Paper 17 in this series discusses Fukui's research on pericyclic reactions following the publication of the first five Woodward-Hoffmann papers in 1965. Part III is a rather bold presentation of Fukui's chemistry of this era and may be more detailed than necessary for those readers specifically interested in the history of the development of the W−H rules. But an attempt is made to provide the context in which Fukui's FMO theory was developed and in which his orbital symmetry proposal was proposed. This paper cannot discuss every one of Fukui's papers and patents. Many of these emanated from the organic chemistry – polymer chemistry koza that he led during the latter years of that period. Of course, Fukui published hundreds of papers and secured many patents from 1944–1965. Paper 4, Part III presents Fukui's entire research endeavors up to 1965 in greater technical detail. Also discussed in Paper 4, Part II were the consequences of Fukui's research on Woodward and Hoffmann, in particular, and on chemistry, in general. 3 Fukui's step-by-step progress from his first paper on frontier molecular orbital theory in 1952 4 to his 1964 revelation 2 will be discussed in detail. Woodward and Roald Hoffmann, a “symmetry relation of wave functions” 2 of the Diels-Alder reaction, a prototypical example of a pericyclic cycloaddition. Paper 4, Part II focuses sharply on Fukui's route to his 1964 paper in which he proposed, before R. This paper presents the human side of Kenichi Fukui along with a brief overview of his professional life. The Sleeping Beauties: Luitzen Oosterhoff and Kenichi Fukui Paper 17, Part II: Responses to the Woodward-Hoffmann Rules. Fukui's Science and Technology, 1918-1965 Paper 4, Part III: Kenichi Fukui, Frontier Molecular Orbital Theory, and the Woodward-Hoffmann Rules. Paper 4, Part II: Kenichi Fukui, Frontier Molecular Orbital Theory, and the Woodward-Hoffmann Rules. from the University of Illinois at Urbana-Champaign in 2008 and a Bachelor’s degree from the University of Tokyo in 2001.Paper 4, Part I: Kenichi Fukui, Frontier Molecular Orbital Theory, and the Woodward-Hoffmann Rules. Louis, was a software engineer at Google, and a research associate at the University of Washington. Before joining Simon Fraser University, he was an Assistant Professor at Washington University St. He is on the editorial board of the top journal in computer vision (IJCV), and area chair multiple times at the two top conferences in the field (CVPR and ICCV). He won the Best Student Paper Award at ECCV 2012, Google Research Excellent Paper Award in 2012, Best Paper Award at 3DV 2013, NSF CAREER Award in 2015, and Google Faculty Research Award in 2016. The software has been used in numerous academic and industrial settings, including visual effect companies (e.g., Industrial Light and Magic and Weta digital) for real film production, and Google for Google Maps products. His work has resulted in successful patents and open source software. Representative work includes his highly accurate multi-view stereo algorithm (CVPR 2007), which bridged into award winning work on reconstruction of outdoor scenes and museums (ECCV 2012, CVPR 2014, ICCV 2015, Communications of the ACM 2011). His work bridges from highly accurate algorithms for core computer vision problems through to fundamental important new directions for the field. His papers have been cited more than 6,000 times, h-index of 25. His research covers a wide range of problems in 3D computer vision and he is considered an international authority in this field. Yasutaka is an Assistant Professor at Simon Fraser University. Yasutaka Furukawa Simon Fraser University
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