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William J. Romanow
Researcher at Discovery Institute
Publications - 46
Citations - 4296
William J. Romanow is an academic researcher from Discovery Institute. The author has contributed to research in topics: Gene & Fullerene. The author has an hindex of 24, co-authored 43 publications receiving 3772 citations. Previous affiliations of William J. Romanow include University of Pennsylvania & Monell Chemical Senses Center.
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Journal ArticleDOI
Orientational ordering transition in solid C60.
Paul A. Heiney,John E. Fischer,Andrew R. McGhie,William J. Romanow,A. Denenstein,John P. McCauley,Amos B. Smith,David E. Cox +7 more
TL;DR: In this article, a first-order phase transition from a low-temperature simple-cubic structure with a four-molecule basis to a face-centered-cUBIC structure at 249 K was shown.
Journal ArticleDOI
Structure and bonding in alkali-metal-doped c60
Otto Zhou,John E. Fischer,N. Coustel,Stefan Kycia,Qing Zhu,Andrew R. McGhie,William J. Romanow,John P. McCauley,Amos B. Smith,David E. Cox +9 more
TL;DR: In this article, X-ray diffraction studies of the structure and bonding in alkali-metal-doped solid C60 (fullerite) have been conducted and it has been shown that the face-centred cubic lattice of pure C60 transforms to body-centered cubic at these doping levels, with a saturation composition close to M6C60.
Journal ArticleDOI
Compressibility of Solid C60
John E. Fischer,Paul A. Heiney,Andrew R. McGhie,William J. Romanow,A. Denenstein,John P. McCauley,Amos B. Smith +6 more
TL;DR: Room-temperature powder x-ray diffraction profiles have been obtained at hydrostatic pressures P = 0 and 1.2 gigapascals on the solid phase of cubic C60 ("fullerite") and the linear compressibility is the same as the interlayer compressibility of hexagonal graphite, consistent with van der Waals intermolecular bonding.
Journal ArticleDOI
Comparative cellular analysis of motor cortex in human, marmoset and mouse
Trygve E. Bakken,Nikolas L. Jorstad,Qiwen Hu,Blue B. Lake,Wei Tian,Brian E. Kalmbach,Brian E. Kalmbach,Megan Crow,Rebecca D. Hodge,Fenna M. Krienen,Staci A. Sorensen,Jeroen Eggermont,Zizhen Yao,Brian D. Aevermann,Andrew Aldridge,Anna Bartlett,Darren Bertagnolli,Tamara Casper,Rosa Castanon,Kirsten Crichton,Tanya L. Daigle,Rachel A. Dalley,Nick Dee,Nikolai C. Dembrow,Nikolai C. Dembrow,Dinh Diep,Songlin Ding,Weixiu Dong,Rongxin Fang,Stephan Fischer,Melissa Goldman,Jeff Goldy,Lucas T. Graybuck,Brian R. Herb,Xiaomeng Hou,Jayaram Kancherla,Matthew Kroll,Kanan Lathia,Baldur van Lew,Yang Eric Li,Yang Eric Li,Christine S. Liu,Christine S. Liu,Hanqing Liu,Jacinta Lucero,Anup Mahurkar,Delissa McMillen,Jeremy A. Miller,Marmar Moussa,Joseph R. Nery,Philip R. Nicovich,Sheng-Yong Niu,Sheng-Yong Niu,Joshua Orvis,Julia K. Osteen,Scott F. Owen,C. Palmer,C. Palmer,Thanh Pham,Nongluk Plongthongkum,Olivier Poirion,Nora Reed,Christine Rimorin,Angeline Rivkin,William J. Romanow,Adriana E. Sedeno-Cortes,Kimberly Siletti,Saroja Somasundaram,Josef Sulc,Michael Tieu,Amy Torkelson,Herman Tung,Xinxin Wang,Fangming Xie,Anna Marie Yanny,Renee Zhang,Seth A. Ament,M. Margarita Behrens,Héctor Corrada Bravo,Jerold Chun,Alexander Dobin,Jesse Gillis,Ronna Hertzano,Patrick R. Hof,Thomas Höllt,Gregory D. Horwitz,C. Dirk Keene,Peter V. Kharchenko,Andrew L. Ko,Andrew L. Ko,Boudewijn P. F. Lelieveldt,Boudewijn P. F. Lelieveldt,Chongyuan Luo,Eran A. Mukamel,Antonio Pinto-Duarte,Sebastian Preissl,Aviv Regev,Bing Ren,Bing Ren,Richard H. Scheuermann,Richard H. Scheuermann,Richard H. Scheuermann,Kimberly A. Smith,William J. Spain,William J. Spain,Owen White,Christof Koch,Michael Hawrylycz,Bosiljka Tasic,Evan Z. Macosko,Steven A. McCarroll,Steven A. McCarroll,Jonathan T. Ting,Jonathan T. Ting,Hongkui Zeng,Kun Zhang,Guoping Feng,Guoping Feng,Guoping Feng,Joseph R. Ecker,Sten Linnarsson,Ed S. Lein +121 more
TL;DR: The primary motor cortex (M1) is essential for voluntary fine-motor control and is functionally conserved across mammals using high-throughput transcriptomic and epigenomic profiling of more than 450k single nuclei in humans, marmoset monkeys and mice as mentioned in this paper.
Journal ArticleDOI
Orientational disorder in solvent-free solid c70.
Gavin Vaughan,Paul A. Heiey,David E. Luzzi,Deborah A. Ricketts-Foot,Andrew R. McGhie,John E. Fischer,Yiu-Wing Hui,Allan L. Smith,David E. Cox,William J. Romanow,Brent H. Allen,Nnicole Coustel,John P. McCauley,Amos B. Smith +13 more
TL;DR: The high-temperature structure of solvent-free C70 has been determined with high-resolution x-ray powder difraction and electron microscopy, and the cubic phase contains an appreciable density of stacking faults along the [111] direction.