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Chemistry & Biochemistry

253.879.2848
chemistry@pugetsound.edu

Chair

Amanda Mifflin
253-879-3835

Administrative Support

Holly Jones
253.879.2848

Program Description

The chemistry and biochemistry department offers foundational courses in the five core chemical sub-disciplines: organic, physical, analytical, inorganic, and biochemistry. Additional elective courses explore a variety of topics, including computational chemistry, materials chemistry, food chemistry, environmental chemistry, and organic synthesis.

Classes are small, with fewer than 40 students in introductory-level chemistry lecture sections and 16 students in laboratory sections. Our faculty members are active researchers and work side by side with undergraduate students in the research lab. Many students engage in collaborative research with faculty in areas such as materials science, chemical biology, nanotechnology, biophysical chemistry, green chemistry, and climate science. Students have regular access to specialized state-of-the-art instrumentation and gain proficiency in a wide range of techniques. The small classes, abundant opportunities for independent research, and close and frequent interactions with faculty offer students the ideal environment for gaining a strong foundational training in chemistry or biochemistry.

 

Who You Could Be

  • Research scientist in fields such as forensic science, toxicology, biotechnology, and environmental monitoring
  • Environmental, civil, or chemical engineer
  • Medical professional (including physician, nurse, dentist, pharmacist, and physical therapist)
  • Science Teacher
  • Analyst at a science policy institute
  • Environmental or patent lawyer

What You'll Learn

  • Foundational principles of chemistry and key concepts in specialized fields, such as materials science, nanotechnology, environmental chemistry, and climate science
  • How to connect chemistry to current, real-world problems in society and the environment
  • Laboratory techniques and how to use state-of-the-art analytical instrumentation
  • How to use computers for data analysis, modeling, and visualization of chemical phenomena
  • Scientific communication and literacy, including scientific writing, the presentation of research results, and how to read and interpret scientific literature
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ALUMNA
Isabella Graves ’16

"My chemistry background equipped me with scientific knowledge and technical skills that I would continue to use throughout graduate school and into my career."

 

SAMPLE COURSES
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In this introductory chemistry course, students learn and apply fundamental chemical modes of analysis to challenges presented by a changing climate. Modes of analysis include acid/base and buffer chemistry, oxidation/reduction reactions and the thermodynamics of combustion, principles underlying electrochemistry, and spectroscopy relevant to the greenhouse effect and photochemical reactions.

Code
Natural Scientific and Mathematical Perspectives
Prerequisites
Credit will not be granted to students who have received credit for another chemistry course equivalent to any course numbered CHEM 110 or higher.

This course focuses on the elements and their organization into the periodic table. Students examine the origin of the elements, the periodic and group relationships, and the role of the elements and their compounds in medicine, materials, and society. Much of the course material is directly drawn from the scientific literature.

Code
Natural Scientific and Mathematical Perspectives
Prerequisites
CHEM 251.

The course emphasizes the analytical process in making environmental chemistry measurements. An overview of methods used for the chemical analysis of air, soil, and water will be covered. Special attention is given to sampling, quality assurance, spectroscopic measurements and chromatographic separations with mass spectral determination. This course builds on the analysis techniques presented in the prerequisite courses and applies them to the specific challenges when dealing with complex environmental systems. This course has a laboratory component to give hands on experience to illustrate some of these analytical challenges. The lab meets during the regularly scheduled course periods. This class has field trips to local and state laboratories and environmental facilities.

Code
Natural Scientific and Mathematical Perspectives
Prerequisites
CHEM 230 or 231, and 250.

This course introduces analytical techniques and instrumental methods that are commonly used to character biological systems. Techniques surveyed may include chromatography, mass spectrometry, X-ray diffraction, NMR, circular dichroism, fluorescence spectroscopy, and molecular dynamics simulations. The course focuses on applications of these methods to a specific system or research area, which may vary from year to year, e.g. lipid membrane, toxicology, proteomics, etc. This course does not require but is complimentary to CHEM 330 and CHEM 460.

Code
Natural Scientific and Mathematical Perspectives
Prerequisites
CHEM 250 and CHEM 230 or 231 or permission of instructor.

This course explores the science of food and cooking. Topics include flavor, physical properties, nutrition, cooking methods, and reactions. In-class demonstrations and hands-on experiments allow for a tactile and sensory experience. Modern issues in food are discussed, including organic farms, GMO food, and the science behind recent dietary fads. Optional field trips occur throughout the semester.

Code
Natural Scientific and Mathematical Perspectives
Prerequisites
CHEM 230/231 and CHEM 251, and instructor permission.

This course explores the chemistry of various metabolic processes including glycolysis, citric acid cycle, oxidative phosphorylation, electron transport, fatty acid and amino acid synthesis and degradation, DNA synthesis, RNA synthesis and processing, and protein synthesis and processing. Particular attention is paid to the experimental approaches that have provided information about these processes.

Code
Natural Scientific and Mathematical Perspectives
Prerequisites
CHEM 460 and BIOL 361 redundant.
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Experiential Learning

Selected recent student research projects through summer research grants:

  • Anna Brown '26, "Analyzing the Effectiveness of Washington's Safe Medication Return Policy"
  • Quinn Fafard '26, "Investigating the Effect of Lipid Peroxidation on the Unfolding of Membrane Proteins in Model Membranes"
  • Kobe Kwan '25, "Development of new catalysts for more sustainable amide synthesis"
  • Spencer Racca-Gwozdzik '25, "The Effects of a Non-Zero Temperature Gradient on Faceted Ice Growth"
  • Helena Rudolf '26, "Wastewater Testing Illicit Stimulants Over Time"
  • Luca Sciarra '25, "Application of Integrin ⍺5β1 in relation with SARS-Cov-2 spike protein variant Omicron in Endothelial Cells"
  • Ezra Thill '25, "Modeling the Distribution of Water Vapor About Cirrus-like Ice Crystals and its Applications in Pedagogy"
  • Reese Vetsch '25, "Forming Amides Sustainably through Direct Amidation with Catalysts"
  • Alex Wang '26, "Computational Insights into Antibody Resistance of SARS-Cov-2 Variants"
  • Graham Whitney '27, "An Electron Microscopy Investigation on the Synthesis and Surface Characterization of Hematite Nanoparticles"
  • Noah Zimmer '25, "Examining the Curvature of Faceted Ice Crystals to Short Intervals of Growth and Ablation"

 

Stories

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Where Graduates Work

Where our graduates work:

  • EMSL Analytical, Inc.
  • Santa Cruz Biotechnology (research associate)
  • Nike Inc. (analytical scientist)
  • Pacific Northwest National Laboratory (research assistant)
  • Infectious Disease Research Institute (research assistant)

 

Where Graduates Continue Studying

Where our students continue their studies:

  • Washington State University College of Veterinary Medicine
  • University of Chicago (Ph.D., chemistry)
  • Georgia Institute of Technology (Ph.D., chemistry)
  • University of Arizona (biomedical engineering)
  • University of the Pacific (pharmacy)
  • University of Oregon (master's, industrial chemistry)
MEET THE FACULTY
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Luc Boisvert
Professor, Chemistry

Prof. Boisvert studies and teaches organic chemistry while focusing his organic and organometallic chemistry research on the development and implementation of more efficient and sustainable chemical processes.

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Megan Gessel
Associate Professor, Chemistry

Prof. Gessel's research interests include analytical chemistry, environmental chemistry, and non-covalent interactions. She teaches mainly upper-level courses.

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Eric Scharrer
Professor, Chemistry

Prof. Scharrer's research focuses on the synthesis and analysis of new organic liquid crystals, the compounds used in a variety of displays for watches, calculators, and computers.

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Daniel Burgard
Professor, Chemistry

Prof. Burgard's environmental analyses include quantifying pharmaceuticals and illicit drugs in wastewater. Students analyze for cannabis, opioids, and illicit stimulants in sewage to estimate community drug use.

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Amanda Mifflin
Professor, Chemistry

With research interests in the characterization of soil particles and how they react with various species, Prof. Miflin teaches a range of introductory and advanced chemistry courses.

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Johanna Crane
Professor, Chemistry

Prof. Crane's research focuses on the design, synthesis, and characterization of novel inorganic materials such as metal-organic frameworks, metal-containing polymers, and metallogels.

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Dorothy Huang
Visiting Assistant Professor, Chemistry

A theoretical chemist by training and an educator at heart, Prof. Huang helps students develop a strong foundation in chemistry utilizing mathematics as a language to describe physical phenomena.

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Steven Neshyba
Professor, Chemistry and Robert G. Albertson Professor

In the lab, Prof. Neshyba and his students study the interaction of water and light and the molecular dynamics of ice crystals to better understand how ice crystal-forming clouds modulate Earth's climate.

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Emily Tollefson
Assistant Professor, Chemistry

A specialist in chemical biology and sustainable nanotechnology, Prof. Tollefson has published in the Journal of the American Chemical Society and teaches intro-level chemistry courses.

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Jeffrey Grinstead
Professor and Chair, Chemistry

Prof. Grinstead's research focuses on the application of structural and biophysical techniques, with an emphasis on the dynamics, thermodynamics, structure, and kinetics of protein-protein and protein-ligand interactions.

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FACILITIES

Instrument Room
INSTRUMENT ROOM

Undergraduate students have hands-on access to work on a variety of instruments in their research and coursework.

Chemistry study lounge
CHEMISTRY STUDY LOUNGE

Chemistry students have a dedicated study lounge in the science center, often used for tutoring sessions with the student affiliate chapter of the American Chemical Society.

Students working in chemistry lab
TEACHING & RESEARCH LABS

Students will have extensive experience in teaching labs, and many students also have the chance to work in dedicated research labs with faculty members.