Chemistry
Showing 1-63 of 63 Results
-
Lin Liu
Postdoctoral Scholar, Chemistry
BioI finished my undergraduate study in general chemistry at Shandong Normal University in 2014. Later, I continued to my master’s studies in organic chemistry at Lanzhou University. In 2018, I moved to Baylor University conducting research under the mentorship of Professor John L. Wood. During my graduate studies, I mainly focused on the total syntheses of natural products. In 2024, I joined the Khosla lab and Cui lab as a joint postdoc. Outside the lab, I like cooking, playing basketball, and watching movies
-
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. -
Pavan Yadav
Postdoctoral Scholar, Chemistry
BioI am a Postdoctoral Researcher at Stanford University in the laboratory of Professor Paul A. Wender, where I work on the development of delivery technologies for RNA therapeutics, including mRNA, circular RNA (circRNA), and oligonucleotide-based medicines. My current research focuses on lipid nanoparticles (LNPs) and transporter-based systems for targeted nucleic acid delivery, with the goal of advancing the translation of genetic medicines.
I received my Ph.D. in Pharmaceutical Sciences from CSIR–Central Drug Research Institute (CSIR-CDRI), India. During my doctoral training, I specialized in nanomedicine, drug delivery, pharmacokinetics, and bioanalytical method development, with a particular focus on developing nanocarrier-based therapeutic strategies for cancer treatment. Prior to my Ph.D., I earned both my Bachelor of Pharmacy and Master of Pharmacy degrees from Mahatma Jyotiba Phule Rohilkhand University, India.
My research interests span RNA therapeutics, drug delivery, nanomedicine, lipid nanoparticle engineering, pharmacokinetics, and translational pharmaceutical sciences. I have experience in the design, formulation, and biological evaluation of diverse delivery systems, including lipid nanoparticles, liposomes, nanoemulsions, polymeric carriers, and other nanomaterial-based therapeutic platforms. My work integrates formulation science, biological evaluation, and preclinical studies to improve the delivery and performance of therapeutic agents.
I have authored more than 35 peer-reviewed publications in journals such as Nature Communications, ACS Applied Materials & Interfaces, International Journal of Pharmaceutics, Nanomedicine, and Bioanalysis. I am particularly interested in developing innovative delivery approaches that bridge fundamental research and clinical translation, with the ultimate goal of improving treatment options for patients.
