adam cohen harvard cv

His lab has also studied fundamental aspects of chiral light-matter interactions, predicting theoretically and then demonstrating experimentally the existence of “superchiral” light. Here's some food for thought, just out in BioEssays. The Cohen Lab developed fluorescent voltage-indicating proteins which enable optical mapping of neural activity. Her work on the mechanics of stretchable materials that can undergo extreme deformations up to loss of stability, and on the mechanics of growth in both biology and engineering, exploits analogies with related fields. See their paper on Compressed Hadamard Imaging in J. Phys. You can help our author matching system! All to see how the hippocampus represents locomotion. http://www.fas.harvard.edu/~aecohen/ I am broadly interested in understanding physical and mathematical principles through which multicellular life is organized. Laboratory Manager/Administrator: Magdalena (Maggie) Kenar. He has received the Presidential Early Career Award for Scientists and Engineers and been selected by MIT Technology Review to the TR35 list of the world's top innovators under 35. On their first trip in June 2009, the two toured the nation, while in 2010 they conducted an intensive training program at the University of Liberia that combined science basics, classroom teaching, laboratory techniques, and independent research. [6] His current research includes single-molecule spectroscopy of microbial rhodopsins, the motion of bacteria in mucus, and new magneto-optical and chiroptical effects in organic molecules. Adam E. Cohen. This was a surprise to us--maybe to you too! Please send cover letter, CV, and names of three references to Adam, cohen@chemistry.harvard.edu. Harvard University, Cambridge, MA, United States. Compressed Hadamard Imaging in J. Phys. 12 Oxford Street Linlin's paper on an all-optical assay for synaptic transmission just came out in Nature Methods! As a physician executive and entrepreneur with interests in computational biology, genetics, and neuroscience, David has founded and led multiple technology-based health services companies. See also the video abstract: Yoav's epic project to develop optical electrophysiology in awake, behaving mice just came out in Nature! [1] and a NIH Director's New Innovator Award. Adam holds an A.B. Optically triggered action potential in a rat hippocampal neuron, mapped at 100,000 frames/s. Search this site: Humanities. email: cohen@chemistry.harvard.edu He is also an investigator with the Howard Hughes Medical Institute. Bravo, Linlin! Therefore, accurate and complete reporting of contributions and achievements in the CV is essential. [15], In 2014, he won the inaugural national Blavatnik National Award for Young Scientists, awarded by the Blavatnik Family Foundation and the New York Academy of Sciences to "celebrate America’s most innovative and promising faculty-rank scientists and engineers. This project has also shown that biophysical coupling can determine stability and chaos (arrhythmia) in pacemaker cells (Cell Systems, 2018), and that one can design bioelectrical circuits capable of basic information processing (Physical Review X, 2016). Cohen's research combines building physical tools to probe biological molecules, using nanofabrication, lasers, microfluidics, electronics and biochemistry to generate data. This first-of-its-kind technology uses genetically encoded fluorescent reporters to examine electrical activity in neurons. Come for the math, stay for the images! Technology Review Magazine named Adam one of the top 35 US technological innovators under the age of 35, Popular Science named him one of their “Brilliant Ten” top young scientists, and President Obama awarded him a Presidential Early Career Award for Scientists and Engineers. cohen@chemistry.harvard.edu Mallinckrodt M115 tel: (617) 496-9466 CV Kit developed a technique to record from > 20 fluorescent reporters simultaneously, monitoring how many different metabolites and signaling molecules respond to physiological perturbations. During my PhD research, I have pursued this interest by combining methods for manipulating biology with light (optogenetics) with techniques for engineering cells with designed properties (synthetic biology). He is the son of Joel E. Cohen, Abby Rockefeller Mauze Professor of Populations at Rockefeller University in New York. Data licensed for re-use with attribution to this site (CC-BY 3.0). Great collaboration with Olivier Pourquie and lab. David also co-founded and served in leadership roles at CareInsite (now WebMD), Correlagen Diagnostics (acquired by LabCorp), Generation Health (acquired by CVS/Caremark), and Claritas Genomics (now QnA Diagnostics). At Harvard, Adam and his lab have developed numerous tools to study biological molecules and cells, most notably Optopatch technology. If you notice any publications incorrectly attributed to this author, please http://cohenweb.rc.fas.harvard.edu/Publications/Publications.htm. These tools have opened the door to all-optical electrophysiology and to large-scale mapping of brain activity. D. Using one-photon illumination, they achieved high-speed optically sectioned imaging in tissue. Professor of Chemistry and Chemical Biology and of PhysicsHoward He served as co-president of Trump Entertainment and was a board member of the Eric Trump … We're looking for undergraduates, grad students, and postdocs with interest in any of three areas: Come develop and use amazing tools to study bioelectrical signaling, membrane mechanics, and other exotic phenomena in biophysics. Powerful new tool, out in Nature Communications. Affiliations: Chemistry and Chemical Biology. His current research focuses on using stem cell technologies to better understand nervous system disorders such as amyotrophic lateral sclerosis (ALS) and schizophrenia, with the aim of developing new therapeutics. Cohen completed a postdoctoral fellowship in chemistry at Stanford University in 2007. (. I hope that these methods will uncovered physical principles through which cell types are patterned in organs and tissues. I am also part of the Harvard-MIT Division of Health Sciences and Technology, where I am studying physiology and bioengineering through the HST MEMP program. MOSAIC: Multiplexed optical sensors in arrayed islands of cells (8/2020) in chemistry and physics from Harvard, a Ph.D. in experimental biophysics from Stanford, and a Ph.D. in theoretical physics from the University of Cambridge. He attended Hunter College Elementary School[3] and Hunter College High School, a gifted magnet school in New York City. Professor of Chemistry and Chemical Biology and of Physics, Copyright © 2020 The President and Fellows of Harvard College, Department of Chemistry and Chemical Biology. CV revisions due to COVID 19 Congratulations to Zheng for winning at the FASEB conference on Molecular Biophysics of Membranes. Check out the paper in Cell. Come develop and use amazing tools to study bioelectrical signaling, membrane mechanics, and other exotic phenomena in biophysics. ADAM L. COHEN Dallas, Texas OVERALL ACHIEVEMENT SUMMARY Highly innovative executive, entrepreneur, engineer, and professor with 28 years of technology and senior management experience spanning 3-D printing, medical devices, mechanical engineering, complex capital equipment, and business development and marketing of breakthrough products Voltage imaging of spikes and subthreshold events reveal interesting hippocampal dynamics associated with locomotion. Is someone missing from the tree? (Trapping and manipulating single molecules in solution), Werley CA, Boccardo S, Rigamonti A, et al. He showed that even in a very simple excitable cell type, the spiking dynamics are sensitive to the overall tissue geometry through long-range electrotonic coupling. Previously, I was a George J. Mitchell Scholar at Trinity College Dublin (MSc Bioengineering), and a Gates Scholar at Cambridge University (MPhil Nanotechnology). Adam has received Young Investigator Awards from the Office of Naval Research, the Dreyfus Foundation, the Sloan Foundation, and many other organizations. ), http://www2.lsdiv.harvard.edu/labs/cohen/AEC_CV.pdf Copyright © 2020 The President and Fellows of Harvard College. Cambridge, MA 02138, tel: (617) 496-8233 He has received the Presidential Early Career Award for Scientists and Engineers and been selected by MIT Technology Review to the TR35 list of the world's top innovators under 35. At Harvard, Adam and his lab have developed numerous tools to study biological molecules and cells, most notably Optopatch technology. http://cohenweb.rc.fas.harvard.edu/AEC_CV.pdf We study information processing in the brains of awake, behaving mice and zebrafish. His lab develops new physical tools to study molecules and cells. Cohen was born in 1979 in New York City, N.Y. "[11], In 2012 Popular Science named Cohen one of the "Brilliant 10: the 10 most promising young scientists working today." http://cohenweb.rc.fas.harvard.edu/index.htm Added by: jandh (2012-09-30 10:29:01) - The Optopatch technology is commercially licensed exclusively to Q-State, where it is used to characterize cellular models of nervous system disorders. Bio. Great team effort! He is also an investigator with the Howard Hughes Medical Institute. [9] He was also inducted into the National Gallery for America’s Young Inventors for the same invention in 1998. Harvard University, Making molecules motionless", "Student Inventor from New York City Wins $40,000 Scholarship In 56th Westinghouse Science Talent Search", YOUNG MISTER WIZARD WESTINGHOUSE PRIZE FOR MANHATTAN TEEN, "2007 YOUNG INNOVATORS UNDER 35, Adam Cohen, 28. We work at the levels of individual molecules, single cells, and whole, genetically modified, organisms. Log in to add people & connections, or click here to create an account. Cohen holds PhD degrees from Cambridge (UK) in theoretical physics and from Stanford in experimental biophysics. The Broad faculty consists of Institute Members, Associate Members and Affiliate Members. Kevin received a B.S. Therefore, accurate and complete reporting of contributions and achievements in the CV is essential. email: kenar@chemistry.harvard.edu, lateral inhibition in sensory processing cortical Layer 1. Great collaboration with Anne Takesian and Ed Boyden labs. Moerner. http://www.genealogy.math.ndsu.nodak.edu/id.php?id=116215 Be still, my beating heart! Check out the paper in Nature Physics. D. geometry-dependent transition between regular spiking and arrhythmia, all-optical assay for synaptic transmission, Protein engineering, biochemistry, and synthesis. Adam Ezra Cohen is Professor of Chemistry and Chemistry Biology and of Physics at Harvard University. Sami and Vicente combined Hadamard microscopy with a new blue-shifted channelrhodopsin and a red-shifted, nuclear-localized Ca++ indicator for ultrawide-field all-optical neurophysiology in brain slices. He did his clinical training at Brigham and Women’s Hospital and was a clinical and research fellow in cardiology at Beth Israel Hospital for five years. Kevin Eggan is a professor in the department of Stem Cell and Regenerative Biology at Harvard and Director of the Stem Cell program at the Broad Institute’s Stanley Center. Adam Ezra Cohen is a Professor of Chemistry, Chemical Biology, and Physics at Harvard University. The CV, along with letters from internal and external referees and examples of scholarly work, provides the major evidence used during the evaluation of candidates for promotion. Zheng's paper is on the bioRxiv! I am also part of the Harvard-MIT Division of Health Sciences and Technology, where I am studying physiology and bioengineering through the HST MEMP program. Adam Cohen works at the interface of physics, chemistry and biology. I am a PhD candidate in Physics at Harvard, where I am mentored by Adam Cohen. I am broadly interested in understanding physical and mathematical principles through which multicellular life is organized. Its only purpose is for us to contact you about your account. Harry discovered that homogeneous tissues can spontaneously break spatial symmetry to form bioelectrical domain walls. He received a Ph.D. in theoretical physics from Cambridge University, where he was a Marshall Scholar, in 2003,[5] and a Ph.D. in experimental physics from Stanford in 2006 with W.E.