Scott R. J. Oliver

X-ray Facility Director,
Faculty Undergraduate Adviser
DivisionPhysical & Biological Sciences
DepartmentChemistry & Biochemistry Department
Phone831-459-5448 (Office),
831-459-4225 (Lab)
Web Site Oliver Research Group
OfficePhysical Sciences Bldg 258 (Office),
Physical Sciences Bldg 253 (Lab)
Office Hours2015-16: by appointment
Campus Mail StopChemistry
Mail1156 High Street
Santa Cruz, CA
Scott R. J. Oliver

Research Interests

Materials Chemistry for Environmental and Biological Applications

The Oliver group has a broad range research interests in materials science, nanotechnology and inorganic chemistry. We have developed a series of materials that bear a cationic charge. The open space inside these hosts contain anions that can be exchanged for environmentally hazardous anions, both heavy metal inorganic and organic. We are studying a variety of anionic pollutants including perchlorate, pertechnetate and chromate.

We are also working on mesoporous hosts for a variety of uses including the removal of sulfur from fuel and for biomaterials applications. Our studies are very interdisciplinary, as it combines inorganic, materials and analytical chemistry. We also use a variety of characterization techniques, both within our group and in the department. Please visit our research webpage ( for more information.

Biography, Education and Training

B.Sc. Chemistry, University of Toronto, graduated with distintion
Ph.D. Inorganic Chemistry, University of Toronto, Department of Chemistry
Postdoctoral NSERC Fellow, Harvard University, Department of Chemistry and Chemical Biology

Selected Publications

  • Most recent; for a complete list, see:

    86.          Ian R. Colinas, Kenneth K. Inglis, Frédéric Blanc and Scott R. J. Oliver, “Anion exchange dynamics in the capture of perchlorate by a cationic Ag-based MOF”, Dalton Transactions, 2017, 46, 5320-5325.

    85.          Guiyang Zhang, Guangfeng Wei, Zhipan Liu, Scott R. J. Oliver* and Honghan Fei*, “A Robust Sulfonate-Based Metal−Organic Framework with Permanent Porosity for Efficient CO2 Capture and Conversion”, Chemistry of Materials, 2016, 28, 6276-6281.

    84.          Ian R. Colinas, Rachel C. Silva and Scott R. J. Oliver, “Reversible, Selective Trapping of Perchlorate from Water in Record Capacity by a Cationic Metal–Organic Framework”, Environmental Science & Technology, 2016, 50, 1949-1954.

    83.          Jesse L. Hauser, Dat T. Tran, Edward T. Conley, John M. Saunders, Karen C. Bustillo and Scott R. J. Oliver, “Plasma Treatment of Silver Impregnated Mesoporous Aluminosilicate Nanoparticles for Adsorptive Desulfurization”, Chemistry of Materials, 2016, 28, 474-479.

    82.          Indranil Chakraborty, Samantha J. Carrington, Jesse Hauser, Scott R. J. Oliver, and Pradip K. Mascharak, “Rapid Eradication of Human Breast Cancer Cells through Trackable Light-Triggered CO Delivery by Mesoporous Silica Nanoparticles Packed with a Designed photoCORM”, Chemistry of Materials, 2015, 27, 8387-8397.  Cover article.

    81.          K. M. Sergo, C. S. Han, M. R. Bresler, S. C. Citrak, Y. Abdollahian, H. Fei, S. R. J. Oliver, “Erbium Hydroxide Ethanedisulfonate: A Cationic Layered Material with Organic Anion Exchange Capability”, Inorganic Chemistry, 2015, 54, 3883-3888.

    80.          B. E. Conn, A. Desireddy, A. Atnagulov, S. Wickramasinghe, B. Bhattarai, B. Yoon, R. N. Barnett, Y. Abdollahian, Y. Wah Kim, W. P. Griffith, S. R. J. Oliver, U. Landman, T. P. Bigioni, “M4Ag44(p-MBA)30 Molecular Nanoparticles”, J. Phys. Chem. C, 2015, 119, 11238-11249.

Teaching Interests

I teach a variety of courses in inorganic, materials and analytical chemistry.

Courses Taught

Chem 122: Analytical Chemistry
Chem 146B: Advanced Inorganic Chemistry Laboratory
Chem 151A: Inorganic Chemistry
Chem 151B: Advanced Inorganic Chemistry
Chem 151L: Inorganic Chemistry Laboratory
Chem 156C/256C: Materials Chemistry