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William F. Kolbe
Researcher at Lawrence Berkeley National Laboratory
Publications - 75
Citations - 1769
William F. Kolbe is an academic researcher from Lawrence Berkeley National Laboratory. The author has contributed to research in topics: Weak gravitational lensing & Dark energy. The author has an hindex of 24, co-authored 74 publications receiving 1722 citations. Previous affiliations of William F. Kolbe include University of California & University of California, Berkeley.
Papers
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Journal ArticleDOI
An approach to rapid protein crystallization using nanodroplets
Bernard D. Santarsiero,Derek Yegian,Christian C. Lee,Glen Spraggon,J. Gu,D. Scheibe,D. C. Uber,Earl Cornell,Robert Nordmeyer,William F. Kolbe,Jian Jin,Arthur Jones,Joseph M. Jaklevic,Peter G. Schultz,Peter G. Schultz,Raymond C. Stevens,Raymond C. Stevens +16 more
TL;DR: In this article, an approach that enables up to a two order of magnitude reduction in the amount of protein required and a tenfold reduction in time required for vapor-diffusion protein crystallization is reported.
Patent
Methods and apparatus for performing array microcrystallizations
Bernard D. Santarsiero,Peter Schultz,Derek Yegian,Robert A. Nordmeyer,William F. Kolbe,Donald C. Uber,Raymond C. Stevens,Joseph M. Jaklevic,Earl W. Cornell,Jian Jin,Arthur L. Jones +10 more
TL;DR: An apparatus for setting up crystallization experiments comprises a mother liquor drop station that removes mother liquor from a plurality of wells of a multi well plate and delivers sub-microliter volumes of mother liquor to a multiplicity of different drop regions at the same time.
Journal ArticleDOI
Imaging of Single Extended DNA Molecules on Flat (Aminopropyl)triethoxysilane−Mica by Atomic Force Microscopy
Jiangtao Hu,M. Wang,H.U.G. Weier,Peter Frantz,William F. Kolbe,D. F. Ogletree,Miquel Salmeron +6 more
TL;DR: In this article, long strands of DNA have been deposited, extended, and immobilized on chemically modified mica for study with an atomic force microscope (AFM) by employing a modified molecular combing technique and carefully silanized mica.
Proceedings ArticleDOI
Overview of the SuperNova/Acceleration Probe (SNAP)
Greg Aldering,Carl W. Akerlof,Rahman Amanullah,Pierre Astier,E. Barrelet,Chris Bebek,Lars Bergström,J. Bercovitz,Gary Bernstein,Manfred Bester,Alain Bonissent,Charles R. Bower,William Carithers,Eugene D. Commins,C. Day,Susana E. Deustua,R. DiGennaro,Anne Ealet,Richard S. Ellis,M. Eriksson,Andrew S. Fruchter,J.F. Genat,Gerson Goldhaber,Ariel Goobar,Donald E. Groom,S. Harris,Peter Harvey,H. Heetderks,Steven E. Holland,Dragan Huterer,Armin Karcher,Alex G. Kim,William F. Kolbe,B. Krieger,R. Lafever,James C. Lamoreux,Michael Lampton,Michael Levi,Daniel Levin,Eric V. Linder,S. C. Loken,Roger F. Malina,Richard Massey,Timothy A. McKay,Shawn McKee,Ramon Miquel,E. Moertsell,Nick Mostek,S. Mufson,J. A. Musser,Peter Nugent,Hakeem M. Oluseyi,Reynald Pain,Nicholas P. Palaio,David H. Pankow,Saul Perlmutter,R. Pratt,Eric Prieto,Alexandre Refregier,Jason Rhodes,K. Robinson,Natalie A. Roe,Michael Sholl,Michael Schubnell,G. Smadja,George F. Smoot,A. L. Spadafora,Gregory Tarle,A. D. Tomasch,H. von der Lippe,D. Vincent,J.-P. Walder,Guobin Wang +72 more
TL;DR: The SuperNova / Acceleration Probe (SNAP) as mentioned in this paper is a space-based experiment to measure the expansion history of the universe and study both its dark energy and the dark matter.
Posted Content
Supernova / Acceleration Probe: A Satellite Experiment to Study the Nature of the Dark Energy
Greg Aldering,W. Althouse,Rahman Amanullah,J. Annis,Pierre Astier,C. Baltay,E. Barrelet,Stéphane Basa,Chris Bebek,Lars Bergström,Gary Bernstein,Manfred Bester,B. Bigelow,Roger Blandford,Ralph C. Bohlin,Alain Bonissent,C. R. Bower,Michael L. Brown,M. Campbell,William Carithers,Eugene D. Commins,William W. Craig,C. T. Day,F. DeJongh,Susana E. Deustua,T. Diehl,Scott Dodelson,Anne Ealet,Richard Ellis,W. Emmet,Dominique Fouchez,Josh Frieman,A. S. Fruchter,D. W. Gerdes,L. Gladney,G. Goldhaber,A. Goobar,D. E. Groom,H. Heetderks,M. Hoff,S. T. Holland,M.E. Huffer,L. Hui,Dragan Huterer,Bhuvnesh Jain,Patrick N. Jelinsky,Armin Karcher,Steve Kent,Steven E. Kahn,Alex G. Kim,William F. Kolbe,B. Krieger,G. Kushner,N. Kuznetsova,R. Lafever,J. I. Lamoureux,M. L. Lampton,O. Le Fevre,M. E. Levi,P. Limon,H. Lin,Eric V. Linder,S. C. Loken,Wolfgang Lorenzon,Roger F. Malina,J. P. Marriner,Philip J. Marshall,Richard Massey,Alain Mazure,Timothy A. McKay,Shawn McKee,Ramon Miquel,N. Morgan,Edvard Mörtsell,Nick Mostek,S. L. Mufson,J. A. Musser,Peter Nugent,Hakeem M. Oluseyi,R. Pain,N. Palaio,David H. Pankow,John Peoples,Saul Perlmutter,Eric Prieto,D. Rabinowitz,A. Refregier,Jason Rhodes,Natalie A. Roe,D. Rusin,V. Scarpine,Michael Schubnell,Michael Sholl,G. Smadja,Roger Smith,George F. Smoot,J. Snyder,A. L. Spadafora,Albert Stebbins,Christopher Stoughton,Andrew Szymkowiak,Gregory Tarle,Keith Taylor,Andre Tilquin,A. D. Tomasch,Douglas L. Tucker,D. Vincent,H. von der Lippe,J.-P. Walder,Guofeng Wang,W. C. Wester +110 more
TL;DR: The Supernova / Acceleration Probe (SNAP) as discussed by the authors is a space-based experiment designed to study the dark energy and alternative explanations of the acceleration of the Universe's expansion by performing a series of complementary systematics-controlled measurements.