Chemistry

University of California, Berkeley

This is an archived copy of the 2017-18 guide. To access the most recent version of the guide, please visit http://guide.berkeley.edu.

About the Program

The Chemistry PhD program is designed towards developing within each student the ability to do creative scientific research. Accordingly, the single most important facet of the curriculum for an individual is his or her own research project. In keeping with the goal of fostering an atmosphere of scholarly, independent study, formal course requirements are minimal and vary among disciplines; adviser's tailor course requirements to best prepare the student for the chosen research field.

The doctoral program includes the following concentrations, each of which has specific degree requirements:

  1. Physical Chemistry: In general, the Physical Chemistry Graduate Program encompasses experimental physical, analytical, nuclear, biophysical, and theoretical chemistry.
  2. Synthetic Chemistry: The Synthetic Chemistry Graduate Program includes emphases in preparation of organic or inorganic compounds, development of methods for their synthesis, and their characterization and use.
  3. Chemical Biology: The Chemical Biology Graduate Program covers research areas at the interface of chemistry and biology ranging from synthesis of bioactive materials through characterization of living systems.

Visit Department Website

Admissions

Admission to the University

Minimum Requirements for Admission

The following minimum requirements apply to all graduate programs and will be verified by the Graduate Division:

  1. A bachelor’s degree or recognized equivalent from an accredited institution;
  2. A grade point average of B or better (3.0);
  3. If the applicant comes from a country or political entity (e.g., Quebec) where English is not the official language, adequate proficiency in English to do graduate work, as evidenced by a TOEFL score of at least 90 on the iBT test, 570 on the paper-and-pencil test, or an IELTS Band score of at least 7 (note that individual programs may set higher levels for any of these); and
  4. Sufficient undergraduate training to do graduate work in the given field.

Applicants Who Already Hold a Graduate Degree

The Graduate Council views academic degrees not as vocational training certificates, but as evidence of broad training in research methods, independent study, and articulation of learning. Therefore, applicants who already have academic graduate degrees should be able to pursue new subject matter at an advanced level without need to enroll in a related or similar graduate program.

Programs may consider students for an additional academic master’s or professional master’s degree only if the additional degree is in a distinctly different field.

Applicants admitted to a doctoral program that requires a master’s degree to be earned at Berkeley as a prerequisite (even though the applicant already has a master’s degree from another institution in the same or a closely allied field of study) will be permitted to undertake the second master’s degree, despite the overlap in field.

The Graduate Division will admit students for a second doctoral degree only if they meet the following guidelines:

  1. Applicants with doctoral degrees may be admitted for an additional doctoral degree only if that degree program is in a general area of knowledge distinctly different from the field in which they earned their original degree. For example, a physics PhD could be admitted to a doctoral degree program in music or history; however, a student with a doctoral degree in mathematics would not be permitted to add a PhD in statistics.
  2. Applicants who hold the PhD degree may be admitted to a professional doctorate or professional master’s degree program if there is no duplication of training involved.

Applicants may apply only to one single degree program or one concurrent degree program per admission cycle.

Required Documents for Applications

  1. Transcripts: Applicants may upload unofficial transcripts with your application for the departmental initial review. If the applicant is admitted, then official transcripts of all college-level work will be required. Official transcripts must be in sealed envelopes as issued by the school(s) attended. If you have attended Berkeley, upload your unofficial transcript with your application for the departmental initial review. If you are admitted, an official transcript with evidence of degree conferral will not be required.
  2. Letters of recommendation: Applicants may request online letters of recommendation through the online application system. Hard copies of recommendation letters must be sent directly to the program, not the Graduate Division.
  3. Evidence of English language proficiency: All applicants from countries or political entities in which the official language is not English are required to submit official evidence of English language proficiency. This applies to applicants from Bangladesh, Burma, Nepal, India, Pakistan, Latin America, the Middle East, the People’s Republic of China, Taiwan, Japan, Korea, Southeast Asia, most European countries, and Quebec (Canada). However, applicants who, at the time of application, have already completed at least one year of full-time academic course work with grades of B or better at a US university may submit an official transcript from the US university to fulfill this requirement. The following courses will not fulfill this requirement:
    • courses in English as a Second Language,
    • courses conducted in a language other than English,
    • courses that will be completed after the application is submitted, and
    • courses of a non-academic nature.

If applicants have previously been denied admission to Berkeley on the basis of their English language proficiency, they must submit new test scores that meet the current minimum from one of the standardized tests.

Where to Apply

Visit the Berkeley Graduate Division application page

Doctoral Degree Requirements

The Requirements for a PhD Degree in Chemistry

  • Coursework: There is no formal coursework requirement, however, the equivalent of four semester-long courses is normally taken. Courses you will take will depend on your background and research interests.

  • Graduate student instructor service: A total of three semesters of graduate student instructor service is required, usually in the first semester and one semester in each of the next two years.

  • Research:

First year report (synthetic and chemical biology division): An original, journal quality research proposal no more than 10 pages read by two chemistry faculty.

Second year seminar (all divisions): A 25 minute presentation to the department on your research progress.

  • Qualifying examination (all divisions): An oral examination with a committee of three chemistry faculty and one outside department faculty member on your research and defense of an original research proposal (synthetic) or critical analysis of a recent outside paper (non-synthetic).

  • Dissertation (all divisions): Submission of your dissertation approved by a committee of your research adviser, a second chemistry faculty member, and one outside department faculty member. No dissertation defense.

Courses

Chemistry

CHEM 200 Chemistry Fundamentals 1 Unit

Terms offered: Fall 2018, Fall 2017, Fall 2016
Review of bonding, structure, stereochemistry, conformation, thermodynamics and kinetics, and arrow-pushing formalisms.
Chemistry Fundamentals: Read More [+]

CHEM 201 Fundamentals of Inorganic Chemistry 1 Unit

Terms offered: Fall 2018, Fall 2017, Fall 2016
Review of bonding, structure, MO theory, thermodynamics, and kinetics.
Fundamentals of Inorganic Chemistry: Read More [+]

CHEM 208 Structure Analysis by X-Ray Diffraction 4 Units

Terms offered: Spring 2017, Spring 2016, Spring 2015
The theory and practice of modern, single-crystal X-ray diffraction. Groups of four students determine the crystal and molecular structure of newly synthesized materials from the College of Chemistry. The laboratory work involves the mounting of crystals and initial evaluation by X-ray diffraction film techniques, the collection of intensity data by automated diffractometer procedures, and structure analysis and refinement.
Structure Analysis by X-Ray Diffraction: Read More [+]

CHEM 214 Heterocyclic Chemistry 3 Units

Terms offered: Spring 2018, Spring 2015, Spring 2014
Advanced topics in organic chemistry with a focus on the reactivity and synthesis of aromatic heterocycles. Classic and modern methods for the synthesis of indoles, pyridines, furans, pyrroles, and quinolines will be covered, as well as complex, multi-heteroatom ring systems. Applications to medicinal and bioorganic chemistry will be included where appropriate.
Heterocyclic Chemistry: Read More [+]

CHEM 220A Thermodynamics and Statistical Mechanics 3 Units

Terms offered: Fall 2018, Fall 2017, Fall 2016
A rigorous presentation of classical thermodynamics followed by an introduction to statistical mechanics with the application to real systems.
Thermodynamics and Statistical Mechanics: Read More [+]

CHEM 220B Statistical Mechanics 3 Units

Terms offered: Spring 2017, Spring 2016, Spring 2015
Principles of statistical mechanics and applications to complex systems.
Statistical Mechanics: Read More [+]

CHEM 221A Advanced Quantum Mechanics 3 Units

Terms offered: Fall 2018, Fall 2017, Fall 2016
Introduction, one dimensional problems, matrix mechanics, approximation methods.
Advanced Quantum Mechanics: Read More [+]

CHEM 221B Advanced Quantum Mechanics 3 Units

Terms offered: Spring 2018, Spring 2017, Spring 2016
Time dependence, interaction of matter with radiation, scattering theory. Molecular and many-body quantum mechanics.
Advanced Quantum Mechanics: Read More [+]

CHEM 222 Spectroscopy 3 Units

Terms offered: Fall 2017, Spring 2017, Spring 2015
This course presents a survey of experimental and theoretical methods of spectroscopy, and group theory as used in modern chemical research. The course topics include experimental methods, classical and quantum descriptions of the interaction of radiation and matter. Qualitative and quantitative aspects of the subject are illustrated with examples including application of linear and nonlinear spectroscopies to the study of molecular structure and dynamics and to quantitative analysis. This course is offered jointly with 122.
Spectroscopy: Read More [+]

CHEM 223A Chemical Kinetics 3 Units

Terms offered: Spring 2018, Spring 2017, Spring 2016
Deduction of mechanisms of complex reactions. Collision and transition state theory. Potential energy surfaces. Unimolecular reaction rate theory. Molecular beam scattering studies.
Chemical Kinetics: Read More [+]

CHEM C230 Protein Chemistry, Enzymology, and Bio-organic Chemistry 2 Units

Terms offered: Spring 2015, Spring 2014, Spring 2013
The topics covered will be chosen from the following: protein structure; protein-protein interactions; enzyme kinetics and mechanism; enzyme design. Intended for graduate students in chemistry, biochemistry, and molecular and cell biology.
Protein Chemistry, Enzymology, and Bio-organic Chemistry: Read More [+]

CHEM C234 Green Chemistry: An Interdisciplonary Approach to Sustainability 3 Units

Terms offered: Spring 2016, Spring 2015, Spring 2014, Spring 2013
Meeting the challenge of global sustainability will require interdisciplinary approaches to research and education, as well as the integration of this new knowledge into society, policymaking, and business. Green Chemistry is an intellectual framework created to meet these challenges and guide technological development. It encourages the design and production of safer and more sustainable chemicals and products.
Green Chemistry: An Interdisciplonary Approach to Sustainability: Read More [+]

CHEM C236 Energy Solutions: Carbon Capture and Sequestration 3 Units

Terms offered: Fall 2018, Spring 2017, Spring 2015, Spring 2014, Spring 2013
After a brief overview of the chemistry of carbon dioxide in the land, ocean, and atmosphere, the course will survey the capture and sequestration of CO2 from anthropogenic sources. Emphasis will be placed on the integration of materials synthesis and unit operation design, including the chemistry and engineering aspects of sequestration. The course primarily addresses scientific and engineering challenges and aims to engage students in state-of-the-art research in global energy challenges.
Energy Solutions: Carbon Capture and Sequestration: Read More [+]

CHEM C238 The Berkeley Lectures on Energy: Energy from Biomass 3 Units

Terms offered: Fall 2015, Fall 2014, Fall 2013
After an introduction to the different aspects of our global energy consumption, the course will focus on the role of biomass. The course will illustrate how the global scale of energy guides the biomass research. Emphasis will be places on the integration of the biological aspects (crop selection, harvesting, storage, and distribution, and chemical composition of biomass) with the chemical aspects to convert biomass to energy. The course aims to engage students in state-of-art research.
The Berkeley Lectures on Energy: Energy from Biomass: Read More [+]

CHEM 243 Advanced Nuclear Structure and Reactions 3 Units

Terms offered: Spring 2013, Fall 2009, Fall 2008
Selected topics on nuclear structure and nuclear reactions.
Advanced Nuclear Structure and Reactions: Read More [+]

CHEM 250A Introduction to Bonding Theory 1 Unit

Terms offered: Fall 2018, Fall 2017, Fall 2016
An introduction to group theory, symmetry, and representations as applied to chemical bonding.
Introduction to Bonding Theory: Read More [+]

CHEM 250B Inorganic Spectroscopy 1 Unit

Terms offered: Spring 2015, Spring 2014, Spring 2013
The theory of vibrational analysis and spectroscopy as applied to inorganic compounds.
Inorganic Spectroscopy: Read More [+]

CHEM 251A Coordination Chemistry I 1 Unit

Terms offered: Fall 2018, Fall 2017, Fall 2016
Structure and bonding, synthesis, and reactions of the d-transition metals and their compounds.
Coordination Chemistry I: Read More [+]

CHEM 251B Coordination Chemistry II 1 Unit

Terms offered: Spring 2018, Spring 2014, Spring 2011
Synthesis, structure analysis, and reactivity patterns in terms of symmetry orbitals.
Coordination Chemistry II: Read More [+]

CHEM 252A Organometallic Chemistry I 1 Unit

Terms offered: Fall 2018, Fall 2017, Fall 2016
An introduction to organometallics, focusing on structure, bonding, and reactivity.
Organometallic Chemistry I: Read More [+]

CHEM 252B Organometallic Chemistry II 1 Unit

Terms offered: Fall 2018, Fall 2017, Fall 2016
Applications of organometallic compounds in synthesis with an emphasis on catalysis.
Organometallic Chemistry II: Read More [+]

CHEM 253A Materials Chemistry I 1 Unit

Terms offered: Fall 2018, Fall 2017, Spring 2016
Introduction to the descriptive crystal chemistry and electronic band structures of extended solids.
Materials Chemistry I: Read More [+]

CHEM 253B Materials Chemistry II 1 Unit

Terms offered: Fall 2018, Fall 2017, Spring 2016
General solid state synthesis and characterization techniques as well as a survey of important physical phenomena including optical, electrical, and magnetic properties.
Materials Chemistry II: Read More [+]

CHEM 253C Materials Chemistry III 1 Unit

Terms offered: Fall 2018, Fall 2017, Spring 2016
Introduction to surface catalysis, organic solids, and nanoscience. Thermodynamics and kinetics of solid state diffusion and reaction will be covered.
Materials Chemistry III: Read More [+]

CHEM 254 Bioinorganic Chemistry 1 Unit

Terms offered: Spring 2015, Spring 2014, Spring 2013
A survey of the roles of metals in biology, taught as a tutorial involving class presentations.
Bioinorganic Chemistry: Read More [+]

CHEM 260 Reaction Mechanisms 2 Units

Terms offered: Fall 2018, Fall 2017, Fall 2016
Advanced methods for studying organic reaction mechanisms. Topics include kinetic isotope effects, behavior of reactive intermediates, chain reactions, concerted reactions, molecular orbital theory and aromaticity, solvent and substituent effects, linear free energy relationships, photochemistry.
Reaction Mechanisms: Read More [+]

CHEM 261A Organic Reactions I 1 Unit

Terms offered: Fall 2018, Fall 2017, Fall 2016
Features of the reactions that comprise the vocabulary of synthetic organic chemistry.
Organic Reactions I: Read More [+]

CHEM 261B Organic Reaction II 1 Unit

Terms offered: Fall 2018, Fall 2017, Fall 2016
More reactions that are useful to the practice of synthetic organic chemistry.
Organic Reaction II: Read More [+]

CHEM 261C Organic Reactions III 1 Unit

Terms offered: Fall 2013, Fall 2012, Fall 2011
This course will consider further reactions with an emphasis on pericyclic reactions such as cycloadditions, electrocyclizations, and sigmatropic rearrangements.
Organic Reactions III: Read More [+]

CHEM 262 Metals in Organic Synthesis 1 Unit

Terms offered: Spring 2018, Spring 2017, Spring 2016
Transition metal-mediated reactions occupy a central role in asymmetric catalysis and the synthesis of complex molecules. This course will describe the general principles of transition metal reactivity, coordination chemistry, and stereoselection. This module will also emphasize useful methods for the analysis of these reactions.
Metals in Organic Synthesis: Read More [+]

CHEM 263A Synthetic Design I 1 Unit

Terms offered: Spring 2018, Spring 2017, Spring 2016
This course will describe the application of modern reactions to the total synthesis of complex target molecules. Natural products, such as alkaloids, terpenes, or polypropionates, as well as theoretically interesting "non-natural" molecules will be covered.
Synthetic Design I: Read More [+]

CHEM 263B Synthetic Design II 1 Unit

Terms offered: Spring 2018, Spring 2017, Spring 2016
The principles of retrosynthetic analysis will be laid down and the chemistry of protecting groups will be discussed. Special attention will be given to the automated synthesis of biopolymers such as carbohydrates, peptides, and proteins, as well as nucleic acids.
Synthetic Design II: Read More [+]

CHEM 265 Nuclear Magnetic Resonance Theory and Application 1 Unit

Terms offered: Fall 2018, Fall 2017, Fall 2016
The theory behind practical nuclear magnetic resonance spectroscopy and a survey of its applications to chemical research.
Nuclear Magnetic Resonance Theory and Application: Read More [+]

CHEM 268 Mass Spectrometry 2 Units

Terms offered: Spring 2018, Spring 2017, Spring 2016
Principles, instrumentation, and application in mass spectrometry, including ionization methods, mass analyzers, spectral interpretation, multidimensional methods (GC/MS, HPLC/MS, MS/MS), with emphasis on small organic molcules and bioanalytical applications (proteins, peptides, nucleic acids, carbohydrates, noncovalent complexes); this will include the opportunity to be trained and checked out on several open-access mass spectrometers.
Mass Spectrometry: Read More [+]

CHEM 270A Advanced Biophysical Chemistry I 1 Unit

Terms offered: Spring 2018, Spring 2016, Spring 2015
Underlying principles and applications of methods for biophysical analysis of biological macromolecules.
Advanced Biophysical Chemistry I: Read More [+]

CHEM 270B Advanced Biophysical Chemistry II 1 Unit

Terms offered: Spring 2018, Spring 2016, Spring 2015
More applications of methods for biophysical analysis of biological macromolecules.
Advanced Biophysical Chemistry II: Read More [+]

CHEM C271A Chemical Biology I - Structure, Synthesis and Function of Biomolecules 1 Unit

Terms offered: Spring 2018, Spring 2017, Spring 2016
This course will present the structure of proteins, nucleic acids, and oligosaccharides from the perspective of organic chemistry. Modern methods for the synthesis and purification of these molecules will also be presented.
Chemical Biology I - Structure, Synthesis and Function of Biomolecules: Read More [+]

CHEM C271B Chemical Biology II - Enzyme Reaction Mechanisms 1 Unit

Terms offered: Spring 2018, Spring 2017, Spring 2016
This course will focus on the principles of enzyme catalysis. The course will begin with an introduction of the general concepts of enzyme catalysis which will be followed by detailed examples that will examine the chemistry behind the reactions and the three-dimensional structures that carry out the transformations.
Chemical Biology II - Enzyme Reaction Mechanisms: Read More [+]

CHEM C271C Chemical Biology III - Contemporary Topics in Chemical Biology 1 Unit

Terms offered: Spring 2018, Spring 2017, Spring 2016
This course will build on the principles discussed in Chemical Biology I and II. The focus will consist of case studies where rigorous chemical approaches have been brought to bear on biological questions. Potential subject areas will include signal transduction, photosynthesis, immunology, virology, and cancer. For each topic, the appropriate bioanalytical techniques will be emphasized.
Chemical Biology III - Contemporary Topics in Chemical Biology: Read More [+]

CHEM 295 Special Topics 1 - 3 Units

Terms offered: Fall 2018, Spring 2016, Fall 2015
Lecture series on topics of current interest. Recently offered topics: Natural products synthesis, molecular dynamics, statistical mechanics, molecular spectroscopy, structural biophysics, organic polymers, electronic structure of molecules and bio-organic chemistry.
Special Topics: Read More [+]

CHEM 298 Seminars for Graduate Students 1 - 3 Units

Terms offered: Fall 2018, Spring 2018, Fall 2017
In addition to the weekly Graduate Research Conference and weekly seminars on topics of interest in biophysical, organic, physical, nuclear, and inorganic chemistry, there are group seminars on specific fields of research. Seminars will be announced at the beginning of each semester.
Seminars for Graduate Students: Read More [+]

CHEM 299 Research for Graduate Students 1 - 9 Units

Terms offered: Fall 2018, Spring 2018, Fall 2017
The facilities of the laboratory are available at all times to graduate students pursuing original investigations toward an advanced degree at this University. Such work is ordinarily in collaboration with a member of the staff.
Research for Graduate Students: Read More [+]

CHEM 300 Professional Preparation: Supervised Teaching of Chemistry 2 Units

Terms offered: Fall 2018, Spring 2018, Fall 2017
Discussion, curriculum development, class observation, and practice teaching in chemistry.
Professional Preparation: Supervised Teaching of Chemistry: Read More [+]

CHEM 301 Pre-High School Chemistry Classroom Immersion 1 Unit

Terms offered: Fall 2018, Fall 2017, Spring 2017
Provides training and opportunity for graduate students to make presentations in local public schools. Training ensures that presenters are aware of scientific information mandated by the State of California for particular grade levels, and that presentations are intellectually stimulating, relevant to the classroom students' interests, and age-appropriate. Time commitment an average of two to three hours/week, but actual time spent is concentrated during preparation and classroom delivery of presentations, which are coordinated between teachers' needs and volunteers' availability.
Pre-High School Chemistry Classroom Immersion: Read More [+]

CHEM 301A Undergraduate Lab Instruction 2 Units

Terms offered: Fall 2017, Spring 2017, Fall 2016
Tutoring of students in 1AL and 1B laboratory. Students attend one hour of the regular GSI preparatory meeting and hold one office hour per week to answer questions about laboratory assignments.
Undergraduate Lab Instruction: Read More [+]

CHEM 301B Undergraduate Chemistry Instruction 2 Units

Terms offered: Fall 2017, Spring 2017, Fall 2016
Tutoring of students in 1A-1B. Students attend a weekly meeting on tutoring methods at the Student Learning Center and attend 1A-1B lectures.
Undergraduate Chemistry Instruction: Read More [+]

CHEM 301C Chemistry Teacher Scholars 2 Units

Terms offered: Fall 2018, Spring 2018, Fall 2017
The Chemistry Undergraduate Teacher Scholar Program places undergraduate students as apprentice instructors in lower division laboratory and discussion sections. In a weekly meeting with instructors, participants learn about teaching, review chemistry knowledge, and are coached to mentor students.
Chemistry Teacher Scholars: Read More [+]

CHEM 301D Undergraduate Chemistry Course Instruction 1 - 2 Units

Terms offered: Fall 2017, Spring 2017, Fall 2016
Tutoring of students enrolled in an undergraduate chemistry course.
Undergraduate Chemistry Course Instruction: Read More [+]

CHEM 301T Undergraduate Preparation for Teaching or Instruction in Teaching 2 Units

Terms offered: Spring 2015, Spring 2014, Spring 2013

Undergraduate Preparation for Teaching or Instruction in Teaching: Read More [+]

CHEM 301W Supervised Instruction of Chemistry Scholars 2 Units

Terms offered: Fall 2017, Spring 2017, Fall 2016
Tutoring of students in the College of Chemistry Scholars Program who are enrolled in general or organic chemistry. Students attend a weekly meeting with instructors.
Supervised Instruction of Chemistry Scholars: Read More [+]

CHEM 375 Professional Preparation: Supervised Teaching of Chemistry 2 Units

Terms offered: Prior to 2007
Discussion, curriculum development, class observation, and practice teaching in chemistry.
Professional Preparation: Supervised Teaching of Chemistry: Read More [+]

CHEM 602 Individual Study for Doctoral Students 1 - 8 Units

Terms offered: Fall 2017, Spring 2017, Fall 2016
Individual study in consultation with the major field adviser, intended to provide an opportunity for qualified students to prepare themselves for the various examinations required of candidates for the Ph.D. degree. May not be used for unit or residence requirements for the doctoral degree.
Individual Study for Doctoral Students: Read More [+]

CHEM 700 QB3 Colloquium for Graduate Students 0.0 Units

Terms offered: Fall 2017, Fall 2016
Weekly Graduate colloquium on topics of interest in QB3 research.
QB3 Colloquium for Graduate Students: Read More [+]

Faculty and Instructors

+ Indicates this faculty member is the recipient of the Distinguished Teaching Award.

Faculty

Paul Alivisatos, Professor. Physical chemistry, semiconductor nanocrystals, nanoscience, nanotechnology, artificial photosynthesis, solar energy, renewable energy, sustainable energy.
Research Profile

Richard A. Andersen, Professor. Chemistry, inorganic chemistry, organometallic chemistry.
Research Profile

John Arnold, Professor. Organometallic chemistry, organometallic catalysis, materials chemistry, coordination chemistry.
Research Profile

Anne Baranger, Adjunct Professor. Chemical education, chemical biology, organic chemistry.
Research Profile

Kristie A. Boering, Professor. Physical chemistry, climate change, atmospheric chemistry, environmental chemistry, ozone, earth and planetary science, isotopic compositions of atmospheric trace gases, stratospheric ozone, carbon dioxide, nitrous oxide, molecular hydrogen, methane.
Research Profile

Carlos J. Bustamante, Professor. Nanoscience, structural characterization of nucleo-protein assemblies, single molecule fluorescence microscopy, DNA-binding molecular motors, the scanning force microscope, prokaryotes.
Research Profile

Jamie Cate, Professor. Molecular basis for protein synthesis by the ribosome, RNA, antibiotics, a thermophilic bacterium, escherichia coli.
Research Profile

Christopher J. Chang, Professor. Chemistry, inorganic chemistry, neuroscience, bioinorganic chemistry, general physiology, organic chemistry, new chemical tools for biological imaging and proteomics, new metal complexes for energy catalysis and green chemistry, chemical biology.
Research Profile

Michelle Chang, Associate Professor.

Ronald C. Cohen, Professor. Physical chemistry, water, climate, air pollution, atmospheric chemistry, environmental chemistry, analytical chemistry, ozone, nitrogen oxides, CO2, clouds.
Research Profile

Tanja Cuk, Assistant Professor.

Jennifer A. Doudna, Professor. RNA machines, hepatitis C virus, RNA interference, ribosomes.
Research Profile

Felix Fischer, Assistant Professor. Organic and Inorganic Materials Chemistry, Supramolecular Chemistry, Polymer Chemistry, Molecular Electronics.
Research Profile

Graham R. Fleming, Professor. Chemistry, proteins, chemical and biological dynamics in the condensed phase, ultrafast spectroscopy, body dynamics, liquids, solutions, glasses, photosynthetic proteins, role of solvents in chemical reactions, complex electric fields, electron transfer.
Research Profile

+ Matt Francis, Professor. Materials chemistry, drug delivery, organic chemistry, Protein modification, artificial photosynthesis, water purification.
Research Profile

+ Phillip Lewis Geissler, Professor. Statistical mechanics, theoretical chemistry, microscopic behavior of complex biological and material systems, biomolecular structure and dynamics, nonlinear vibrational spectroscopy.
Research Profile

Naomi Ginsberg, Associate Professor. Physical and biophysical chemistry; light harvesting, spectroscopy, and imaging.

Jay T. Groves, Professor. Chemistry, physical chemistry of cell membranes, molecular organization in cell membranes, receptor-ligand binding, spatial rearrangement of receptors, ligands.
Research Profile

Ming Chen Hammond, Assistant Professor. Molecular biology, biochemistry, organic chemistry, synthetic biology, chemical biology.
Research Profile

John F. Hartwig, Professor. Inorganic chemistry, organometallic chemistry, catalysis, organic chemistry.
Research Profile

Martin Head-Gordon, Professor. Theoretical chemistry, electronic structure calculations, development of novel theories and algorithms, quantum mechanics.
Research Profile

Teresa Head-Gordon, Professor. Computational chemistry, biophysics, bioengineering, biomolecules, materials, computational science.
Research Profile

John Kuriyan, Professor. Structural and functional studies of signal transduction, DNA replication, cancer therapies, phosphorylation.
Research Profile

Stephen R. Leone, Professor. Physical chemistry, molecular dynamics, atomic, molecular, nanostructured materials, energy applications, attosecond physics and chemistry, radical reactions, combustion dynamics, microscopy, Optical physics, chemical physics, soft x-ray, high harmonic generation, ultrafast laser, aerosol chemistry and dynamics, neutrals imaging.
Research Profile

David Limmer, Assistant Professor. Theoretical chemistry.

Jeffrey R. Long, Professor. Inorganic and solid state chemistry, synthesis of inorganic clusters and solids, controlling structure, tailoring physical properties, intermetal bridges, high-spin metal-cyanide clusters, magnetic bistability.
Research Profile

Thomas Maimone, Assistant Professor. Organic synthesis, total synthesis, natural products chemistry, catalysis, synthetic methodology, medicinal chemistry.
Research Profile

Marcin Majda, Professor. Electrochemistry, analytical chemistry, electrode & solution interfaces, electron tunneling, bioanalytical chemistry.
Research Profile

Michael A. Marletta, Professor. Chemical biology, molecular biology, structure/function relationships in proteins, catalytic and biological properties of enzymes, cellular signaling, nitric oxide synthase, soluble guanylate cyclase, gas sensing, cellulose degradation, polysaccharide monooxygenases.
Research Profile

Evan W. Miller, Assistant Professor. Chemical biology, organic chemistry, fluorescence microscopy, neuroscience, imaging.

Luciano G. Moretto, Professor. Chemistry, nuclear science, statistical and dynamical properties of nuclei, nuclear reactions, multifragmentation, thermal scaling, monovariant and bivariant regions.
Research Profile

Daniel Neumark, Professor. Physical chemistry, molecular structure and dynamics, spectroscopy and dynamics of transition states, radicals, and clusters, frequency and time-domain techniques, state-resolved photodissociation, photodetachment of negative ion beams.
Research Profile

Eric Neuscamman, Assistant Professor. Electronic Structure Theory, Quantum Chemistry.
Research Profile

Daniel K. Nomura, Associate Professor. Chemical Biology and Analytical Chemistry.
Research Profile

+ Alexander Pines, Professor. Theory and experiment in magnetic resonance spectroscopy and imaging, quantum coherence and decoherence, novel concepts and methods including molecular and biomolecular sensors and microfluidics, laser hyperpolarization and detection, laser and zero-field NMR, in areas from material science to biomedicine.
Research Profile

Eran Rabani, Professor. Theory of nanomaterials.
Research Profile

Richmond Sarpong, Professor. Organic and organometallic chemistry.
Research Profile

David Savage, Assistant Professor. Synthetic biology and metabolism.
Research Profile

+ Richard J. Saykally, Professor. Physical chemistry, surface science, analytical chemistry, materials solid state chemistry, laser spectroscopy methods, X-ray spectroscopy, molecular astrophysics, novel forms of matter, nonlinear optical molecular imaging(NMI), water clusters.
Research Profile

Kevan M. Shokat, Professor. Chemistry, bio-organic chemistry, diabetes, protein phosphorylation, fundamental signal transduction pathways in cells and whole organisms, kinase, drug development, asthma, multiple forms of cancer, neurological disorders, drug addiction.
Research Profile

+ Angelica Stacy, Professor. Chemistry, solid states, physical and inorganic chemistry, emerging technologies, synthesis and characterization of new solid state materials with novel electronic properties, magnetic properties, development of new synthetic methodologies.
Research Profile

T. Don Tilley, Professor. Inorganic, organometallic, polymer and materials chemistry; synthetic, structural, and reactivity studies on transition metal compounds; catalysis; new chemical transformations; advanced solid state materials; renewable energy; solar fuels.
Research Profile

Dean F. Toste, Professor. Organometallic chemistry, organic, development of new synthetic methods, enantioselective catalysts, strategies for the synthesis of natural products, synthesis of complex molecules, formation of carbon-carbon and carbon-heteroatom bonds, olefins.
Research Profile

K. Peter Vollhardt, Professor. Organic and organometallic chemistry, transition metals, novel synthetic methodology, synthesis of complex natural and unnatural products, assembly of novel oligometallic arrays, phenylenes, organic magnets and conductors.
Research Profile

David E. Wemmer, Professor. Nuclear magnetic resonance, nucleic acids, biophysical chemistry: proteins, NMR spectroscopy, magnetic resonance methods, structure of proteins and DNA, conformational fluctuations, biopolymers.
Research Profile

K. Birgitta Whaley, Professor. Chemistry, physical and theoretical chemistry, cluster and nano science, quantum information and computations, quantum mechanics of clusters and advanced materials, elucidating and manipulating chemical dynamics in strongly quantum environments.
Research Profile

Evan Williams, Professor. Spectroscopy, molecular structure and dynamics, analytical chemistry, biophysical chemistry, structure and reactivity of biomolecules and biomolecule/water interactions, mass spectrometry, separations, protein conformation, protein and DNA sequencing.
Research Profile

Ke Xu, Assistant Professor. Biophysical chemistry, cell biology at the nanoscale, super-resolution microscopy, single-molecule spectroscopy.
Research Profile

Ting Xu, Associate Professor. Polymer, nanocomposite, biomaterial, membrane, directed self-assembly, drug delivery, protein therapeutics, block copolymers, nanoparticles.
Research Profile

Omar Yaghi, Professor.

Peidong Yang, Professor. Materials chemistry, sensors, nanostructures, energy conversion, nanowires, miniaturizing optoelectronic devices, photovoltaics, thermoelectrics, solid state lighting.
Research Profile

Lecturers

Michelle Christine Douskey, Lecturer.

Peter C. Marsden, Lecturer.

Steven F. Pedersen, Senior Lecturer.

Maryann Robak, Lecturer.

Emeritus Faculty

Paul A. Bartlett, Professor Emeritus. Bio-organic chemistry, synthetic chemistry, enzyme inhibitors, combinatorial chemistry, peptide conformation, proteomimetics.
Research Profile

Robert G. Bergman, Professor Emeritus. Organic and inorganic chemistry: synthesis and reaction mechanisms, organotransition metal compounds, homogeneous catalysis.
Research Profile

Joseph Cerny, Professor Emeritus. Nuclear chemistry, nuclei, radioactivity, isotopes.
Research Profile

David Chandler, Professor Emeritus. Physical chemistry, chemistry, statistical mechanics, theoretical, condensed matter, molecular structure and dynamics, quantum theory of many body systems.
Research Profile

Robert E. Connick, Professor Emeritus.

Jean M. J. Frechet, Professor Emeritus. Materials chemistry, catalysis, drug delivery, analytical chemistry, organic synthesis, polymer science, macromolecules, chiral recognition, control of molecular architecture at the nanometer scale, reactive surfaces.
Research Profile

Charles B. Harris, Professor Emeritus. Physical chemistry, surface science, theoretical chemistry, chemical dynamics, femtosecond lasers in the visible and infrared, energy transfer, relaxation, primary processes in chemical reactions in liquids, the dynamical properties of electrons.
Research Profile

Robert A. Harris, Professor Emeritus. Molecules, radiation, theoretical chemistry, atoms, weak interactions, condensed matter.
Research Profile

John E. Hearst, Professor Emeritus. Nucleic acid structure, psoralen photochemistry.
Research Profile

Clayton H. Heathcock, Professor Emeritus. Organic synthesis, organic chemistry, large-molecule synthesis.
Research Profile

Darleane C. Hoffman, Professor Emeritus. Nuclear chemistry, actinide, transactinides, superheavy elements, liquid-liquid extractions, solid-phase chromatographic extractions, gas-phase chromatographic separations, meitnerium, nuclear decay properties of the heaviest elements, decay.
Research Profile

Sung-Hou Kim, Professor Emeritus. Computational genomics, Structural Biology, drug discovery, disease genomics.
Research Profile

Judith P. Klinman, Professor Emeritus. Catalytic & regulatory mechanisms in enzyme-catalyzed reactions, kinetic, spectroscopic, stereochemical biological techniques, peptide- derived cofactors, Nuclear tunneling & role of protein dynamics in catalysis, enzymatic activation of molecular oxygen.
Research Profile

Yuan T. Lee, Professor Emeritus.

William Lester, Professor Emeritus. Theoretical and physical chemistry, advances in basic theory, computational methods, study of molecular electronic structure, quantum Monte Carlo method, Born-Oppenheimer approximation.
Research Profile

Samuel S. Markowitz, Professor Emeritus. Nuclear chemistry, environmental chemistry, nuclear reactions for chemical analyses.
Research Profile

Richard Mathies, Professor Emeritus. Genomics, biophysical, bioanalytical, physical chemistry; laser spectroscopy, resonance Raman, excited-state reaction dynamics photoactive proteins, rhodopsins, microfabricated chemical biochemical analysis devices, forensics, infectious disease detection.
Research Profile

William H. Miller, Professor Emeritus. Theoretical chemistry, chemical dynamics, quantum mechanical and semiclassical theories, dynamical chemical processes at the molecular level, photodissociation, femtosecond pump-probe spectroscopy, calculations of rate constants for chemical reactions.
Research Profile

C. Bradley Moore, Professor Emeritus.

Arlyn M. Myers, Professor Emeritus.

Norman E. Phillips, Professor Emeritus. Materials, solid state chemistry, low-temperature specific heat measurements, microscopic theories, models for condensed matter, macroscopic properties, microscopic structures, measurements on nanoparticles, carbon nanotubes.
Research Profile

John O. Rasmussen, Professor Emeritus.

Kenneth N. Raymond, Professor Emeritus. Chemistry, bacteria, bioinorganic chemistry, biophysical chemistry, coordination, design of specific chelating agents for metal ions, human iron storage and transport proteins, low-molecular weight chelating agents, metals in medicine, metal-ligands.
Research Profile

Kenneth Sauer, Professor Emeritus.

Charles V. Shank, Professor Emeritus.

David Shirley, Professor Emeritus.

Robert G. Snyder, Professor Emeritus.

Gabor A. Somorjai, Professor Emeritus. Physical chemistry, catalysis, surface science, low-energy electron diffraction, solid state chemistry, macroscopic surface phenomena, adhesion, lubrication, biocompatibility, bonding, and reactivity at solid surfaces, scanning tunneling.
Research Profile

Andrew Streitwieser, Professor Emeritus.

Contact Information

Department of Chemistry

419 Latimer Hall

Phone: 510-642-5882

Fax: 510-642-9675

Visit Department Website

Department Chair

David E. Wemmer

419A Latimer Hall

Phone: 510-643-9057

chemchair@berkeley.edu

Vice Chair of Biological Graduate Program

Christopher Chang

532A Latimer Hall

Phone: 510-642-4704

chrischang@berkeley.edu

Vice Chair of Synthetic Graduate Program

Richmond Sarpong

841A Latimer Hall

Phone: 510-643-6312

rsarpong@berkeley.edu

Vice Chair of Physical Graduate Program

Kristie A. Boering

BG3 Giauque Hall

Phone: 510-642-3472

boering@berkeley.edu

Graduate Student Affairs Officer, Supervisor

Lynn Keithlin

419C Latimer Hall

Phone: 510-643-0571

keithlin@berkeley.edu

Student Affairs Officer

Joel Adlen

419F Latimer Hall

Phone: 510-642-5884

joeladlen@berkeley.edu

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