washington. The WSU Reactor offers experimental/research
project advice and neutron irradiation of samples for research, commercial isotope
production, and is capable of same day irradiation and shipping of high priority
samples (rates apply) to most places in the continental U.S.
Research materials require high purity and precision to produce reliable results.
Our reactor and facilities have been producing research radiotracers for WSU Departments
for decades, at low cost, fast turnaround, and superior service. We are capable
of shipping radiotracers offsite to other institutions, as well as within the University
to meet the needs of our clients. Since the WSU Nuclear Radiation Center and the
RSO are in the same building, the movement of radiotracers to WSU laboratories is
both fast and efficient.
Commercial Isotope Production
A nontrivial amount of the world’s isotope production capabilities are produced
in the fleet of research reactors, many of which are located here in the United
States. The WSU Nuclear Radiation Center Reactor Staff and specifically our reactor
are uniquely qualified to produce commercial quantity and grade radioisotopes for
industry. Our operators and administrators are experienced in production lines of
many currently available radioisotopes and are knowledgeable in logistics and shipping
of these isotopes to various sites throughout the country.
Neutron Activation Analysis Laboratory
Neutron Activation Analysis (NAA) is a nondestructive gamma analysis method used
to determine elemental concentrations in unknown samples. It is especially useful
for determining amounts of heavy metals (up to parts per billion) in samples often
on the milligram scale. The department has many liquid nitrogen cooled high-purity
germanium detectors that can run simultaneously for a host of NAA and gamma analysis
The WSU Nuclear Radiation Center operates a Bruker Smart Apex II system with an
Apex2s CCD detector and an Oxford Cryosystems Cryostream 700 Controller. Single
crystal X-ray diffraction (SCXRD) uses X-ray radiation diffracting off of the electron
clouds of atoms to determine the three dimensional structure of a molecule or molecules
in the solid state. The X-rays, diffracting according to Bragg’s Law, are measured
in terms of their intensity and exact origin on a CCD camera, and then are fit to
a computer model of the atomic crystal structure. The data are compared to this
model and the measured atomic structure so that bond lengths, bond angles, and atomic
interactions can be elucidated with great precision and accuracy.
The department houses an Agilent Series 4500 Inductively Coupled Plasma Mass Spectrometer
(ICP-MS). ICP-MS is a destructive analysis technique ideal for trace elemental analysis.
Primarily used for trace metal analysis, the ICP-MS offers an excellent mix of precision,
speed, and sensitivity. Using an argon based inductively coupled plasma to ionize
a sample for mass spectrometry, the ICP-MS is capable of reaching detection limits
in the mid to low ppb range for many material compositions.
Gamma Irradiation Facilities
Additionally, the WSU Nuclear Radiation Center contains a two separate gamma irradiation
facilities. These gamma irradiation sources can be used for a wide array of research,
for example sterilizing cells, plasma, and other biological materials. It has also
facilitated the mutation of seeds, examination of the radiation protective effects
of various compounds, and performance of radiation damage studies.
Our available resources include several wet chemistry laboratories with fume hoods,
a sample packaging lab used for trace-element analysis sample preparation, and technicians
and scientists familiar with the techniques needed for radiochemical analysis. Spectroscopy
and counting labs are available to researchers at the facility as are traditional
laboratory spaces. Additionally, we provide office and laboratory space for the
WSU Radiation Safety Office, facilitating material transfers to on-campus researchers.
Our staff is fully trained in radioactive shipping procedures to expedite off-campus
transfers that fall under Facility License R-76.
We maintain a series of alpha-particle spectrometers that can be used to determine
quantities of the various isotopes of uranium, plutonium, americium, and thorium
in most biological materials. Qualified staff members and researchers are available
to aid in the best use of these specialized detectors.