School of Humanities and Sciences
Showing 1,201-1,250 of 1,948 Results
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Art Owen
Max H. Stein Professor
Current Research and Scholarly InterestsStatistical methods to analyze large data matrices in bioinformatics
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Ekin Gunes Ozaktas
Ph.D. Student in Electrical Engineering, admitted Autumn 2024
Ph.D. Minor, PhysicsBioI am a PhD candidate and Stanford Graduate Fellow at Stanford University working with Prof. Shanhui Fan.
Contact: eozaktas [at] stanford [dot] edu -
Julia Palacios
Associate Professor of Statistics and of Biomedical Data Science
BioDr. Palacios’s research spans Bayesian nonparametrics, probabilistic AI, stochastic processes, and computational statistics. Her group develops stochastic models and efficient inference algorithms for understanding evolutionary dynamics in population genetics, infectious diseases and cancer.
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Michael Edward Palmer
Affiliate, Biology
Visiting Scholar, BiologyBioI'm visiting the Marc Feldman Lab while writing my book, "Clade Thinking: The Macroevolution of Recursive Clades and the Evolution of Evolvability". The motivating question of the book is, "Can macroevolution be reduced to merely the repeated iteration of microevolution?" (Answer: no, you would be missing a lot.)
I'm also doing some machine learning (ML) applied to genomics with the Fraser Lab, related to the evolution of cis-regulatory elements (CREs), which are involved in a lot of recent/rapid evolution in, say, mammals. We are doing what we call "in silico genome transplants": placing DNA variants from one species into the (ML-modeled) cellular environment of another species (or cell type, or individual with some pathology, etc.). We analyze changes in gene expression to detect various modes of selection on CREs.
I got my B.S. in Physics at Yale, and my Ph.D. in Computer Science at the California Institute of Technology. I've gone back and forth between academia (computational biology) and the tech industry in Silicon Valley. -
Stephen Palumbi
Jane and Marshall Steel Jr. Professor of Marine Sciences, Professor of Oceans and of Biology
Current Research and Scholarly InterestsWe're interested in ecological, evolutionary, and conservation questions related to marine (and sometimes terrestrial) organisms and ecosystems. We use evolutionary genetics and molecular ecology techniques, and our fieldwork takes us all around the world. Currently, we're studying coral diversity, the adaptive potential of corals in response to climate change, the movement of organisms between marine reserves, genetic changes in abalone in response to environmental.
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Chenjie Pan
Basic Life Research Scientist, Biology
BioI obtained my PhD from Dr. Xiaodong Wang's lab, National Institute of Biological Sciences, Beijing/Tsinghua University. My major work during PhD is on the biochemical mechanism of myelin breakdown. I have expertise in in-tissue immunoprecipitation and pain behavior. Now I am working on axon guidance, degeneration, and plasticity in Dr. Marc Tessier-Lavigne's lab in Department of Biology.
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Suman Patra
Postdoctoral Scholar, Chemistry
BioDr. Suman Patra is a postdoctoral researcher in the Department of Chemistry at Stanford University, working under the mentorship of Prof. Edward I. Solomon. His research focuses on uncovering the mechanistic intricacies of non-coupled binuclear copper (NBC) enzymes, particularly tyramine β-monooxygenase (TBM), which catalyzes oxygen activation and selective C–H bond hydroxylation.His work integrates high-resolution spectroscopy, transient kinetics, and protein biochemistry to probe the formation, structure, and reactivity of short-lived copper-oxygen intermediates. As part of this effort, he performs cell culture and protein purification, enabling the isolation of active, recombinant copper enzymes for detailed spectroscopic and mechanistic studies. Through a multi-spectroscopic approach, primarily UV-Vis, CD, MCD, EXAFS, EPR, resonance Raman, and stopped-flow absorption spectroscopy, he investigates how the geometric and electronic structure of the active sites modulate reactivity and enable O₂ activation without direct Cu–Cu coupling.
Dr. Patra earned his Ph.D. in Chemistry from the Indian Association for the Cultivation of Science (IACS), Kolkata, under the supervision of Prof. Abhishek Dey, where he developed iron porphyrin-based electrocatalysts for the selective reduction of CO₂. His research emphasized mechanistic analysis using electrochemical methods coupled with in situ spectro-electrochemistry to monitor redox transitions and catalytic intermediates under applied potentials. These studies were complemented by density functional theory (DFT) calculations, which he used to model key intermediates, protonation pathways, and redox energetics, thereby providing molecular-level insight into how second-sphere interactions and ligand environments influence catalytic behaviour. His integrative experimental–computational approach provided a detailed understanding of structure-function relationships in multi-electron CO₂ reduction.
The mechanistic perspective and technical skillset developed during his doctoral work, particularly in combining spectroscopy, electrochemistry, and computation, now form the foundation of his postdoctoral research. His current studies extend those same principles to more complex metalloenzyme systems, addressing similar core questions about the role of electronic structure, metal-ligand coordination, and local environment in controlling reactivity. His long-term goal is to bridge synthetic and biological catalysis through a mechanistic lens, contributing to the development of efficient, selective systems for small-molecule activation and sustainable energy transformations.
Dr. Patra received his M.Sc. in Chemistry from the Indian Institute of Technology (IIT) Guwahati after qualifying the national IIT-JAM examination and completed his B.Sc. in Chemistry at St. Xavier’s College, Kolkata. Over the course of his academic training, he has cultivated a multidisciplinary research identity that spans coordination chemistry, spectroscopy, electrochemical catalysis, and theoretical modelling. His scientific vision centres on using spectroscopic and computational insight to guide the rational design of catalysts for environmentally relevant redox chemistry. -
Jonathan Payne
Dorrell William Kirby Professor, Senior Associate Dean for Faculty Affairs, Senior Fellow at the Woods Institute for the Environment and Professor, by courtesy, of Biology
Current Research and Scholarly InterestsMy goal in research is to understand the interaction between environmental change and biological evolution using fossils and the sedimentary rock record. How does environmental change influence evolutionary and ecological processes? And conversely, how do evolutionary and ecological changes affect the physical environment? I work primarily on the marine fossil record over the past 550 million years.
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Nolan Peard
Ph.D. Student in Applied Physics, admitted Autumn 2020
BioNolan is currently a PhD candidate in the Schleier-Smith Lab in the Department of Physics. He specializes in atomic, molecular, and optical (AMO) physics, chemical physics, and materials science with a developing interest in bioengineering. Beyond his research career, Nolan is an accomplished cellist and is interested in climbing, reading, and nature.
