Table of Contents

Table of Contents

Preface

Chapter 1 – Zero and Vacuum: Parallel Stories of Two Parallel Concepts (pp. 1-2)
Lionello Pogliani

Chapter 2 – Chemical Action and the Transition-State Reactivity (pp. 3-4)
Mihai V. Putz

Chapter 3 – On the Algebraic Chemistry of Catalysis (pp. 5-6)
Cynthia Kolb Whitney

Chapter 4 – Modeling of the Solid-State Polymerization Kinetics (pp. 7-8)
A. M. Kaplan and N. I. Chekunaev

Chapter 5 – The Scattering of Particles and Waves on Nucleon Nodes of the Atom (pp. 9-10)
George P. Shpenkov

Chapter 6 – Compressibility of aCa3N2 to 137 Kb Using Synchrotron Radiation and a Diamond Anvil Cell (pp. 11-12)
Michael J. Bucknum, Pablo R. Duchowicz and Eduardo A. Castro

Chapter 7 – Dependence of Thermodynamic Characteristics upon Spatial-Energy Parameter of Free Atoms (pp. 13-14)
G.А. Коrablev and G.Е. Zaikov

Chapter 8 – On Chemical Hardness Assessment of Aromaticity for Some Organic Compounds (pp. 15-16)
Mihai V. Putz, Ana-Maria Putz, Laura Pitulice and Vlad Chiriac

Chapter 9 – A Quantum Mechanical Calculation of the Reactivity Descriptors of Ammonia (NH3) Molecule During the Physical Process of Its Umbrella (C3v –D3h) Inversion and Identification of the Preferred Conformation of Reaction in the Gas Phase (pp. 17-18)
Dulal C. Ghosh and Sandip Kumar Rajak

Chapter 10 – Computation of Some Descriptors of the Real World in Terms of a New Scale of Electronegativity. Part 1. The Dipole Moments of Some Heteronuclear Diatomic Molecules (pp. 19-20)
Dulal C. Ghosh, Nazmul Islam and Sandip Kumar Rajak

Chapter 11 – Computation of Some Descriptors of the Real World in Terms of a New Scale of Electronegativity. Part 2. Evaluation of Equilibrium Internuclear Bond Distances of Some Heteronuclear Diatomics (pp. 21-22)
Dulal C. Ghosh, Nazmul Islam and Sandip Kumar Rajak

Chapter 12 – Density Functional Study on the Stability and Reactivity of Pt(100) and Pt(111) Surfaces Modified by Ni Atoms (pp. 23-24)
M. B. López and E. A. Castro

Chapter 13 – Modeling on Methanol Clusters in Terms of Ab Initio and ABEEM/MM Methods (pp. 25-26)
Cui Liu, Dong-Xia Zhao and Zhong-Zhi Yang

Chapter 14 – Twisted Phenanthrene and Other Molecular Victims of Steric Repulsion (pp. 27-28)
Jordi Poater, Miquel Solà and F. Matthias Bickelhaupt

Chapter 15 – Molecular Modeling and Spectroscopic Properties of a Sesquiterpene Lactone, 1b-Hydroxy-4-Oxo-11bH-4-Noreudesman- 6,12-Olide (pp. 29-30)
José R. Molina, Mariela Finetti, Oscar J. Díaz, Juana R. de la Fuente and Alicia H. Jubert

Chapter 16 – Experimental and Theoretical Standard Enthalpies of Formation of 3,6-Dibutanal-1,2,4,5-Tetroxane (pp. 31-32)
Daniela A. Ayala, Mariela I. Profeta, Jorge M. Romero, Nelly L. Jorge, Vara Gómez, E. Manuel, Eduardo A. Castro and Alicia H. Jubert

Chapter 17 – SMILES-Based QSPR Models of Ionic Lattice Energies (pp. 33-34)
Eduardo A. Castro, Alla P. Toropova, Andrey A. Toropov
and Runet Z. Akhmerov

Chapter 18 – Spectral-SAR Ecotoxicology of Ionic Liquids-Acetylcholine Interaction on E. Electricus Species (pp. 35-36)
Mihai V. Putz, Ana-Maria Putz, Vasile Ostafe and Adrian Chiriac

Chapter 19 – Fractal Features of Proteins Structure and Dynamics. Part I-Structure (pp. 37-38)
Dana Craciun, Laura Pitulice and Adriana Isvoran

Chapter 20 – Fractal Features of Proteins Structure and Dynamics. Part II-Dynamics (pp. 39-20)
Dana Craciun, Laura Pitulice and Adriana Isvoran

Chapter 21 – Models for the Prediction of A3 Adenosine Receptor Binding Affinity of 2-Chloro-N6-substituted-4´-thioadenosine-5´-uronamides (pp. 41-42)
Rakesh K. Goyal, Harish Dureja, G. Singh and A. K. Madan

Chapter 22 – Separation of the Electronic and the Steric Effects on the Cu(II/I) Potentials in Cu(I) (N-X)2 Complexes Where X = N Or O (pp. 43-44)
Senjuti De and Dipankar Datta

Chapter 23 – Bonding in Biologically-Relevant High-Valent Iron Centers (pp. 45-46)
Radu Silaghi-Dumitrescu

Chapter 24 – A Model of the Oral Glucose Tolerance Test that Defines the Gastric Emptying Process (pp. 47-48)
Horace Martin, Richard Goldstein, Joanne Hologgitas and Marc Weinberg

Chapter 25 – Modeling of the Polyurethane Structure for a Better Antibiotics‘ Adsorption (pp. 49-50)
Florin Borcan, Nicoleta Filimon and Constantin Bolcu

Chapter 26 – Omega Polynomial: Composition Rules in CorSu Lattice (pp. 51-52)
Mircea V. Diudea

Chapter 27 – Omega Polynomial in C84-Unit Nano-Dendrimers (pp. 53-54)
Mircea V. Diudea

Chapter 28 – Wiener Index of 1-Pentagon Fullerenic Infinite Lattice (pp. 55-56)
Franco Cataldo, Ottorino Ori and Ante Graovac

Chapter 29 – Molecular Matrix Based on Chemical Structure and Atomic Number (pp. 57-58)
Teik-Cheng Lim

Chapter 30 – A Note on Wiener- and Kirchhoff-Sum Indices (pp. 59-60)
Rundan Xing, Bo Zhou and Damir Vukičević

Chapter 31 – Distance in Trees and Laplacian Matrix (pp. 61-62)
Ivan Gutman and Wenjun Xiao

Chapter 32 – On A Class of Integrals Encountered in Theoretical Chemistry (pp. 63-64)
Ivan Gutman

Chapter 33 – Vapor Transport in Soil: Concepts and Mathematical Description (pp. 65-66)
Helmut Geistlinger

Chapter 34 – Vapor Transport in Atmospheric Air (pp. 67-68)
Giovanni Lonati

Chapter 35 – Vapor Transport to Indoor Environments (pp. 69-70)
David A. Olson

Chapter 36 – Vapor Transport from Soil and Groundwater: Numerical Modeling Approach (pp. 71-72)
Kelly Pennell and Eric Suuberg

Chapter 37 – Vapour Transport from Soil and Groundwater to Indoor Air: Analytical Modelling Approach (pp. 73-74)
Matthew Lahvis

Chapter 38 – Modeling of Vapor Intrusion Mitigation (pp. 75-76)
David J. Folkes and Charoen Sanpawanitchakit

Chapter 39 – Soil Gas Methods for Vapor Intrusion Assessment (pp. 77-78)
Blayne Hartman

Chapter 40 – Indoor and Outdoor Air Sampling Techniques (pp. 79-80)
Laura Romele and Elena Sezenna

Chapter 41 – Vapor Flux Measurements – Chamber Methods (pp. 81-82)
Suduan Gao and Dong Wang

Chapter 42 – Chlorinated Hydrocarbons Plumes in a Residential Area. Site Investigation to Assess Indoor Vapor Intrusion and Human Health Risks (pp. 83-84)
Alessandro Gargini, Monica Pasini, Sara Picone, Huub Rijnaarts and Pauline Van Gaans

Chapter 43 – Methods to Distinguish between Vapor Intrusion and Indoor Sources of VOCs: Application at Residences Near Hill AFB, Utah, USA (pp. 85-86)
Thomas E. McHugh and Kyle A. Gorder

Chapter 44 – Case Studies on Petroleum Hydrocarbons (pp. 87-88)
G. Todd Ririe

Chapter 45 – A Case Study on the Influence of Aerobic Biodegradation on Vapor Intrusion at a Former Refinery Property (pp. 89-90)
Todd McAlary, Paul Nicholson, David Bertrand, Hester Groenevelt and Robert Ettinger

Chapter 46 – Comparison between Measured and Calculated Hg Emissions at a Polluted Site (pp. 91-92)
Elena Sezenna and Sabrina Saponaro

Chapter 47 – Helium in the Terrestrial Upper Atmosphere: Spatial and Temporal Distribution of Its Emission in the Infrared Spectral Region (pp. 93-94)
N. N. Shefov and A. I. Semenov

Chapter 48 – Helium in Metals-Diffusion and Equation of State (pp. 95-96)
Benny Glam

Chapter 49 – Release of Mantle Helium and Its Tectonic Implications (pp. 97-98)
Koji Umeda, Atusi Ninomiya and Koich Asamori

Chapter 50 – Elastic and Inelastic Processes with Spin-Polarized Metastable Helium Atoms in Gas Discharge (pp. 99-100)
V. A. Kartoshkin and G. V. Klementiev

Chapter 51 – Effect of He Plasma Treatment on the Reactivity of Porous Methyldoped Silicon Dioxide Layers (pp. 101-102)
F. N. Dultsev

Chapter 52 – Lighter than Air Vehicles: Autonomous Airships for Bridge Monitoring (pp. 103-104)
Yasmina Bestaoui

Chapter 53 – First-Principles Study of Helium Behavior in Nuclear Fuel Materials (pp. 105-106)
Younsuk Yun, Olle Eriksson and Peter M. Oppeneer

Chapter 54 – Helium Thermodynamics, Analytical Model (pp. 107-108)
Yasser Safa

Chapter 55 – Combining Helium with Antimatter: Antiprotonic Helium and Its Applications (pp. 109-110)
Nicola Zurlo

Chapter 56 – Sol-Gel TiO2 – Based Oxide Systems (pp. 111-112)
Maria Crişan, Mălina Răileanu, Adelina Ianculescu, Dorel Crişan and Nicolae Drăgan

Chapter 57 – Sol-Gel-Based Materials for Biomedical Applications (pp. 113-114)
Aurica P. Chiriac, Iordana Neamtu, Loredana E. Nita and Manuela T. Nistor

Chapter 58 – Dye-Removal Characteristics of Pure and Modified Nanocrystalline Sol-Gel Titania (pp. 115-116)
Satyajit Shukla

Chapter 59 – Sol-Gel Synthesis of Mesoporous Ordered Nanomaterials on the Basis of Alumina and Titania (pp. 117-118)
A. V. Agafonov, V. V. Vinogradov and A. V. Vinogradov

Chapter 60 – Nanocomposites with Controlled Properties Obtained by the Thermal Treatment of Some Tetraethyl Orthosilicate-Diols-Metal Nitrates Gels (pp. 119-120)
Mircea Stefanescu, Marcela Stoia and Oana Stefanescu

Chapter 61 – Methods for Prevention, Diagnosis and Treatment Achieved with the Aid of Sol-Gel Chemistry (pp. 121-122)
Martin F. Desimone, Gisela S. Alvarez, Guillermo J. Copello, Maria L. Foglia, Maria V. Tuttolomondo and Luis E. Diaz

Chapter 62 – Description of Solvent-Dependent and Nanoscale Diffusion Process in Silica Based Sol–Gel Matrix (pp. 123-124)
Kazushige Yokoyama

Chapter 63 – Sol-Gel Processes on Chemically Inert Substrates to Fabricate Functional Hybrid Architectures and Their Applications (pp. 125-126)
Haiqing Li and Il Kim

Chapter 64 – Protein Sol-Gel Encapsulation with Polymer Additives (pp. 127-128)
Monika Sommerhalter

Chapter 65 – Fabrication and Property Optimization of Multiferroic Composite Thick Films (pp. 129-130)
W. Chen, W. Zhu and Z. H. Wang

Chapter 66 – Application of a Sol-Gel Based Nanostructured Ceramic Membrane for Hydrogen Separation in CO2 Capture Purposes (pp. 131-132)
T. H. Y. Tran, W. G. Haije and J. Schoonman

Chapter 67 – Isocyanate Modified Silanes As a New Generation Precursors in the Sol- Gel Technology: From Materials Design to Application (pp. 133-134)
Ts. Gerganova, Y. Ivanova, T. Gerganov, I. M. Miranda Salvado and M. H. V. Fernandes

Chapter 68 – Ex-Situ XPS Analysis of Surfaces Applied in Advanced Oxidation Processes (AOPs) (pp. 135-136)
Jens Muff, Morten E. Simonsen and Erik G. Søgaard

Chapter 69 – Sol-Gel Chemistry of Transitional Metals in Aqueous Medium (pp. 137-138)
Luminita Predoana and Maria Zaharescu

Chapter 70 – Application of Sol-Gel Process in the Polymer Materials Modification (pp. 139-140)
Nika Veronovski

Chapter 71 – Synthesis and Characterization of Silicate Polymers (pp. 141-142)
Morten E. Simonsen, Camilla Sønderby and Erik G. Søgaard

Chapter 72 – Multienzymatic System Immobilization in Sol-Gel Slides: Development of Fluorescent Biosensors (pp. 143-144)
I. Pastor and A. Salinas-Castillo

Chapter 73 – Dye-Doped Sol-Gels for the Optical Sensing towards Aliphatic Amines (pp. 145-146)
Wenqun Wang, Kwok-Fan Chow, Alvin Persad, Ann Okafor, Andrew Bocarsly, Neil D. Jespersen and Enju Wang

Chapter 74 – Sol-Gel Based Solid State Dye Laser-Past, Present and Future (pp. 147-148)
Uday Kumar

Chapter 75 – Preparation and Properties of ZnO Nanoparticles and Thin Films Deposited by the Sol-Gel Method (pp. 149-150)
Wei-jie Song, Jia-Li, Yu-long Zhang, Rui-qin Tan and Ye-Yang

Chapter 76 – Wet Sol-Gel Silica Microspheres for the Sustained Release of Human Growth Hormone (pp. 151-152)
Margherita Morpurgo, Andrea Mozzo, Camilla Ferracini, Mauro Pignatto and Nicola Realdon

Chapter 77 – Sol-Gel Synthesis and Study of Silica Nanoparticles As Potential Carriers for Drug Delivery (pp. 153-154)
Elena V. Parfenyuk and Bouzid Menaa

Chapter 78 – Border between Sol-Gel and Wet Precipitation in Calcium Phosphates Synthesis (pp. 155-156)
Alexandra Bucur and Raul Bucur

Chapter 79 – Magnesium-Doped Biphasic Calcium Phosphate Nanopowders via Sol-Gel Method (pp. 157-158)
Iis Sopyan, Toibah Abdul Rahim and Zainal Arifin Ahmad

Chapter 80 – Highly Stable TiO2 Sol with High Photocatalytic Properties (pp. 159-160)
S. Rahim, M. Sasani Ghamsari, S. Radiman and A. Hamzah

Chapter 81 – Sol Stabilization in Sol-Gel Process (pp. 161-162)
M. Sasani Ghamsari, H. Mehranpour and S. Radiman

Chapter 82 – Sol Gel Titania: Leader Heterogeneous Photocatalyst for Waste Remediation (pp. 163-164)
N. N. Binitha, Z. Yaakob and M. R. Resmi

Chapter 83 – Controlling Silica Networks Using Bridged Alkoxides for Hydrogen Separation Membranes (pp. 165-166)
Toshinori Tsuru, Hye Ryeon Lee and Masakoto Kanezashi

Chapter 84 – An Introduction to the Statistical Theory of Polymer Network Formation (pp. 167-168)
Pierre Gilormini

Chapter 85 – Aromatic Polyethers Based on Heterocyclic Monomers (pp. 169-170)
Alexander L. Rusanov and Nataliya M. Belomoina

Chapter 86 – Trends in the Study of the Electrochemical Stability of Perchlorate Ions against Reductive Attacks (pp. 171-172)
G. G. Láng and M. Ujvári

Chapter 87 – Lithium and Magnesium Perchlorate Solutions and Their Influence on the Rate and Equilibrium of Some Cycloaddition Reactions (pp. 173-174)
Vladimir D. Kiselev

Chapter 88 – Structural and Vibrational Properties of Chromyl Perchlorate (pp. 175-176)
Silvia A. Brandán

Chapter 89 – Perchlorate Formation in Electrochemical Water Disinfection (pp. 177-178)
M. E. Henry Bergmann, Tatiana Iourtchouk, Wido Schmidt, Gabriele Nüske and Michaela Fischer

Chapter 90 – Metal Perchlorates As Lewis Acids: A Powerful and Versatile Tool in Organic Synthesis (pp. 179-180)
Letizia Sambri, Giuseppe Bartoli, Giorgio Bencivenni and Renato Dalpozzo

Chapter 91 – Advances in the Bioremediation of Perchlorate (pp. 181-182)
Yanguang Song and Steven W. Van Ginkel

Chapter 92 – Environmental Biotechnology and Microbiology of (Per)Chlorate Reducing Bacteria (pp. 183-184)
Farrakh Mehboob, Gosse Schraa and Alfons J. M. Stams

Chapter 93 – Perchlorate: Production, Uses and Effects on Humans and the Environment (pp. 185-186)
Reema Bansal, Ronald L. Crawford, Thomas. F. Hess and Andrzej. J. Paszczynski

Chapter 94 – Perchlorates in the Laboratory for Analytical/Physical Chemistry (pp. 187-188)
Marina Zelić

Chapter 95- Electronic Structure, Chemical Bonding, Photoelectronic and Optical Properties of Metal Perchlorates (pp. 189-190)
Yu. N. Zhuravlev, D. V. Korabel’nikov and A. S. Poplavnoi

Chapter 96 – Alkaline Earth Metal Perchlorates: Electrochemical Preparation and Reaction Mechanisms (pp. 191-192)
Subramanyan Vasudevan

Chapter 97 – Removal of Perchlorate from Water (pp. 193-194)
Yeomin Yoon, Nam-Guk Her and Moonil Kim

Chapter 98 – Ferric Perchlorate: An Efficient Catalyst for Expeditious and Chemo Selective Conversion of Aldehydes to Acylals (pp. 195-196)
Farahnaz K. Behbahani, Majid M. Heravi and Hossien A. Oskooie

Chapter 99 – Microbial Reduction of Chlorate and Perchlorate: Phylogenetic Analysis of the Genes Encoding the Degradation Pathways (pp. 197-198)
Martina M. Ederer, Katarzyna H. Kucharzyk, Thomas F. Hess and Ronald L. Crawford

Chapter 100 – Analytical Methods in Paint Evaluations: Fostering Information (pp. 199-200)
Fabíola Manhas Verbi Pereira, Edenir Rodrigues Pereira-Filho and Maria Izabel Maretti Silveira Bueno

Chapter 101 – Part I: Examination of Untreated and Treated oil Paint Surfaces by 3D-Measurement Technology at the Universal-Museum Joanneum, Graz, Austria (pp. 201-202)
Paul-Bernhard Eipper

Chapter 102 – Part 2: Examination of Untreated and Treated Acrylic Paint Surfaces by 3D-Measurement Technology at the Universal-Museum Joanneum, Graz, Austria (pp. 203-204)
Paul-Bernhard Eipper

Chapter 103 – Cool Paint As Urban Heat Island Measure Technology (pp. 205-206)
Hideki Takebayashi

Chapter 104 – Technique Assessment of Coating Processes Using Multi-Criteria Decision Support (pp. 207-208)
J. Geldermann and S. Wiedenmann

Chapter 105 – Environmentally Friendly Paints (pp. 209-210)
Heba Abdelrazek Mohamed

Chapter 106 – New Developments in Paint and Coatings Technology (pp. 211-212)
Saeed Farrokhpay

Chapter 107 – Intumescent Powder Coatings (pp. 213-214)
Heinrich Horacek

Chapter 108 – The Preparation of Ag-Nanoparticle-Embedded Paints and Their Antimicrobial Activity (pp. 215-216)
Renat R. Khaydarov, Rashid A. Khaydarov, Olga Gapurova, Svetlana Evgrafova and Seung Y. Cho

Chapter 109 – Ceramic Surface Paintings and Pigments from the Aguada Culture (Argentina): XRD and SEM-EDX Archaeometric Studies Intumescent Powder Coatings (pp. 216-218)
S. R. Bertolino, V. Galvan Josa and G. Castellano

Chapter 110 – Design and Manufacturing of Artistic Paint Rollers (pp. 219-220)
Fusaomi Nagata, Yukihiro Kusumoto, Kaori Saito, Takamasa Kusano and Keigo Watanabe

Chapter 111 – Overview of Acetonitrile: Physicochemical Properties, Applications and Clinical Aspects (pp. 221-222)
João Cleverson Gasparetto, Roberto Pontarolo, Thais Martins Guimarães de Francisco and Francinete Ramos Campos

Chapter 112 – Sorption on Cellulose from Aqueous Acetonitrile Solutions (pp. 223-224)
A. G. Zakharov, M. I. Voronova, O. V. Surov and D. V. Batov

Chapter 113 – The Reactivity of Acetonitrile Towards Palladium Carboxylates: Coordination Effects and Transformations in Coordination Sphere (pp. 225-226)
Nailya S. Akhmadullina and Oleg N. Shishilov

Chapter 114 – Modulating Reactivity and Mechanism Using Acetonitrile as Reaction Medium: From Desolvation Effects to Solvent-Induced Hydrogen Tunnelling (pp. 227-228)
Cvijeta Jakobušić Brala and Stanko Uršić

Chapter 115 – Application of Acetonitrile Modified Platinum Electrode for Electrochemical Determination of Nitroaromatic Compounds (pp. 229-230)
V. Marinović and S. Marinović

Chapter 116 – Photochemical Experiments in Acetonitrile (pp. 231-232)
Kazutaka Hirakawa

Chapter 117 – Geometrical and Electronic Structure of Terpenes (pp. 233-234)
V. A. Babkin, А. В. Tsykanov, V. Yu. Dmitriev, E. S. Titova and G. E. Zaikov

Chapter 118 – Geometrical and Electronic Structure of the Molecule of Insecticide DDT (Dichlorodiphenyltrichloroethane) or 2, 2-Bis-(4-Chlorophenyl)1,1,1-Trichloroethane) (pp. 235-236)
V. A. Babkin, V. Yu. Dmitriev and G. E. Zaikov

Chapter 119 – Geometrical and Electronic Structure of the Molecule of Formaldehyde (pp. 237-238)
V. A. Babkin, D. S. Andreev, V. D. Shesterenkin and E. S. Titova

Chapter 120 – Research of Geometrical and Electronic Structure of Molecule Nematic N-(Para-methoxybenzylidene)-para-butylaniline by Method MNDO (pp. 239-240)
V. A. Babkin and D. S. Andreev

Chapter 121 – Research of Geometrical and Electronic Structure of Molecule of Smectic Liquid Crystal Terephthalbis(Para-Butylaniline) by Method MNDO (pp. 241-242)
V. A. Babkin and D. S. Andreev

Chapter 122 – Research of Geometrical and Electronic Structure of Molecules of Mono-, Di-, Trinitrocellulose by Method MNDO (pp. 243-244)
V. A. Babkin, А. В. Tsykanov and E. S. Titova

Chapter 123 – Research of Geometrical and Electronic Structure of Different Fuels by Method Ab Initio (pp. 245-246)
V. A. Babkin, V. Yu. Dmitriev, E. S. Titova and G. E. Zaikov

Chapter 124 – Research of Geometrical and Electronic Structure of Heterocyclic Nitrogen Bases: «Alphabet» of Genetic Code by Method Ab Initio (pp. 247-248)
V. A. Babkin, V. Yu. Dmitriev, E. S. Titova, V. S. Belousova and G. E. Zaikov

Chapter 125 – Research of Geometrical and Electronic Structure of Molecules of Monomer of Cationic Polymerization, Branched out in α-position in Relation to Double Bond by Method MNDO (pp. 249-250)
V. A. Babkin, V. V. Galenkin and E. S. Titova

Chapter 126 – Research of Geometrical and Electronic Structure of Molecules of Monomer of Cationic Polymerization Branched Out in α-Position In Relation to Double Bond by Method Ab Initio (pp. 251-252)
V. A. Babkin, V. V. Galenkin and E. S. Titova

Chapter 127 – Research of Geometrical and Electronic Structure of Molecule Vinylcyclopentane by Method MNDO (pp. 253-254)
V. А. Babkin and А. А. Pristanskov

Chapter 128 – Research of Geometrical and Electronic Structure of Molecule Methylenecyclopentane by Method MNDO (pp. 255-256)
V. А. Babkin and А. А. Pristanskov

Chapter 129 – Research of Geometrical and Electronic Structure of Molecule 1-Methylcyclopentene by Method MNDO (pp. 257-258)
V. А. Babkin and А. А. Pristanskov

Chapter 130 – Research of Geometrical and Electronic Structure Molecule 3-Methylcyclopentene by Method MNDO (pp. 259-260)
V. А. Babkin and А. А. Pristanskov

Chapter 131 – Research of Geometrical and Electronic Structure of Molecule Cyclopentene Method MNDO (pp. 261-262)
V. А. Babkin and А. А. Pristanskov

Chapter 132 – Research of Geometrical and Electronic Structure of Molecule Methylenecyclobutane by Method MNDO (pp. 263-264)
V. А. Babkin and А. А. Pristanskov

Chapter 133 – Research of Geometrical and Electronic Structure of Molecule 1,1-Dicyclopropylethylene by Method MNDO (pp. 265-266)
V. А. Babkin and А. А. Pristanskov

Chapter 134 – Research of Geometrical and Electronic Structure Molecule Isopropylcyclopropane by Method MNDO (pp. 267-268)
V. А. Babkin and А. А. Pristanskov

Chapter 135 – Research of Geometrical and Electronic Structure Molecule Vinylcyclopropane by Method MNDO (pp. 269-270)
V. А. Babkin and А. А. Pristanskov

Chapter 136 – Research of Geometrical and Electronic Structure Molecule Methylenecyclopropane by Method MNDO (pp. 271-272)
V. А. Babkin and А. А. Pristanskov

Chapter 137 – Research of Geometrical and Electronic Structure of Molecule 5-methylallyl-1,3-cyclopentadiene by Method MNDO (pp. 273-274)
V. А. Babkin and N. А. Azaryan

Chapter 138 – Research of Geometrical and Electronic Structure of Molecule 5-Allyl-1,3-Cyclopentadiene by Method MNDO (pp. 275-276)
V. А. Babkin and N. А. Azaryan
xvi Contents
Chapter 139 – Research of Geometrical and Electronic Structure of Molecule 1,2-Dimethyl-1,3-Cyclopentadiene by Method MNDO (pp. 277-278)
V. А. Babkin and N. А. Azaryan

Chapter 140 – Research of Geometrical and Electronic Structure of Molecule 6-Methyl-6-Ethylfulvene by Method Ab Initio (pp. 279-280)
V. А. Babkin and D. S. Andreev

Chapter 141 – Research of Geometrical and Electronic Structure of Molecule 6,6-Dimethylfulvene by Method Ab Initio (pp. 281-282)
V. А. Babkin and D. S. Andreev

Chapter 142 – Research of Geometrical and Electronic Structure of Molecule 1,2-Dimethyl-1,3-Cyclopenadiene by Method Ab Initio (pp. 283-284)
V. А. Babkin and D. S. Andreev

Chapter 143 – Research of Geometrical and Electronic Structure of Molecule 2,7-Spirodecane by Method MNDO (pp. 285-286)
V. A. Babkin and S. M. Shamin

Chapter 144 – Research of Geometrical and Electronic Structure of Molecule 2,6-Spironane by Method MNDO (pp. 287-288)
V. A. Babkin and S. M. Shamin

Chapter 145 – Research of Geometrical and Electronic Structure of Molecule 2,5-Spirooctane by Method MNDO (pp. 289-290)
V. A. Babkin and S. M. Shamin

Chapter 146 – Research of Geometrical and Electronic Structure of Molecule 7,7-Dichlorinebicyclo[4,1,0]Heptane by Method Ab Initio (pp. 291-292)
V. A. Babkin and D. S. Andreev

Chapter 147 – Research of Geometrical and Electronic Structure of Molecule 1-Methyl-1-Vinyl-2,2-Dichlorinecyclopropane by Method Ab Initio (pp. 293-294)
V. A. Babkin and D. S. Andreev

Chapter 148 – Research of Geometrical and Electronic Structure of Molecule 2-Methyl-1,1-Dichlorine-2-Para-Chlorophenylcyclopropane by Method Ab Initio (pp. 295-296)
V. A. Babkin and D. S. Andreev

Chapter 149 – Research of Geometrical and Electronic Structure of Molecule 2-Methyl-2-Phenyl-1,1-Dichlorinecyclopropane by Method Ab Initio (pp. 297-298)
V. A. Babkin and D. S. Andreev

Chapter 150 – Research of Geometrical and Electronic Structure of Molecule 2,2,3-Trimethyl-1,1-Dichlorinecyclopropane by Method Ab Initio (pp. 299-300)
V. A. Babkin and D. S. Andreev

Chapter 151 – Research of Geometrical and Electronic Structure of Molecule 2,2-Dimethyl-1,1-Dichlorinecyclopropane by Method Ab Initio (pp. 301-302)
V. A. Babkin and D. S. Andreev

Chapter 152 – Research of Geometrical and Electronic Structure of Molecule 2,7-Spirodecane by Method Ab Initio (pp. 303-304)
V. A. Babkin and D. S. Andreev

Chapter 153 – Research of Geometrical and Electronic Structure of Molecule 2-Methyl-5-Isopropylstyrene by Method MNDO (pp. 305-306)
V. A. Babkin and E. А. Kologrivko

Chapter 154 – Research of Geometrical and Electronic Structure of Molecule 2,4-Dimethylstyrene by Method MNDO (pp. 307-308)
V. A. Babkin and E. А. Kologrivko

Chapter 155 – Research of Geometrical and Electronic Structure of Molecule О-isopropylstyrene by Method MNDO (pp. 309-310)
V. A. Babkin and E. А. Kologrivko

Chapter 156 – Research of Geometrical and Electronic Structure Molecule O-methylstyrene by Method MNDO (pp. 311-312)
V. A. Babkin and E. А. Kologrivko

Chapter 157 – Research of Geometrical and Electronic Structure of Molecule Para-Tert-Butylstyrene by Method MNDO (pp. 313-314)
V. A. Babkin and E. А. Kologrivko

Chapter 158 – Research of Geometrical and Electronic Structure of Molecule Para-Isopropylstyrene by Method MNDO (pp. 315-316)
V. A. Babkin and E. А. Kologrivko

Chapter 159 – Research of Geometrical and Electronic Structure of Molecule Para-Ethylstyrene by Method MNDO (pp. 317-318)
V. A. Babkin and E. А. Kologrivko

Chapter 160 – Research of Geometrical and Electronic Structure of Molecule PIsopropylstyrene by Method Ab Initio (pp. 319-320)
V. А. Babkin and D. S. Andreev

Chapter 161 – Research of Geometrical and Electronic Structure of Molecule Lstyrene by Method Ab Initio (pp. 321-322)
V. А. Babkin and D. S. Andreev

Chapter 162 – Research of Geometrical and Electronic Structure of Molecule 3,4-Dichlorstyrene by Method Ab Initio (pp. 323-324)
V. A. Babkin and D. S. Andreev

Chapter 163 – Research of Geometrical and Electronic Structure of Molecule М-Chlorstyrene by Method Ab Initio (pp. 325-326)
V. A. Babkin and D. S. Andreev

Chapter 164 R- esearch of Geometrical and Electronic Structure of Molecule О-Chlorstyrene by Method Ab Initio (pp. 327-328)
V. A. Babkin and D. S. Andreev

Chapter 165 – Research of Geometrical and Electronic Structure of Molecule P- Fluorostyrene by Method Ab Initio (pp. 329-330)
V. A. Babkin and D. S. Andreev

Chapter 166 – Research of Geometrical and Electronic Structure of Molecule 2,6-Dimethyl-4-Tret-Butylstyrene by Method Ab Initio (pp. 331-332)
V. A. Babkin and D. S. Andreev

Chapter 167 – Research of Geometrical and Electronic Structure of Molecule Vinylmesitylene by Method Ab Initio (pp. 333-334)
V. A. Babkin and D. S. Andreev

Chapter 168 – Research of Geometrical and Electronic Structure of Molecule 2,3-Dimethylindene by Method MNDO (pp. 335-336)
V. А. Babkin and D. М. Kolmak

Chapter 169 – Research of Geometrical and Electronic Structure of Molecule 1,1-Dimethylindene by Method MNDO (pp. 337-338)
V. А. Babkin and D. М. Kolmak

Chapter 170 – Research of Geometrical and Electronic Structure of Molecule 7-Methylindene by Method MNDO (pp. 339-340)
V. А. Babkin and D. М. Kolmak

Chapter 171 – Research of Geometrical and Electronic Structure of Molecule 6-Methylindene by Method MNDO (pp. 341-342)
V. А. Babkin and D. М. Kolmak

Chapter 172 – Research of Geometrical and Electronic Structure of Molecule 5-Methylindene by Method MNDO (pp. 343-344)
V. А. Babkin and D. М. Kolmak

Chapter 173 – Research of Geometrical and Electronic Structure of Molecule 3-Methylindene by Method MNDO (pp. 345-346)
V. А. Babkin and D. М. Kolmak

Chapter 174 – Research of Geometrical and Electronic Structure of Molecule 5,7-Dimethylindene by Method Ab Initio (pp. 347-348)
V. А. Babkin and D. S. Andreev

Chapter 175 – Research of Geometrical and Electronic Structure of Molecule 5,6-Dimethylindene by Method Ab Initio (pp. 349-350)
V. А. Babkin and D. S. Andreev

Chapter 176 – Research of Geometrical and Electronic Structure of Molecule 4,6-Dimethylindene by Method Ab Initio (pp. 351-352)
V. А. Babkin and D. S. Andreev

Chapter 177 – Research of Geometrical and Electronic Structure of Molecule 1,1-Dimethylindene by Method Ab Initio (pp. 353-354)
V. А. Babkin and D. S. Andreev

Chapter 178 – Research of Geometrical and Electronic Structure of Molecule 2,7-Diphenyloctadiene-1,7 by Method MNDO (pp. 355-356)
V. А. Babkin and A. V. Bokov

Chapter 179 – Research of Geometrical and Electronic Structure of Molecule 2,6-Diphenylheptadiene-1,6 by Method MNDO (pp. 357-358)
V. А. Babkin and A. V. Bokov

Chapter 180 – Research of Geometrical and Electronic Structure of Molecule 2,5-Diphenylhexadiene-1,5 by Method MNDO (pp. 359-360)
V. А. Babkin and A. V. Bokov

Chapter 181 – Research of Geometrical and Electronic Structure of Molecule О-divinylbenzene by Method MNDO (pp. 361-362)
V. А. Babkin and A. V. Bokov

Chapter 182 – Research of Geometrical and Electronic Structure of Molecule 1,2-Dihydronaphthalene by Method MNDO (pp. 3063-364)
V. А. Babkin and D. V. Jukov

Chapter 183 – Research of Geometrical and Electronic Structure of Molecule Allylbenzol by Method MNDO (pp. 365
V. А. Babkin and D. V. Jukov