Eric E. Finney
- Courses5
- Reviews15
- School: Pacific Lutheran University
- Campus:
- Department: Chemistry
- Email address: Join to see
- Phone: Join to see
-
Location:
12180 Park Ave S
Tacoma, WA - 98447 - Dates at Pacific Lutheran University: December 2013 - April 2018
- Office Hours: Join to see
Biography
Pacific Lutheran University - Chemistry
Resume
2002
Doctor of Philosophy (Ph.D.)
Chemistry
Colorado State University
1998
Bachelor of Science (B.S.)
Chemistry
Western Washington University
Microsoft Office
Customer Service
Higher Education
Teaching
Public Speaking
University Teaching
Teamwork
Student Development
Gold Nanocluster Agglomeration Kinetic Studies: Evidence for Parallel Bimolecular Plus Autocatalytic Agglomeration Pathways as a Mechanism-Based Alternative to an Avrami-Based Analysis
Richard G. Finke
William E. Buhro
Shawn P. Shields
Gold Nanocluster Agglomeration Kinetic Studies: Evidence for Parallel Bimolecular Plus Autocatalytic Agglomeration Pathways as a Mechanism-Based Alternative to an Avrami-Based Analysis
Andrew J. Boydston
Organocatalyzed Anodic Oxidation of Aldehydes
Catalyst Sintering Kinetics Data: Is There a Minimal Chemical Mechanism Underlying Kinetics Previously Fit by Empirical Power-Law Expressions—and if So
What Are Its Implications?
Richard G. Finke
Claire Besson
A Mechanism for Transition-Metal Nanoparticle Self-Assembly
Richard G. Finke
Claire Besson
Nanocluster Nucleation
Growth
and Then Agglomeration Kinetic and Mechanistic Studies: A More General
Four-Step Mechanism Involving Double Autocatalysis
Richard G. Finke
Is There a Minimal Chemical Mechanism Underlying Classical Avrami-Erofe’ev Treatments of Phase-Transformation Kinetic Data?
Richard G. Finke
Bruce C. Gates
Saim Özkar
Nigel D. Browning
Ceren Aydin
Jing Lu
Ercan Bayram
Agglomerative Sintering of an Atomically Dispersed Ir1/Zeolite Y Catalyst: Compelling Evidence Against Ostwald Ripening but for Bimolecular and Autocatalytic Agglomeration Catalyst Sintering Steps
Richard G. Finke
Nanocluster nucleation and growth kinetic and mechanistic studies: A review emphasizing transition-metal nanoclusters
Richard G. Finke
Fitting and Interpreting Transition-Metal Nanocluster Formation and Other Sigmoidal-Appearing Kinetic Data: A More Thorough Testing of Dispersive Kinetic vs Chemical-Mechanism-Based Equations and Treatments for 4-Step Type Kinetic Data
Richard G. Finke
The Four-Step
Double-Autocatalytic Mechanism for Transition-Metal Nanocluster Nucleation
Growth
and Then Agglomeration: Metal
Ligand
Concentration
Temperature
and Solvent Dependency Studies
Richard G. Finke
Is it homogeneous Pt(II) or heterogeneous Pt(0)n catalysis? Evidence that Pt(1
5-COD)Cl2 and Pt(1
5-COD)(CH3)2 plus H2 form heterogeneous
nanocluster plus bulk-metal Pt(0) hydrogenation catalysts
Forensic Analysis of Biodiesel
R.G. Finke
Transition-metal nanocluster size vs. formation time and the catalytically effective nucleus number: A mechanism-based treatment.
Eric
Boydston Chemical Innovations
Washington State Patrol
University of Washington
Pacific Lutheran University
Greater Seattle Area
Forensic Scientist
Washington State Patrol
Greater Seattle Area
Postdoctoral Associate
University of Washington
Boydston Chemical Innovations
Visiting Assistant Professor
Pacific Lutheran University
