Chemistry Research Summaries. Volume 6

$295.00

Lucille Monaco Cacioppo (Editor)

Series: Chemistry Research Summaries
BISAC: SCI013000

This book is a compilation of research summaries from a number of different focuses in the field of chemistry research. (Imprint: Nova)

Table of Contents

Table of Contents

Preface

Chapter 1 – The Photochemistry of Novel Electron-Transfer Three-Component Visible Light Photoinitiating Systems (pp. 1-2)
Janina Kabatc

Chapter 2 – Photoreactions of Benzophenone in Solid Media: Recent Developments and Applications (pp. 3-4)
Mihaela Avadanei

Chapter 3 – Photo-Chemical Methods as an Alternative Methodology in the Deposition of Materials with Chemical Sensor Properties and Photo-Luminescent Characteristic (pp. 5-6)
Gerardo G. Cabello, Luis A. Lillo, Claudia Caro, G.E. Buono-Core and Marisol Tejos

Chapter 4 – Photolabile Molecules as Light-Activated Switches to Control Biomolecular and Biomaterial Properties (pp. 7-8)
Catherine A. Goubko, Nan Cheng, and Xudong Cao

Chapter 5 – Photosystem at High Temperature: Mechanisms of Adaptation and Damage (pp. 9-10)
Yasuo Yamauchi and Yukihiro Kimura

Chapter 6 – The Little-Known Wavelength Effect in Provitamin D Photochemistry: The Ambiguous Role of the Weak Irreversible Channel (pp. 11-12)
Irina Terenetskaya

Chapter 7 – Exploring Organic Photochemistry with Computational Methods: An Introduction (pp. 13-14)
Diego Sampedro

Chapter 8 – Recent Progress in Chirality Research Using Circularly Polarized Light (pp. 15-16)
Tsubasa Fukue

Chapter 9 – Photoinduced Transformation Processes in Surface Waters (pp. 17-18)
Davide Vione, Claudio Minero, Valter Maurino, Romeo-Iulian Olariu, Cecilia Arsene and Khan M. G. Mostofa

Chapter 10 – Photochemical Processes in Needles of Overwintering Evergreen Conifers (pp. 19-20)
Piotr Robakowski

Chapter 11 – Theories in PAM Chlorophyll Fluorescence Measurement of Plant Leaves (pp. 21-22)
Ichiro Kasajima, Maki Kawai-Yamada and Hirofumi Uchimiya

Chapter 12 – Carbon Blacks in Electrochemical Energy Conversion Devices: Uses and Applications in Fuel Cells (pp. 23-24)
Paloma Ferreira-Aparicio

Chapter 13 – Study and Application of Carbon Black Vulcan XC-72R in Polymeric Electrolyte Fuel Cells (pp. 25-26)
M. J. Lázaro, L. Calvillo, V. Celorrio, J. I. Pardo, S. Perathoner and R. Moliner

Chapter 14 – A Review of Current Analytical Applications Employing Graphitized Carbon Black (pp. 27-28)
Christine M. Karbiwnyk and Keith E. Miller

Chapter 15 – Intermolecular and Intramolecular Interaction at Adsorption on the Surface of Graphitized Thermal Carbon Black (pp. 29-30)
V. V. Varfolomeeva and A. V. Terent’ev

Chapter 16 – Heat Transfer and Growth of Primary Black Carbon Particles in Gas Mixture (pp. 31-32)
Y. A. Baranyshyn, S. P. Fisenko and O. G. Penyazkov

Chapter 17 – What Does Carbon Nanomaterial Cause in Human Health? (pp. 33-34)
Masakazu Umezawa and Ken Takeda

Chapter 18 – Effect of Carbon Black Fillers on the Tribological Properties of PTFE (pp. 35-36)
Yoshinori Takeichi

Chapter 19 – The Role of Carbon Black in the Rheology of Rubber Compounds: Dynamic Properties, Nonlinear Behavior and Modeling (pp. 37-38)
Fabio Bacchelli and Salvatore Coppola

Chapter 20 – Carbon Blacks for Energy Storage and Conversion (pp. 39-40)
Gui-xin Wang and Kang-ping Yan

Chapter 21 – Carbon Black Treated in Low Pressure Plasma: A New Class of Granular Adsorbents for Acid and Basic Compounds (pp. 41-42)
Nicoletta De Vietro

Chapter 22 – Production, Properties and Applications of Carbon Blacks in Rechargeable Lithium-Ion Batteries (pp. 43-44)
B. Jin

Chapter 23 – Plant Secondary Metabolites in Animal Feeds (pp. 45-46)
A. Z. M. Salem, R. Rojo, D. Cardoso, O. D. Montañez, and L. M. Camacho

Chapter 24 – Browse Tree Leaves in Sheep and Goats Nutrition (pp. 47-48)
A. Z. M. Salem, L. M. Camacho, D. Cardoso, O. D. Montañez, B. Cruz and S. Rojas

Chapter 25 – Tannins and Ruminal Fermentation Activities (pp. 48-50)
M. A. Cerrillo-Soto, A. S. Juárez-Reyes and R. Rojo

Chapter 26 – Inulin-Type Fructans, Potential Prebiotics for Companion Animals and Livestock (pp. 51-52)
J. M. Pinos-Rodríguez and A. Z. M. Salem

Chapter 27 – Plants Rich-Phytochemicals in Rabbits Feeding (pp. 53-54)
A. Z. M. Salem, D. Cardoso, L. M. Camacho, O. D. Montañez, B. Cruz and J. Olivares

Chapter 28 – Phytochemical Characterization of Acacia farnesiana Pods in Diets with Different Levels of Inclusion (pp. 55-56)
J. A. Velazquez-Avendaño, M. González-Ronquillo, M. Soto-Hernández, R. Perezgrovas-Garza, J. Borquez-Gastelum, I. A. Domínguez-Vara and J. Romero-Bernal

Chapter 29 – Biocide Effects of Chrysactinia mexicana A. Gray (pp. 57-58)
N. C. Cárdenas-Ortega, B. I. Juárez-Flores, J. M. Pinos-Rodríguez and J. R. Aguirre-Rivera

Chapter 30 – Methods of Browses Condensed Tannins Determination (pp. 59-60)
R. Rojo, A. Z. M. Salem and M. A. Cerrillo-Soto

Chapter 31 – Biosolubilization of Lignin by Ruminal Microbes (pp. 61-62)
A. Z. M. Salem, L. M. Camacho, D. Cardoso, O. D. Montañez, B. Cruz and M. Cipriano

Chapter 32 – Solid Superacids (pp. 63-64)
Kazushi Arata and Hiromi Matsuhashi

Chapter 33 – Solid-Acid Catalysis and Their Applications in Green Synthesis of Fine Chemicals (pp. 65-66)
Zhongkui Zhao, Ronghua Jin and Guiru Wang

Chapter 34 – Activation of Heterogeneous Nanocatalysts by Solar Light: Principles, Synthesis and Applications (pp. 67-68)
Juan Carlos Colmenares Quintero

Chapter 35 – Catalytic and Kinetic Applications of Ruthenium Complexes (pp. 69-70)
Praveen Kumar Tandon and Arti Gupta

Chapter 36 – New Approaches to Design of Nanostructured Catalysts (pp. 71-72)
T. N. Rostovshchikova, E. S. Lokteva, S. A. Nikolaev, E. V. Golubina, S. A. Gurevich, V. M. Kozhevin, D. A. Yavsin and V. V. Lunin

Chapter 37 – Advanced Oxidation Processes via Catalysis (pp. 73-74)
Ernő E. Kiss, Andjelka V. Tomašević and Goran C. Boskovic

Chapter 38 – Catalytic Technologies for Diesel Engines Exhaust Gas Cleaning (pp. 75-76)
M. J. Lázaro, M. E. Gálvez, A. Boyano, S. Ascaso, I. Suelves, R. Moliner, I. Pieta, C. Herrera, M. A. Larrubia and L. J. Alemany

Chapter 39 – Peroxidases and Redox Mediators in Dye Catalysis and Detoxification of Industrial Effluents (pp. 77-78)
Farrukh Jamal and M. Y. Khan

Chapter 40 – Multi-Site Phase Transfer Catalysis: Synthesis, Chemistry and Applications (pp. 79-80)
P. A. Vivekanand and Maw-Ling Wang

Chapter 41 – Pressure Driven Membrane Processes: Modeling and Analysis (pp. 81-82)
Sergey P. Agashichev

Chapter 42 – Environmental Applications of Activated Carbon and Carbon Nanotubes (pp. 83-84)
A. R. Khataee, S. Aber, M. Zarei and M. Sheydaei

Chapter 43 – Catalytic Ozonation of Organics with Loaded Activated Carbon (pp. 85-86)
Luo Hanjin and Rao Yifei

Chapter 44 – Surface Chemistry of Activated Carbons (pp. 87-88)
Sónia A. C. Carabineiro, M. Fernando R. Pereira, José J. M. Órfão and José L. Figueiredo

Chapter 45 – Activated Carbons As Catalyst Supports (pp. 89-90)
M. E. Gálvez, S. Ascaso, A. Boyano, R. Moliner and M. J. Lázaro

Chapter 46 – Conventional and Non-Conventional Thermal Processing for the Production of Activated Carbons from Agro-Industrial Wastes (pp. 91-92)
Leandro S. Oliveira and Adriana S. Franca

Chapter 47 – Activated Carbons: Classifications, Properties and Applications (pp. 93-94)
John U. Kennedy Oubagaranadin and Z. V. P. Murthy

Chapter 48 – Carbon Nanofibers: Synthesis, Types, Properties and Chemical Activation (pp. 95-96)
Vicente Jiménez, Paula Sánchez, Mª Luz Sánchez, Antonio Nieto-Márquez, José Luís Valverde and Amaya Romero

Chapter 49 – Activated Carbon As a Metal Oxide Support: A Review (pp. 97-98)
A. Barroso-Bogeat, C. Fernández-González, M. Alexandre-Franco and V. Gómez-Serrano

Chapter 50 – Using “Activated Carbon from Bagasse” for Color Removal (pp. 99-100)
Paitip Thiravetyan and Parinda Suksabye

Chapter 51 – Use of Activated Carbon As Pre-Separation Agent in NAA of Selenium, Cobalt and Iodine (pp. 101-102)
M. Navarrete and T. Martínez

Chapter 52 – Virtual Porous Carbon (VPC) Models: Application in the Study of Fundamental Activated Carbon Properties by Molecular Simulations (pp. 103-104)
Artur P. Terzyk , Sylwester Furmaniak, Piotr A. Gauden, Peter J. F. Harris, Radosław P. Wesołowski and Piotr Kowalczyk

Chapter 53 – Activated Carbonaceous Materials Based on Thermosetting Binder Precursors (pp. 105-106)
J. Simitzis and Z. Ioannou

Chapter 54 – Platinum Catalysts on Activated Carbon Supports Prepared from Mononuclear and Polynuclear Precursors: Influence of Porous Structure of the Support (pp. 107-108)
L. B. Okhlopkova and S. Yu. Troitskii

Chapter 55 – Planting Soybean in Cd-, Cu-, or Zn-Contaminated Soils to Assess Its Feasibility in Further Producing Biodiesel (pp. 109-110)
Hung-Yu Lai, Bo-Ching Chen, Hsuen-Li Chen, Chih-Jen Lu and Zueng-Sang Chen

Chapter 56 – Adsorptive Removal of Residual Sulfur Compounds in Commercial Fuel Oil by Means of Biomass-Derived Activated Carbons (pp. 111-112)
Seiji Kumagai

Chapter 57 – Combination of Ozone and Activated Carbon for Water and Wastewater Treatment (pp. 113-116)
F. J. Beltrán and P. M. Álvarez

Chapter 58 – Strategies for Optimizing the Development of Cellulose-Based Activated Carbon Cloths by the Chemical Activation Process (pp. 117-118)
M. E. Ramos, P. R. Bonelli and A. L. Cukierman

Chapter 59 – Self Assembled Ordered Mesoporous Carbon: Synthesis, Characterization and Applications (pp. 119-120)
Dipendu Saha and Shuguang Deng

Chapter 60 – Modern Nanochemistry (pp. 121-122)
A.K. Haghi and G.E. Zaikov

Chapter 61 – Preparative Chemistry of Cobalt Silica Gel Catalyst for Fischer-Tropsch Synthesis (pp. 123-124)
Hui Ming

Chapter 62 – Cobalt Compounds Based Catalysts for the Stereospecific Polymerization of Olefins, Cycloolefins and Conjugated Diolefins (pp. 125-126)
Giovanni Ricci, Giuseppe Leone, Aldo Boglia, Francesco Masi and Anna Sommazzi

Chapter 63 – Cobalt, a Controversial but Efficient Metal Catalyst in the Solvolytic Hydrogen Generation from Sodium Borohydride and Ammonia Borane (pp. 127-128)
R. Chamoun, S. Cavaliere, J. Hannauer, O. Akdim, U. B. Demirci, and P. Miele

Chapter 64 – Magnetic Properties of Co-Based Metallic Glasses (pp. 129-130)
J. Jaworski, E. Dryzek and E. Fleury

Chapter 65 – HRTEM Studies of Cobalt-Filled Nanotubes Formed in the High Isostatic Pressure Apparatus (pp. 131-132)
V. D. Blank, B. A. Kulnitskiy, I. A. Perezhogin, Yu. S. Buranova, E. V. Polyakov, Yu. L. Alshevskiy, and D. V. Batov

Chapter 66 – Transport Properties and Their Impact on Biological Systems (pp. 133-134)
Ana C. F. Ribeiro, Victor M. M. Lobo, Artur J. M. Valente, Ana M. T. D. P. V. Cabral, Francisco J. B. Veiga, Sónia I. G. Fangaia, Pedro M. G. Nicolau, Fernando A. D. R. A. Guerra and Miguel A. Esteso

Chapter 67 – Cobalt Oxide, Co3O4, As a Catalyst for Environmental Applications (pp. 135-136)
Tomas García, Ana. M. Dejoz, Begoña Puértolas and Benjamin E. Solsona

Chapter 68 – Polarized Electronic Spectra of Organic/Inorganic Hybrid Materials of Extended Chiral Schiff Base Ni(II), Cu(II), and Zn(II) Complexes with Azobenzene and Simulation for a Co(II) Complex (pp. 137-138)
Takashiro Akitsu, Tomoaki Hiratsuka, Yoshikazu Aritake, Atsuo Yamazaki, and Shinji Matsuoka

Chapter 69 – The Role of Cobalt in Carbon Nanotube Synthesis (pp. 139-140)
Gilbert D. Nessim and Matteo Seita

Chapter 70 – Cobalt Exchanged Supported 12-Tungstophosphoric Acid and 12-Tungstosilicic Acid: Synthesis, Physicochemical Characterization and Catalytic Activity (pp. 141-142)
Anjali Patel

Chapter 71 – Synthesis and Characterization of Layered Sodium Cobaltates (pp. 143-144)
Chia-Jyi Liu

Chapter 72 – The Role of the Support on the Properties of Cobalt Catalysts for Fischer Tropsch Synthesis (pp. 145-146)
Maria do Carmo Rangel

Chapter 73 – Various Synthesis Methods for the Preparation of Well-Crystalline and Monodisperse Cobalt Ferrite Nanocrystals (pp. 147-148)
ChinHua Chia, Sarani Zakaria, PoiSim Khiew, WeeSiong Chiu and Mustaffa Hj Abdullah

Chapter 74 – Lanthanum Doped Cobalt Nano Ferrites: Dielectric, Electric and Magnetic Properties (pp. 149-150)
Pawan Kumar, Jagdish Chand and Anil Thakur

Chapter 75 – The Biological Application of Cobalt (pp. 151-152)
Yin Xiao and Jones Yuen

Chapter 76 – Geometrical and Electronic Structure of Molecule Vitamin “C” by Method MNDO (pp. 153-154)
V. A. Babkin, D. S. Andreev and E. S. Titova

Chapter 77 – Geometrical and Electronic Structure of Molecule Benzilpenicillin by Method Ab Initio (155-156)
V. A. Babkin, V. Yu. Dmitriev and G. E. Zaikov

Chapter 78 – Geometrical and Electronic Structure of Molecule Vitamin “A” by Method MNDO (Nobel Prize 1937, Paul Karrer) (pp. 157-158)
V. A. Babkin, D. S. Andreev, E. S. Titova and G. E. Zaikov

Chapter 79 – Geometrical and Electronic Structure of Molecules Nematic, Smectic, Holesteric Liquid Crystal by Method MNDO (pp. 159-160)
V. A. Babkin and D. S. Andreev

Chapter 80 – Geometrical and Electronic Structure of Molecule Cholesterol Benzoate by Method MNDO (pp. 161-162)
V. A. Babkin, V. Yu. Dmitriev, D. S. Andreev and G. E. Zaikov

Chapter 81 – Geometrical and Electronic Structure of Molecule Cellulose by Method Ab Initio (pp. 163-164)
V. A. Babkin and А. В. Tsykanov

Chapter 82 – Quantum-chemical Analysis of Reactivity of S- and О-Anions, Generated from 6-methyl-2-thio-, 2-alkyl(aralkyl)thiouracils (pp. 165-166)
A. I. Rahimov, E. S. Titova, R. G. Fedunov, V. A. Babkin and G. E. Zaikov

Chapter 83 – S- and O-anions, Generated from 6-Methyl-2-thio-, 2- thioalkyl(aralkyl)uracils, in Synthesis of S-Mono- and S-,О-Diderivations (pp. 167-168)
A. I. Rahimov, E. S. Titova, R. G. Fedunov and V. A. Babkin

Chapter 84 – Quantum Chemical Research of Mechanism Synthesis of 2-Methylsulfanil-4-оxymethyl Pyrimidine (pp. 169-170)
V. A. Babkin, R. G. Fedunov, A. I. Rahimov and E. S. Titova

Chapter 85 – Parameters of Burning Rocket Fuels in Dioxifluoride (pp. 171-172)
V. A. Babkin, A. V. Tsykanov, R. G. Fedunov, G. E. Zaikov and G. S. Lomakin

Chapter 86 – Geometrical and Electronic Structure of Molecule Aniline by Method Ab Initio (pp. 173-174)
V. A. Babkin, V. Yu. Dmitriev and G. E. Zaikov

Chapter 87 – Geometrical and Electronic of the Structure of Monoaminocarboxylic (pp. 175-176)
V. A. Babkin, A. V. Tsykanov, G. E. Zaikov, О. P. Вuzinova and А. I. Rakhimov

Chapter 88 – Geometrical and Electronic Structure of Molecule Butene-1 by Method Ab Initio (pp. 177-178)
V. A. Babkin, V. Yu. Dmitriev and G. E. Zaikov

Chapter 89 – Geometrical and Electronic Structure of Molecule Butene-2 by Method Ab Initio (pp. 179-180)
V. A. Babkin, V. Yu. Dmitriev and G. E. Zaikov

Chapter 90 – Geometrical and Electronic Structure of Molecule Butene-1 by Method MNDO (pp. 181-182)
V. A. Babkin, V. Yu. Dmitriev and G. E. Zaikov

Chapter 91 – Geometrical and Electronic Structure of Molecule Butene-2 by Method MNDO (pp. 183-184)
V. A. Babkin, V. Yu. Dmitriev and G. E. Zaikov

Chapter 92 – Geometrical and Electronic Structure of Molecule 3,3-Dimethylbutene-1 by Method Ab Initio (pp. 185-186)
V. A. Babkin and V. V. Galenkin

Chapter 93 – Geometrical and Electronic Structure of Molecule 3,3-Dimethylbutene-1 by Method MNDO (pp. 187-188)
V. A. Babkin and V. V. Galenkin

Chapter 94 – Geometrical and Electronic Structure of Molecule 4,4-Dimethylpentene-1 by Method Ab Initio (pp. 189-190)
V. A. Babkin and D. S. Andreev

Chapter 95 – Geometrical and Electronic Structure of Molecule 4-Methylhexene-1 by Method Ab Initio (pp. 191-192)
V. A. Babkin and D. S. Andreev

Chapter 96 – Geometrical and Electronic Structure of Molecule 4-Methylpentene-1 by Method Ab Initio (pp. 193-194)
V. A. Babkin and D. S. Andreev

Chapter 97 – Geometrical and Electronic Structure of Molecule Isobutylene by Method Ab Initio (pp. 195-196)
V. A. Babkin and D. S. Andreev

Chapter 98 – Geometrical and Electronic Structure of Molecule 2-Methylbutene-1 by Method Ab Initio (pp. 197-198)
V. A. Babkin and D. S. Andreev

Chapter 99 – Geometrical and Electronic Structure of Molecule Isobutylene by Method MNDO (pp. 199-200)
V. A. Babkin and D. S. Andreev

Chapter 100 – Geometrical and Electronic Structure of Molecule 2-Methylbutene-1 by Method MNDO (pp. 201-202)
V. A. Babkin and D. S. Andreev

Chapter 101 – Geometrical and Electronic Structure of Molecule Butadiene-1,3 by Method Ab Initio (pp. 203-204)
V. A. Babkin and D. S. Andreev

Chapter 102 – Geometrical and Electronic Structure of Molecule 2- Methylbutadiene-1,3 by Method Ab Initio (pp. 205-206)
V. A. Babkin and D. S. Andreev

Chapter 103 – Geometrical and Electronic Structure of Molecule 2,3- Dimethylbutadiene-1,3 by Method Ab Initio (pp. 207-208)
V. A. Babkin and D. S. Andreev

Chapter 104 – Geometrical and Electronic Structure of Molecule Pentadiene-1,3 by Method Ab Initio (pp. 209-210)
V. A. Babkin and D. S. Andreev

Chapter 105 – Geometrical and Electronic Structure of Molecule Butadiene-1,3 by Method MNDO (pp. 211-212)
V. A. Babkin and D. S. Andreev

Chapter 106 – Geometrical and Electronic Structure of Molecule 2- Methylbutadiene-1,3 by Method MNDO (pp. 213-214)
V. A. Babkin and D. S. Andreev

Chapter 107 – Geometrical and Electronic Structure of Molecule 2,3- Dimethylbutadiene-1,3 by Method MNDO (pp. 215-216)
V. A. Babkin and D. S. Andreev

Chapter 108 – Geometrical and Electronic Structure of Molecule Some Styrenes by Method MNDO (pp. 217-218)
V. A. Babkin and V. S. Peredunov

Chapter 109 – Geometrical and Electronic Structure of Molecules Some Styrenes by Method MNDO (pp. 219-220)
V. A. Babkin and E. A. Sekachev

Chapter 110 – Geometrical and Electronic Structure of Molecule Some Styrenes by Method MNDO (pp. 221-222)
V. A. Babkin and K. S. Medvedeva

Chapter 111 – Geometrical and Electronic Structure of Molecule 4,5,6,7- Tetramethylindene by Method Ab Initio (pp. 223-224)
V. A. Babkin and D. S. Andreev

Chapter 112 – Geometrical and Electronic Structure of Molecule Brombutylindene by Method MNDO (pp. 225-226)
V. A. Babkin and I. N. Kozlov

Chapter 113 – Geometrical and Electronic Structure of Molecule Exo- Dicyclopentadiene by Method Ab Initio (pp. 227-228)
V. A. Babkin and D. S. Andreev

Chapter 114 – Geometrical and Electronic Structure of Molecule Endo- Dicyclopentadiene by Method Ab Initio (pp. 229-230)
V. A. Babkin and D. S. Andreev

Chapter 115 – Geometrical and Electronic Structure of Molecule 9,10-Dihydroendo- dicyclopentadiene by Method Ab Initio (pp. 231-232)
V. A. Babkin and D. S. Andreev

Chapter 116 – Geometrical and Electronic Structure of Molecule 1,2-Dihydroendo- dicyclopentadiene by Method Ab Initio (pp. 233-234)
V. A. Babkin and D. S. Andreev

Chapter 117 – Geometrical and Electronic Structure of Molecule 1,2- Dimethylcyclopropane by Method Ab Initio (pp. 235-236)
V. A. Babkin, D. S. Andreev and E. S. Titova

Chapter 118 – Geometrical and Electronic Structure of Molecule 1,1-Dimethylcyclopropane by Method Ab Initio (pp. 237-238)
V. A. Babkin, D. S. Andreev and E. S. Titova

Chapter 119 – Re-Interpretation of Fluidization (pp. 239-240)
Xianfeng Fan and Zhufang Yang

Chapter 120 – The Catalytic Combustion of Soot (pp. 241-242)
Jian Liu, Zhen Zhao and Chunming Xu

Chapter 121 – Catalytic Combustion over Cheaper Metal Oxides (pp. 243-244)
Thallada Vinodkumar and Benjaram M. Reddy

Chapter 122 – Catalytic Combustion: Kinetics and Reactor Design (pp. 245-246)
Ilenia Rossetti and Lucio Forni

Chapter 123 – Catalytic Combustion of Methane over Ceria-Zirconia Catalysts (pp. 247-248)
S. A. Larrondo and M. G. Zimicz

Chapter 124 – Geometrical and Electronic Structure of Molecule Vitamin “B2” by Method MNDO (Nobel Prize 1937, Paul Karrer) (pp. 249-250)
V. A. Babkin, D. S. Andreev, E. S. Titova and G. E. Zaikov

Chapter 125 – Geometrical and Electronic Structure of Molecule Vitamin “E” by Method MNDO (Nobel Prize 1937, Paul Karrer) (pp. 251-252)
V. A. Babkin, D. S. Andreev, V. Yu. Dmitriev, E. S. Titova and G. E. Zaikov

Chapter 126 – Geometrical and Electronic Structure of Molecule Cyclohexane by Method Ab Initio (Оdd Hassel, Nobel Prize 1969 year) (pp. 253-254)
V. A. Babkin, V. Yu. Dmitriev and G. E. Zaikov

Chapter 127 – Geometrical and Electronic Structure of Molecule Mononitrocellulose by Method MNDO (pp. 255-256)
V. A. Babkin and А. В. Tsykanov

Chapter 128 – Quantum-Chemical Research of the Mechanism of Synthesis of 5-Acetyloxymethyl-2-chlorineo-5-ethyl-1,2,3-dioxaphosphorynane (pp. 257-258)
V. A. Babkin, V. Yu. Dmitriev, G. A. Savin, E. S. Titova and G. E. Zaikov

Chapter 129 – Quantum-Chemical Research of the Mechanism of Synthesis of 2,2-Bi-(О-Acetyloxymethyl)- 1-О-Acetylbutanol (pp. 259-260)
V. A. Babkin, V. Yu. Dmitriev, G. A. Savin, E. S. Titova and G. E. Zaikov

Chapter 130 – Estimation of Acid Force of Components of Synthesis of 2,2-Bi-(О-Acetyloxymethyl) -1-О-Acetylbutanol (pp. 261-262)
V. A. Babkin, V. Yu. Dmitriev, G. A. Savin, E. S. Titova and G. E. Zaikov

Chapter 131 – Geometrical and Electronic Structure of Molecule Hydrogen by Method Ab Initio (pp. 263-264)
V. A. Babkin, V. Yu. Dmitriev and G. E. Zaikov

Chapter 132 – Geometrical and Electronic Structure of Molecule Hydrazine by Method Ab Initio (pp. 265-266)
V. A. Babkin, V. Yu. Dmitriev and G. E. Zaikov

Chapter 133 – Geometrical and Electronic Structure of Molecule ATP (adenosine triphosphate) by Method Ab Initio (pp. 267-268)
V. A. Babkin, V. Yu Dmitriev, E. S. Titova and G. E. Zaikov

Chapter 134 – Geometrical and Electronic Structure of Molecule Uracil (pp. 269-270)
V. A. Babkin, V. Yu. Dmitriev, E. S. Titova and G. E. Zaikov

Chapter 135 – Geometrical and Electronic Structure of Molecule Hepten-1 by Method Ab Initio (pp. 271-272)
V. A. Babkin, V. Yu. Dmitriev and G. E. Zaikov

Chapter 136 – Geometrical and Electronic Structure of Molecule Hexene-1 by Method MNDO (pp. 273-274)
V. A. Babkin, V. Yu. Dmitriev and G. E. Zaikov

Chapter 137 – Geometrical and Electronic Structure of Molecule Heptene-1 by Method MNDO (pp. 275-276)
V. A. Babkin, V. Yu. Dmitriev and G. E. Zaikov

Chapter 138 – Geometrical and Electronic Structure of Molecule 3-Methylbutene- 1 by Method Ab Initio (pp. 277-278)
V. A. Babkin and V. V. Galenkin

Chapter 139 – Geometrical and Electronic Structure of Molecule 3-Nethylbutene-1 by Method MNDO (pp. 279-280)
V. A. Babkin and V. V. Galenkin

Chapter 140 – Geometrical and Electronic Structure of Molecule 4,4- Dimethylpentene-1 by Method MNDO (pp. 281-282)
V. A. Babkin and D. S. Andreev

Chapter 141 – Geometrical and Electronic Structure of Molecule 4-Methylhexene-1 by Method MNDO (pp. 283-284)
V. A. Babkin and D. S. Andreev

Chapter 142 – Geometrical and Electronic Structure of Molecule 4-Methylpentene-1 by Method MNDO (pp. 285-286)
V. A. Babkin and D. S. Andreev

Chapter 143 – Geometrical and Electronic Structure of Molecule 2-Methylbutene-2 by Method Ab Initio (pp. 287-288)
V. A. Babkin and D. S. Andreev

Chapter 144 – Geometrical and Electronic Structure of Molecule 2-Methylpentene-1 by Method Ab Initio (pp. 289-290)
V. A. Babkin and D. S. Andreev

Chapter 145 – Geometrical and Electronic Structure of Molecule 2-Methylbutene-2 by Method MNDO (pp. 291-292)
V. A. Babkin and D. S. Andreev

Chapter 146 – Geometrical and Electronic Structure of Molecule 2-Methylpentene-1 by Method MNDO (pp. 293-294)
V. A. Babkin and D. S. Andreev

Chapter 147 – Geometrical and Electronic Structure of Molecule Trans, Trans-Hexadiene-2,4 by Method Ab Initio (pp. 295-296)
V. A. Babkin and D. S. Andreev

Chapter 148 – Geometrical and Electronic Structure of Molecule Cis, Transhexadiene-2,4 by Method Ab Initio (pp. 297-298)
V. A. Babkin and D. S. Andreev

Chapter 149 – Geometrical and Electronic Structure of Molecule Cis, Cis-Hexadiene-2,4 by Method Ab Initio (pp. 299-300)
V. A. Babkin and D. S. Andreev

Chapter 150 – Geometrical and Electronic Structure of Molecule Trans-2-methylpentadiene-1,3 by Method Ab Initio (pp. 301-302)
V. A. Babkin and D. S. Andreev

Chapter 151 – Geometrical and Electronic Structure of Molecule Trans, Trans-Hexadiene-2,4 by Method MNDO (pp. 303-304)
V. A. Babkin and D. S. Andreev

Chapter 152 – Geometrical and Electronic Structure of Molecule Cis, Trans-Hexadiene-2,4 by Method MNDO (pp. 305-306)
V. A. Babkin and D. S. Andreev

Chapter 153 – Geometrical and Electronic Structure of Molecule Cis, Cishexadiene-2,4 by Method MNDO (pp. 307-308)
V. A. Babkin and D. S. Andreev

Chapter 154 – Geometrical and Electronic Structure of Molecule Trans-2-methylpentadiene-1,3 by Method MNDO (pp. 309-310)
V. A. Babkin and D. S. Andreev

Chapter 155 – Geometrical and Electronic Structure of Molecule Trans-3-methylpentadiene-1,3 by Method MNDO (pp. 311-312)
V. A. Babkin and D. S. Andreev

Chapter 156 – Geometrical and Electronic Structure of Molecule Some Styrenes by Method MNDO (pp. 313-314)
V. A. Babkin and K. S. Medvedeva

Chapter 157 – Geometrical and Electronic Structure of Molecule M-Nitrostyrene by Method Ab Initio (pp. 315-316)
V. A. Babkin and D. S. Andreev

Chapter 158 – Geometrical and Electronic Structure of Molecule Trans-β-propylstyrene by Method MNDO (pp. 317-318)
V. A. Babkin and D. S. Andreev

Chapter 159 – Geometrical and Electronic Structure of Molecule Cis-p-metoxi-β-methylstyrene by Method MNDO (pp. 319-320)
V. A. Babkin and D. S. Andreev

Chapter 160 – Geometrical and Electronic Structure of Molecule Brompropilinden by Method MNDO (pp. 321-322)
V. A. Babkin and I. N. Kozlov

Chapter 161 – Geometrical and Electronic Structure of Molecule Bromindene by Method MNDO (pp. 323-324)
V. A. Babkin and I. N. Kozlov

Chapter 162 – Geometrical and Electronic Structure of Molecule 2-Isopropenilbicyclo[2,2,1]heptene-5 by Method Ab Initio (pp. 325-326)
V. A. Babkin and D. S. Andreev

Chapter 163 – Geometrical and Electronic Structure of Molecule 2-vinylbicyclo[2,2,1]heptene-2 by Method Ab Initio (pp. 327-328)
V. A. Babkin and D. S. Andreev

Chapter 164 – Geometrical and Electronic Structure of Molecule bicyclo[2,2,1]heptadiene-2,5 by Method Ab Initio (pp. 329-330)
V.A. Babkin and D.S. Andreev

Chapter 165 – Geometrical and Electronic Structure of Molecule 2-Methylenebicyclo[2,2,1]heptene-5 by Method Ab Initio (pp. 331-332)
V. A. Babkin and D. S. Andreev

Chapter 166 – Geometrical and Electronic Structure of Molecule isopropylcyclopropane by Method Ab Initio (pp. 333-334)
V. A. Babkin, D. S. Andreev and E. S. Titova

Chapter 167 – Geometrical and Electronic Structure of Molecule Ppropylcyclopropane by Method Ab Initio (pp. 335-336)
V. A. Babkin, D. S. Andreev and E. S. Titova

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