Oki Michinori | Department Of Chemistry Faculty Of Science Okawama University Of Science
スポンサーリンク
概要
- OKI Michinoriの詳細を見る
- 同名の論文著者
- Department Of Chemistry Faculty Of Science Okawama University Of Scienceの論文著者
関連著者
-
Oki Michinori
Department Of Chemistry Faculty Of Science Okawama University Of Science
-
Toyota Shinji
Department Of Chemistry Faculty Of Science Okawama University Of Science
-
Toyota Shinji
Department Of Chemistry Faculty Of Science Okayama University Of Science
-
Oki Michinori
Department of Chemistry, Faculty of Science, Okayama University of Science
-
Toyota S
Okayama Univ. Sci. Okayama Jpn
-
TOYOTA Shinji
Department of Chemistry, Faculty of Science, Okayama University of Science
-
Yamamoto Gaku
Department Of Chemistry Faculty Of Science The University Of Tokyo
-
Oki Michinori
Department Of Chemistry Faculty Of Science Okayama University
-
Oki Michinori
Department Of Chemistry Faculty Of Science Okayam University Of Science
-
Nakamura Nobuo
Department Of Cardiology Seiyu Memorial Hospital
-
大木 道則
岡山理科大学
-
Nakamura Mikio
Department Of Anatomy Jikei-kai School Of Medicine
-
ASAKURA Mitsuhiro
Department of Chemistry, Faculty of Science, Okayama University of Science
-
Oki Michinori
Department Of Chemistry Faculty Of Science Okayama University Of Science
-
Aki M
Okayama Univ. Sci. Okayama
-
Asakura Mitsuhiro
Department Of Chemistry Faculty Of Science Okayama University Of Science
-
IKEDA Hiroshi
Department of Neurosurgery, Japanese Red Cross Nagoya Daiichi Hospital
-
HIROSE Takanori
Department of Pathology, School of Medicine, The University of Tokushima
-
Hirose Takanori
Department Of Chemistry Faculty Of Science Okayama University Of Science
-
池田 博
Department Of Bioengineering Graduate School Of Bioscience And Biotechnology Tokyo Institute Of Tech
-
KOJIMA Hiroharu
Department of Chemistry, Faculty of Science, Okayama University of Science
-
Iwamura Hiizu
Department Of Chemistry Faculty Of Science The University Of Tokyo
-
Kojima Hiroharu
Department Of Chemistry Faculty Of Science Okayama University Of Science
-
Ikeda Hiroshi
Department Of Applied Chemistry Graduate School Of Engineering Osaka Prefecture University
-
Kataoka Y
Hosei Univ. Tokyo
-
YAMAMOTO Gaku
Department of Chemistry, School of Science, Kitasato University
-
Yamamoto G
Kitasato Univ. Kanagawa
-
Gaku Yamamoto
Department Of Chemistry School Of Science Kitasato University
-
KATAOKA Yasukazu
Department of Chemistry, Faculty of Science, Okayama University of Science
-
MORITA Nobuhiro
Department of Chemistry, Faculty of Science, Okayama University of Science
-
Kikuchi Hiromi
Department Of Applied Chemistry Graduate School Of Engineering Tohoku University
-
Tanaka Y
Department Of Materials Science And Engineering Teikyo University
-
Murata Shigeru
Department Of Basic Science Graduate School Of Arts And Sciences The University Of Tokyo
-
Tanaka Y
Department Of Polymer Chemistry Graduate School Of Engineering Kyoto University
-
Morita Nobuhiro
Department Of Chemistry Faculty Of Science Okayama University
-
Kataoka Y
Department Of Materials Chemistry College Of Engineering Hosei University
-
Tanaka Toshimasa
Department Of Applied Chemistry Faculty Of Engineering Gifu University
-
Saito Ryo
Department Of Bioscience And Bioinformatics Faculty Of Computer Science And Systems Engineering Kyus
-
Kobayashi Keiji
Department Of Chemistry College Of Arts And Sciences The University Of Tokyo
-
Sakamoto Kazuhiko
Department Of Applied Chemistry Faculty Of Engineering Saitama Universtiy
-
Tanaka Yasuhiro
Department Of Advance Materials Science Faculty Of Engineering Kagawa University
-
Tanaka Yasuhiro
Department Of Digestive And Life-style Related Diseases Kagoshima University Graduate School Of Medi
-
Matsuda Y
Department Of Chemistry Faculty Of Science Okayama University Of Science
-
Matsuda Yohei
Department Of Chemistry Faculty Of Science Okayama University Of Science
-
Tanaka Yasuhiro
Department Of Cardiovascular Medicine Tokyo Medical And Dental University
-
Murakami T
Graduate School Of Engineering Toin University Of Yokohama
-
Murakami Takurou
Graduate School Of Material Science Toin University Of Yokohama
-
MIYASAKA Tsutomu
Graduate School of Engineering, Toin University of Yokohama
-
Tanaka T
Department Of Chemistry Faculty Of Science The University Of Tokyo
-
Miyasaka T
Graduate School Of Engineering Toin University Of Yokohama
-
Miyasaka T
Department Of Chemistry Faculty Of Science Okayama University Of Science
-
Miyasaka T
Fuji Photo Film Co. Ltd. Minamiashigara Jpn
-
MIYASAKA Tsutomu
Department of Biomedical Engineering Toin University
-
Tanaka Toshimasa
Department Of Chemistry Faculty Of Science The University Of Tokyo
-
TAGUCHI Yasushi
Department of Medicine, Tokai University School of Medicine
-
Yoshida Satoshi
Department of Drug Metabolism and Disposition, Graduate School of Pharmaceutical Sciences, Nagoya Ci
-
AKI Michihiko
Department of Chemistry, Faculty of Science, Okayama University of Science
-
Miyasaka Tsutomu
Department Of Chemistry Faculty Of Science Okayama University Of Science
-
Akashi H
Research Institute Of Natural Sciences Okayama University Of Science
-
Aki Michihiko
Department Of Chemistry Faculty Of Science Okayama University
-
Miyasaka T
Toin Univ. Yokohama Yokohama Jpn
-
Taguchi Yasushi
Department Of Medicine Tokai University School Of Medicine
-
Yoshida S
Institute Of Industrial Science The University Of Tokyo
-
Yamamori Takao
Department Of Chemistry Faculty Of Science Okayama University
-
Tanaka T
Kwansei‐gakuin Univ. Nishinomiya
-
Mishima Hirohito
Department Of Chemistry Faculty Of Science Okayama University Of Science
-
Yonemoto Katsumi
Department Of Chemistry Faculty Of Science The University Of Tokyo
-
Ikeda Hiroshi
Department Of Gastroenterology & Hepatology Okayama University Graduate School Of Medicine Denti
-
Sugawara Tadashi
Department Of Basic Science Graduate School Of Arts & Sciences The University Of Tokyo
-
Suzuki Masahiko
Department Of Applied Chemistry Faculty Of Science Science University Of Tokyo
-
Suzuki Fumio
Departent Of Materials Science And Engineering Faculty Of Engineering Yamagata University
-
Yoshida Satoshi
Department Of Bimolecular Science Faculty Of Engineering Gifu University
-
Tanaka Yoshiyuki
Department Of Biology Faculty Of Science Kobe University
-
IGARASHI Yuko
Department of Cardiology, Tokyo Medical University
-
Tamura Toshihiro
Department of Cardiovascular Medicine, Kyoto University Hospital
-
OHNO Atsuyoshi
Institute for Chemical Research, Kyoto University
-
Tamura Toshihiro
Department Of Cardiology Tenri Hospital
-
Kawai Y
Institute For Chemical Research Kyoto University
-
Kawai Yasushi
Institute For Chemical Research Kyoto University
-
Nagaoka Satoshi
Department of Applied Life Science, Faculty of Applied Biological Sciences, Gifu University
-
SAKURAI Makoto
Department of Chemical Engineering, Tokyo University of Agriculture and Technology
-
NAKAMURA Nobuo
Department of Cardiovascular Medicine, Wakayama Medical University
-
Matsuo T
Kyushu Univ. Fukuoka
-
Igarashi Yuko
Department Of Chemistry Faculty Of Science Okayama University Of Science
-
Kodama Kazuya
Department Of Informatics The Graduate University Of Advanced Studies:national Institute Of Informat
-
Kodama Kazuya
Department Of Chemistry Faculty Of Science Okayama University Of Science
-
Yamasaki Mikio
Department Of Chemistry Faculty Of Science Okayama University Of Science
-
Nakamura Nobuo
Department Of Cardiovascular Medicine Wakayama Medical University
-
Ohno Atsuyoshi
Institute For Chemical Research Kyoto Univ.
-
AKASHI Haruo
Research Institute of Natural Sciences, Okayama University of Science
-
NAKANISHI Hiroshi
National Chemical Laboratory for Industry
-
Tamura Toshihiro
Department Of Chemistry Faculty Of Science University Of Tokyo
-
Ohno A
Institute For Chemical Research Kyoto University
-
SHIBAHARA Takashi
Department of Chemistry, Okayama University of Science
-
AKASHI Haruo
Natural Science Research Institute, Okayama University of Science
-
KANEKO Kei
Department of Chemistry, Faculty of Science, Okayama University of Science
-
HIDAKA Tsutomu
Department of Chemistry, Faculty of Science, Okayama University of Science
-
OZAKI Hirotaka
Department of Chemistry, Faculty of Science, Okayama University of Science
-
ISHIGURO Tomoyo
Department of Chemistry, Faculty of Science, The University of Tokyo
-
OGATA Taisuke
Department of Chemistry, Faculty of Science, Okayama University of Science
-
MATSUO Takashi
Institute for Chemical Research, Kyoto University
-
MAEDA Kiyoka
Department of Chemistry, Faculty of Science, Okayama University of Science
-
YANAGAWA Maki
Department of Chemistry, Faculty of Science, Okayama University of Science
-
KOJIMA Hiroharu
DDepartment of Chemistry, Faculty of Science, Okayama University of Science
-
NOSE Emiko
Department of Chemistry, Faculty of Science, Okayama University of Science
-
ONO Masaru
Department of Chemistry, Faculty of Science, Okayama University of Science
-
Ono M
Shimane Univ. Matsue
-
MINATO Ichiro
Department of Chemistry, Faculty of Science, Okayama University of Science
-
NOBUOKA Koji
Department of Chemistry, Faculty of Science, Okayama University of Science
-
FUKADA Norihiro
Department of Chemistry, Faculty of Science, Okayama University of Science
-
KITNO Mika
Department of Chemistry, Faculty of Science, Okayama University of Science
-
YONEMOTO Katsumi
Department of Chemistry, Faculty of Science, The University of Tokyo
-
YAMAMOTO Yasunori
Department of Gastroenterology, Ehime Prefectural Central Hospital
-
TODA Fumio
Department of Applied Chemistry, Ehime University
-
KAWAGUCHI Daisuke
Department of Applied Chemistry, Faculty of Engineering, Gunma University
-
YAMAMORI Takao
Department of Chemistry, Faculty of Science, Okayama University
-
YASUTOMI Akihiro
Department of Chemistry, Faculty of Science, Okayama University of Science
-
Atsuyoshi Ohno
Institute For Chemical Research Kyoto University
-
Fukuda T
Kyushu Univ. Fukuoka
-
Yamamoto Yasunori
Department Of Gastroenterology Ehime Prefectural Central Hospital
-
Toda F
Ehime Univ. Ehime
-
Toda Fumio
Department Of Applied Chemistry Faculty Of Engineering Ehime University
-
Toda Fumio
Department Of Chemistry Faculty Of Science Okayama University Of Science
-
Toda Fumio
Department Of Industrial Chemistry Faculty Of Engineering Ehime University
-
Kitano M
Univ. Osaka Prefecture Osaka
-
Nose Emiko
Department Of Chemistry Faculty Of Science Okayama University Of Science
-
Kaneko Kei
Department Of Chemistry Faculty Of Science Okayama University Of Science
-
Nobuoka Koji
Department Of Chemistry Faculty Of Science Okayama University Of Science
-
Maeda Kiyoka
Department Of Chemistry Faculty Of Science Okayama University Of Science
-
Akashi Haruo
Research Institute Of Natural Sciences Okayama University Of Science
-
Aoki Masahiro
Department of Cell Biology, National Institute for Basic Biology
-
Ogata Taisuke
Department Of Chemistry Faculty Of Science Okayama University Of Science
-
Minato Ichiro
Department Of Chemistry Faculty Of Science Okayama University Of Science
-
Oki Michinori
Department Of Chemistry Faculty Of Science The University Of Tokyo
-
Yanagawa Maki
Department Of Chemistry Faculty Of Science Okayama University Of Science
-
Hidaka T
Miyazaki Univ. Miyazaki
-
Ozaki Hirotaka
Department Of Applied Chemistry Nagoya Institute Of Technology
-
Ozaki Hirotaka
Department Of Chemistry Faculty Of Science Okayama University Of Science
-
Sakurai Makoto
Department Of Cardiovascular Surgery Osaka Medical Center For Cancer And Cardiovascular Diseases
-
Wakamatsu Kan
Department Of Chemistry Faculty Of Science Okayama University Of Science
-
MIYAKE Hiromichi
Department of Applied Biological Sciences, Saga University
-
Nagaoka Satoshi
Department Of Chemistry Faculty Of Science Ehime University
-
WATANABE Yoichi
Department of Internal Medicine, Kobe West Municipal Hospital
-
MISHIMA Hirohito
Department of Chemistry, Faculty of Science, Okayama University of Science
-
ENDO Masahiko
Department of Biochemistry, School of Medicine, Hirosaki University
-
FUJINO Ichiro
Department of Chemistry, Faculty of Science, Okayama University
-
CHUDA Kazumasa
Department of Chemistry, Faculty of Science, Okayama University
-
MORITAKA Yoko
Department of Chemistry, Faculty of Science, Okayama University
-
TSUDA Shingo
Department of Chemistry, Faculty of Science, Okayama University
-
AKINAGA Tadashi
Department of Chemistry, Faculty of Science, Okayama University
-
Taguchi Y
Okayama Univ. Sci. Okayama
-
Tsuda Shingo
Department Of Chemistry Faculty Of Science Okayama University
-
Fujino Ichiro
Department Of Chemistry Faculty Of Science Okayama University
-
Moritaka Yoko
Department Of Chemistry Faculty Of Science Okayama University
-
Chuda Kazumasa
Department Of Chemistry Faculty Of Science Okayama University
-
Akinaga Tadashi
Department Of Chemistry Faculty Of Science Okayama University
-
Ishiguro Tomoyo
Department Of Chemistry Faculty Of Science The University Of Tokyo
-
Makino Toshiaki
Department Of Kampo Medicinal Science Hokkaido College Of Pharmacy
-
Shibahara Takashi
Department Of Chemistry Faculty Of Science Okayama University Of Science
-
Kawaguchi Daisuke
Depertment Of Mechanical Engineering Waseda University
-
Kawaguchi Daisuke
Department Of Applied Chemistry Faculty Of Engineering Gunma University
-
Takano Sho
Department Of Chemistry Faculty Of Science Okayama University Of Science
-
NODA Yoshiyuki
Department of Chemistry, Faculty of Science, Okayama University of Science
-
Fukada Norihiro
Department Of Chemistry Faculty Of Science Okayama University Of Science
-
Yoshida Hiroyuki
Department Of Chemical Engineering College Of Engineering Osaka Prefecture University
-
Yoshida Hiroyuki
Department Of Chemistry Faculty Of Science Okayama University Of Science
-
Nagaoka Satoshi
Department Of Applied Life Science Faculty Of Applied Biological Sciences Gifu University
-
Noda Yoshiyuki
Department Of Chemistry Faculty Of Science Okayama University Of Science
-
Yasutomi Akihiro
Department Of Chemistry Faculty Of Science Okayama University Of Science
-
Miyake Hiromichi
Department Of Applied Biological Sciences Saga University
-
Oki Michinori
Department Of Chemistry Faculty Of Science Okayama University Of Science Ridaicho
-
Watanabe Yoichi
Department Of Applied Biological Science Science University Of Tokyo
-
Makino Toshiaki
Department Of Chemistry Faculty Of Science Okayam University Of Science
-
Yamamoto Yasunori
Department Of Chemistry Faculty Of Science Okayama University
-
Tamura Toshihiro
Department Of Cardiology Kyoto University School Of Medicine
-
MATSUSAKA Michio
Department of Chemistry, Faculty of Science, Okayama University of Science
-
YOYOTA Shinji
Department of Chemistry, Faculty of Science, Okayama University of Science, Ridaicho
-
NISHINO Masahiro
Department of Chemistry, Faculty of Science, Okayama University of Science
-
KAIEDA Kazuihiro
Department of Chemistry, Faculty of Science, Okayama University of Science
-
NAKASHIMA Takafumi
Department of Chemistry, Faculty of Science, Okayama University of Science
-
FUKUDA Taizo
Department of Chemistry, Faculty of Science, Okayama University of Science
-
Kaieda Kazuihiro
Department Of Chemistry Faculty Of Science Okayama University Of Science
-
Nakashima Takafumi
Department Of Chemistry Faculty Of Science Okayama University Of Science
-
Nishino Masahiro
Department Of Chemistry Faculty Of Science Okayama University Of Science
-
Sakurai Makoto
Department Of Applied Chemistry College Of Engineering Chubu University
-
Sakurai Makoto
Department Of Chemistry Faculty Of Science Okayama University
-
Otsuka Soichi
Department Of Applied Chemistry Faculty Of Engineering Saitama Universtiy
-
Yoyota Shinji
Department Of Chemistry Faculty Of Science Okayama University Of Science Ridaicho
-
Suzuki Yoshio
Department Of Chemical Science & Technology Faculty Of Engineering Kyushu University
-
Shimizu Atsushi
Department Of Chemistry College Of Science And Engineering Aoyama Gakuin University
-
Tanuma Toshihiro
Asahi Glass Research Center
-
TAKAU Akinori
Department of Chemistry, Faculty of Science, Okayama University of Science
-
HITAKA Yo
Department of Chemistry, Faculty of Science, Okayama University of Science
-
Hitaka Yo
Department Of Chemistry Faculty Of Science Okayama University Of Science
-
Takau Akinori
Department Of Chemistry Faculty Of Science Okayama University Of Science
-
Watanabe Yoichi
Department Of Chemistry Faculty Of Science Okayama University Of Science
-
Nakamura Nobuo
Department Of Chemistry Faculty Of Science The University Of Tokyo
-
Sato Shoichi
Institute For Solid State Physics The University Of Tokyo
-
Endo Masahiko
Department Of Biochemistry School Of Medicine Hirosaki University
-
Endo Masahiko
Department Of Chemistry Faculty Of Science Okayama University Of Science
著作論文
- Reaction of 2-(Alkylthiomethyl)phenyllithium with Copper(I) Halides and Structure and Properties of One of the Products -Copper(I) Complexes of 2,2'-Bis(alkylthiomethyl)biphenyl^
- Catenation of 2,2'-Bis(ethylthiomethyl)biphenyl with Copper(I) Bromide
- Reactivitie of Stable Rotamers. XLII. Generation and Fates of Rotameric [1-(9-Fluorenyl)-2-naphthyl]methyl Radicals
- Reactivities of Stable Rotamers. XLI. Reactions of 1-(9-Fluorenyl)-2-(1-methylethenyl)naphthalene Rotamers with Chalcogenyl Halides and Observation of Coloration During the Reaction of Methanesulfenyl Chloride and the ap-Rotamer
- Reactions of ap- and sp- 1-(9-Fluorenyl)-2-(1-methylethenyl)naphthalene Rotamers with Bromine Chloride or Iodine Chloride and Unusual Populations of the Corresponding 1-(9-Fluorenyl)-2-[(E)-2-halo-1-methylethenyl]naphthalene Rotamers^
- Reactivities of Stable Rotamers. XXXVIII. Reaction of Chlorine with 1-(9-Fluorenyl)-2-(1-methylethenyl)naphthalene Rotamers : Outstanding Solvent Effects on Product Distribution and Ritter Type Reactions in Acetonitrile^
- Reactivities of Stable Rotamers. XLIII. Diazotization of 2-Methyl-2-(1,2,3,4-tetrachloro- and 1,4-dimethoxy-9-triptycyl)propylamine Rotamers^
- Reactivities of Stable Rotamers. XXXV. Diazotization of 2-(1,4-Dimethyl-9-triptycyl)-2-methyl-Propylamine Rotamers
- Absolute Conformation and Chiroptical Properties. VII. 9(1')-Msc and Psc Forms of 9-(2-Fluoro-1,1-dimethylethyl)-and 9-(1,1-Dimethylpropyl)-11,12-bis(methoxycarbonyl)-9,10-dihydro-9,10-ethenoanthracenes
- Structural and Stereochemical Studies of Tris[2-(trifluoromethyl)phenyl]borane: Spontaneous Resolution, Stereodynamics, and Intramolecular C-F【triple bond】B Interactions
- Rotational Isomerism Involving an Acetylenic Carbon: Synthesis of and Barrier to Rotation around C(sp)-C(sp^3) Bonds in Bis(1,4-disubstituted 9-triptycyl)ethynes
- Absolute Conformation and Chiroptical Properties. VI. 2,2',3,3'-Tetramethoxy-9,9'-bitriptycyl : A Stereochemical Analog of 1,2-Disubstituted Ethane with Identical Substituents^
- A Report From the Steering Group of the Special Project Research on Science Education
- Dimensiosolvatic Effects. VI. Rates of Ionization of 2-Fluoro-4, 4, 5, 5-tetramethyl-1, 3-dioxolane : Dimensiosolvatic vs. Hydrogen-Bond Effects
- Dimensiosolvatic Effects. IV. Topomerization in Alkyl α-Chlorobenzyl Ethers and Insights into Mechanisms of Their Thermolyses^
- Dimensiosolvatic Effects. III. Quantification of Dimensiosolvatic Effects by Solvolyses of 2-Bromoadamantane in Water-Alcohol Mixtures^
- Effects of Solvent Molecular Size on Rates of Topomerization in Organolithium Compounds
- Reactivities of Stable Rotamers. XXXIX. Thermal Decomposition of t-Butyl 3-Methyl-3-(substituted 9-triptycyl)peroxybutanoate Rotamers^
- Absolute Conformation of Methyl 3-(1,4-Dimethoxy- and 1,4-dimethyl-9-triptycyl)-3-methylbutanoate Rotamers
- How Do Ethane-Type Molecules Avoid Eclipsing When Forced as Such? The Case of 7, 8, 9, 10-Tetrachloro-1, 1-dimethyl-1, 2, 6, 10b-tetrahydro-6, 10b-o-benzenoaceanthrylene
- School Systems and Chemical Education in Japan
- University Chemical Education in Japan : Its General Background
- Rotational Isomerism Involving an Acetylenic Carbon II : Effect of 1-Halogen Substituents on Rotamer Population and Rotational Barrier around C(sp)-C(sp^3) Bonds in Bis(9-triptycyl)ethynes^1
- Synthesis and Structure of 1,4-Dimethoxy and 1,4-Dimethyl-9-(trifluoromethyl)triptycenes
- Benzene-Ethene Interactions as Studied by ab initio Calculations
- Effects of Solvent Molecular Size on Dissociation Rates of the N-H Bond in Ammonium Salts Derived from Tertiary Amines
- Reactivities of Stable Rotamers XXXVII : Thermolyses and Photolyses of 2(1H)-Thioxo-1-pyridyl 3-(1, 4-Dimethyl-9-triptycyl)-3-methylbutanoate Rotamers^
- Mechanism of Sulfur Inversion in Sulfide Complexes of Gold(I) and Gold(III)
- Restricted Rotation Involving the Tetrahedral Carbon. LXIV. Barriers to Rotation of s-Alkyl Groups in 9-s-Alkyl-8,13-difluoro-1,4-dimethyl-and 1,2,3,4-tetrachloro-triptycenes
- Restricted Rotation Involving the Tetrahedral Carbon. LXIII. Endeavor toward Enhancing the Rotational Barrier in 9-s-Alkyltriptycenes^
- Enantiomeric Resolution and Absolute Stereochemistry of Stable Rotamers of Dimethyl 6,6'-Dimethyl-9,9'-bitriptycyl-2,2'-dicarboxylate as a Stereochemical Analog of (R^*,R^*)- and (R,S)-Tartaric Acids
- Literacy in Science and Technology
- Social Goals and Science Education in Japan
- Environmental Problems in General
- Reactivities of stable rotamers. XXII. Lewis acid-catalyzed reactions of 3-(1,4-disubstituted 9-triptycyl)-3-methylbutanoyl chloride. Isolation of rotameric ketones and competition between cyclizations to substituted and to unsubstituted benzene rings.
- Dynamic NMR as a nondestructive method for the determination of rates of dissociation. V. Proton affinities of p-substituted N,N-dibenzylanilines in aprotic solvents.
- Restricted Rotation Involving the Tetrahedral Carbon. XIV. Conformational Equilibria and Attractive Interactions in Substituted 9-Benzyltriptycenes
- Restricted Rotation Involving the Tetrahedral Carbon. XI. Barriers to Rotation and Conformational Preferences of Substituted 9-Isopropyltriptycenes
- Restricted rotation involving the tetrahedral carbon. XLII. Barriers to rotation and populations of rotamers in 9-(2-(substituted methyl)-1-napthyl)fluorenes.
- Reactivities of stable rotamers. XI. Rotamer distributions and some addition reactions to the carbonyl in 9-(2-(substituted carbonyl)-1-naphthyl)fluorene rotamers.
- Reactivities of stable rotamers. X. Reactions of 9-(2-formyl-1-naphthyl)fluorene rotamers and related compounds.
- Dynamic NMR as a nondestructive method for the determination of rates of dissociation. III. Ionic dissociation of .ALPHA.-chlorodibenzyl sulfide.
- Reaction of trans-Stilbene with Methanesulfenyl Chloride
- Reactivities of stable rotamers. VI. Manifestation of differential reactivities of the methyls in a t-butyl group in radical halogenations.
- Restricted rotation involving the tetrahedral carbon. XLIII. Buttressing effect on rotational barriers in bromine-substituted 9-(2-methoxy-4,6-dimethylphenyl)fluorenes.
- Anomeric Effect Involving Carboxyl and Ethynyl Group in Sulfur-Containing Heterocycles
- 2-Chloro-1,3,5-trithiane and 2-chloro-1,3-dithiane. Their ionic dissociation and reactions with nucleophiles.
- Direct measurement of the rates of ionic dissociation by dynamic NMR technique. Dissociation of .ALPHA.-chlorodibenzyl sulfides.
- Dynamic NMR as a nondestructive method for the determination of rates of dissociation. XII. Dissociation of the olefin in trans-dichloro(4-methyl-1-pentene)(4-substituted pyridine 1-oxide)platinum(II) complexes.
- Rotamer populations and molecular structure of 9-isobutyl-1,4-dimethoxytriptvcene: Further evidence for the presence of CH3...O hydrogen bond.
- Dynamic NMR as a Nondestructive Method for the Determination of Rates of Dissociation. XVIII. Factors Affecting the Rates of Dissociation of N-B Bond in the Coordinated Form of 9-(2-(Dialkylaminomethyl)-phenyl)-9-borabicyclo(3.3.1)nonanes.
- Dynamic NMR as a nondestructive method for the determination of rates of dissociation. XVII. Dissociation of the N-B bond in the coordinated form of 2-(2-(dimethylaminomethyl)phenyl)-4,4-diphenyl-1,3,2-dioxaborolane and related compounds.
- Reactivities of stable rotamers. XII. Reactions of 9-(2-bromomethyl-6-methylphenyl)fluorene rotamers with nucleophiles.
- Restricted rotation involving the tetrahedral carbon. XXXIX. 9-(2-Methoxy-1-methylethyl)triptycene derivatives.
- Reactivities of stable rotamers. IX. Ionizing reactions of 9-(2-bromomethyl-6-methylphenyl)fluorene rotamers.
- Anomeric Effect in Sulfur Heterocycles Carrying Sulfur Substituents
- Effects of para-Substituents on the Rates of Inversion of Biphenyl Derivatives. I. 5,7-Dihydrodibenzo[c,e]thiepins
- Substituent Effect on the Anomeric Effect in 1,3,5-Trithiane Derivatives
- Dynamic NMR as a nondestructive method for the determination of rates of dissociation. XIII. Sulfur inversion in 9,9-dialkyl-10-mesitylthioxanthenium salts.
- Sulfur inversion in and molecular structure of meso-3,4-diethyl-3,4-dimethyl-1-phenylthiolanium tetrafluoroborate.
- Restricted rotation involving the tetrahedral carbon. LIX Stereodynamics of singly peri-substituted 9-(3,5-dimethylphenoxy)triptycene derivatives.
- The Reaction of Sulfenyl Chlorides with Thioethers. III. The Configuration and the Isomerization of cis- and trans-α-Methylthio-β-phenylthiostyrenes
- Implications of X-ray crystallographic results of 1,2,3,4-tetrachloro-9-(2-oxopropyl)triptycene rotamers.
- Reactivities of stable rotamers. XIV. Reaction of 9-(2-(substituted methyl)-6-methylphenyl)fluorene rotamers with butyllithium.
- Dynamic NMR as a nondestructive method for the determination of rates of dissociation. IX. Rates of dissociative reactions of the coordinated form of (o-(diethylaminomethyl)phenyl)halodimethyl(or diphenyl)stannanes.
- Restricted rotation involving the tetrahedral carbon. LII. Rotational barriers in 1,2,3,4-tetrafluoro- and 1,4-dimethoxy-9-(1-cyano-1-methylethyl)triptycenes.
- Reactivities of stable rotamers. VIII. Difference in reactivities of 1,2,3,4-tetrachloro-9-(2-halo-1,1-dimethylethyl)triptycene rotamers in Lewis acid-catalyzed reactions.
- Restricted Rotation Involving the Tetrahedral Carbon. I. Some Diels-Alder Adducts Derived from 9-Substituted Anthracenes
- Nuclear Magnetic Resonance Study of the Effect of the Hydrogen Bond on the Internal Rotation of Biphenyls
- Reactivities of stable rotamers. XXV. Deprotonation at the 9-position of 9-(2-substituted 1-naphthyl)fluorene rotamers with butyllithium.
- Restricted rotation involving the tetrahedral carbon. LV. Differential effects of the peri-substituents on the rotational barriers in 9-ethyl-,9-allyl-, and 9-benzyltriptycenes.
- Dynamic NMR as a nondestructive method for determination of rates of dissociation. XV. Dissociation of thioether and ether ligands in tin(IV) and boron complexes and significance of entropy of activation therein.
- Attractive interactions between carbonyls and groups bearing lone-pair electrons in triptycene systems.
- Restricted rotation involving the tetrahedral carbon. L. Rotamer distributions and rotational barriers in some 9-(1-methoxyethyl)triptycene derivatives.
- CH3...O Hydrogen bond. Implications of its presence from the substituent effects on the populations of rotamers in 4-substituted 9-ethyl-l-methoxytriptycenes and 9-(substituted phenoxymethyl)-1,4-dimethyltriptycenes.
- Reactivities of stable rotamers. XIX Basicities of rotameric 9-[2-(dialkylaminomethyl)-6-methylphenyl]fluorenes and solvent effects on them.
- Restricted rotation involving the tetrahedral carbon. XXXIII. Restricted rotation about a Csp3-Csp2 bond in 10,10-disubstituted 9-(2,6-xylyl)-9,10-dihydroanthracene derivatives.
- Restricted rotation involving the tetrahedral carbon. XXXIV. Stable rotamers of 9-arylfluorenes carrying oxygen-substituents in the ortho position of the aryl group.
- The Reaction of Sulfenyl Chlorides with Thioethers. II. Kinetic Studies
- Reactivities of stable rotamers. XXVI. Some bimolecular elimination reactions of 9-(2-substituted 1-naphthyl)fluorene rotamers.
- Reactivities of stable rotamers. XXIII. Some addition reactions toward the vinyl group in 9-(2-vinyl-1-naphthyl)-fluorene rotamers.
- Reactivities of stable rotamers. XVIII Reactions of 9-[2-(1-hydroxyethyl)-1-naphthyl]fluorene rotamers with sulfuric acid and thionyl chloride.
- Restricted Rotation Involving the Tetrahedral Carbon. II. 2-Substituted 4,6,8-Trimethylazulenes
- The Reaction of α-Carbonyl Sulfides with Bases. I. The Reaction between α-Carbonyl Sulfides with Thiolates
- Hetera-p-carbophanes. IV. The Effect of Rigidity on the Chemical Shifts of Protons in Ansa Chains and Barriers to Rotation of Dioxadioxo[n]paracyclophanes
- Reactivities of stable rotamers. II. Lithiation of 9-(2-methyl-1-naphthyl)-fluorene and related compounds.
- Restricted rotation involving the tetrahedral carbon. XLIV. Atropisomers of 2,3-dichloro-9-(1-hydroxy-1-methylethyl)-triptycene and related compounds.
- Reactivities of stable rotamers. XXIV. Formation of isomeric ketones by cyclization of rotameric 3-methyl-3-(1,2,3,4-tetrahalo-9-triptycyl)butanoyl chloride and barriers to isomerization of the ketones.
- Hetera-p-carbophane. VIII. The change in binding sites of NMR shift reagents in polyoxadioxo[n]paracyclophanes and their open-chain analogs.
- Restricted rotation involving the tetrahedral carbon. XXXI. Barriers to rotation in 2,3-dichloro-9-(1-cyano or 1-methoxycarbonyl-1-methylethyl)triptycenes.
- Determination of Conformations of Esters with the Use of Lanthanide Shift Reagents