Table of Contents

Table of Contents

Preface

Chapter 1 – Research of Geometrical and Electronic Structure of the Molecule of Papaverine by Method Ab Initio (The Nobel Prize 1947, Robert Robertson) (pp. 1-2)
V. A. Babkin, D. S. Andreev and V. S. Вelousova

Chapter 2 – Research of Geometrical and Electronic Structure of the Molecule of Lysergic Acid by Method MNDO (The Nobel Prize, Woodward R. B., 1965) (pp. 3-4)
V. A. Babkin, D. S. Andreev and V. S. Belousova

Chapter 3 – Research of Geometrical and Electronic Structure of the Molecule of a-glucose by Method MNDO (The Nobel Prize 1902, Fischer Emil) (pp. 5-6)
V. A. Babkin, D. S. Andreev and E. S. Titova

Chapter 4 – Research of Geometrical and Electronic Structure of Molecule of Smectic Liquid Crystal Erephthalbis(Para-Butylaniline) by Method MNDO (pp. 7-8)
V. A. Babkin, D. S. Andreev and E. S. Titova

Chapter 5 – Research of Geometrical and Electronic Structure of Molecule of Smectic Liquid Crystal Terephthalbis(Para-Butylaniline) by Method Ab Initio (pp. 9-10)
V. A. Babkin and D. S. Andreev

Chapter 6 – Estimation of Acid Force of Components of Synthesis 5-Acetyloxymethyl- 2-Chlorine-5- Ethyl-1,2,3-Dioxaphosphorynane (pp. 11-12)
V. A. Babkin, V. Yu. Dmitriev, G. A. Savin, E. S. Titova, and G. E. Zaikov

Chapter 7 – Estimation of Acid Force of 6-Methyperhydrotetralene (pp. 13-14)
V. A. Babkin, R. G. Fedunov, А. А. Оstrouxov, А. V. Кudryashov, and E. S. Titova

Chapter 8 – Estimation of Acid Force of 7-Methyperhydrotetralene (pp. 15-16)
V. A. Babkin, R. G. Fedunov, А. А. Оstrouxov, А. V. Кudryashov, and E. S. Titova

Chapter 9 – About the Geometrical and Electronic Structure of Моnоамinocarboxylic Acids (pp. 17-18)
V. A. Babkin, A. I. Rakhimov, А. V. Tsykanov, E. S. Titova, O. P. Buzinova, and G. E. Zaikov

Chapter 10 – Research of Geometrical and Electronic Structure of Molecules of Monomers of Cationic Polymerization Branched Out in Β-Position in Relation to Double Bond by Method Ab Initio (pp. 19-20)
V. A. Babkin, V. V. Galenkin and E. S. Titova

Chapter 11 – Research of Geometrical and Electronic Structure of Molecules of Monomers of Cationic Polymerization Branched Out in Β-Position in Relation to Double Bond by Method MNDO (pp. 21-22)
V. A. Babkin, V. V. Galenkin and E. S. Titova

Chapter 12 – Research of Geometrical and Electronic Structure of Molecule Cyclohexene by Method MNDO (pp. 23-24)
V. А. Babkin and А. B. Abduraimov

Chapter 13 – Research of Geometrical and Electronic Structure of Molecule 3-Methylcyclohexene by Method MNDO (pp. 25-26)
V. А. Babkin and А. B. Abduraimov

Chapter 14 – Research of Geometrical and Electronic Structure of Molecule Methylenecyclohexane by Method MNDO (pp. 27-28)
V. А. Babkin and А. B. Abduraimov

Chapter 15 – Research of Geometrical and Electronic Structure of Molecule Allylcyclopentane by Method MNDO (pp. 29-30)
V. А. Babkin and А. B. Abduraimov

Chapter 16 – Research of Geometrical and Electronic Structure of Molecule 4-Methylmethylenecyclohexane by Method MNDO (pp. 31-32)
V. А. Babkin and А. B. Abduraimov

Chapter 17 – Research of Geometrical and Electronic Structure of Molecule 3-Methylmethylenecyclohexane by Method MNDO (pp. 33-34)
V. А. Babkin and А. B. Abduraimov

Chapter 18 – Research of Geometrical and Electronic Structure of Molecule 3-Vinylcyclopentene by Method MNDO (pp. 35-36)
V. А. Babkin and А. B. Abduraimov

Chapter 19 – Research of Geometrical and Electronic Structure of Molecule 3-Allylcyclopentene by Method MNDO (pp. 37-38)
V. А. Babkin and А. B. Abduraimov

Chapter 20 – Research of Geometrical and Electronic Structure of Molecule 2-Methylmethylenecyclohexane by Method MNDO (pp. 39-40)
V. А. Babkin and А. B. Abduraimov

Chapter 21 – Research of Geometrical and Electronic Structure of Molecule 1-Methylcyclohexene by Method MNDO (pp. 41-42)
V. А. Babkin and А. B. Abduraimov

Chapter 22 – Research of Geometrical and Electronic Structure of Molecule 2,3-Dimethyl-1,3-Cyclopentadiene by Method MNDO (pp. 43-44)
V. А. Babkin and N. А. Azaryan

Chapter 23 – Research of Geometrical and Electronic Structure of Molecule 1,3-Dimethyl-1,3-Cyclopentadiene by Method MNDO (pp. 45-46)
V. А. Babkin and N. А. Azaryan

Chapter 24 – Research of Geometrical and Electronic Structure of Molecule 2-Methyl-1,3-Cyclopentadiene by Method MNDO (pp. 47-48)
V. А. Babkin and N. А. Azaryan

Chapter 25 – Research of Geometrical and Electronic Structure of Molecule 2,3-Dimethyl-1,3-Cyclopenadiene by Method Ab Initio (pp. 49-50)
V. А. Babkin and D. S. Andreev

Chapter 26 – Research of Geometrical and Electronic Structure of Molecule 1,3-Dimethyl-1,3-Cyclopenadiene by Method Ab Initio (pp. 51-52)
V. А. Babkin and D. S. Andreev

Chapter 27 – Research of Geometrical and Electronic Structure of Molecule 2-Methyl-1,3-Cyclopenadiene by Method Ab Initio (pp. 53-54)
V. А. Babkin and D. S. Andreev

Chapter 28 – Research of Geometrical and Electronic Structure of Molecule 2,4-Spiroheptane by Method MNDO (pp. 55-56)
V. A. Babkin and S. M. Shamin

Chapter 29 – Research of Geometrical and Electronic Structure of Molecule Spiropentane by Method MNDO (pp. 57-58)
V. A. Babkin and S. M. Shamin

Chapter 30 – Research of Geometrical and Electronic Structure of Molecule 1-Methylbicyclo [6, 1, 0] Nonane by Method MNDO (pp. 59-60)
V. A. Babkin and S. M. Shamin

Chapter 31 – Research of Geometrical and Electronic Structure of Molecule 2,6-Spirononane by Method Ab Initio (pp. 61-62)
V. A. Babkin and D. S. Andreev

Chapter 32 – Research of Geometrical and Electronic Structure of Molecule 2,5-Spirooctane by Method Ab Initio (pp. 63-64)
V. A. Babkin and D. S. Andreev

Chapter 33 – Research of Geometrical and Electronic Structure of Molecule 1-Methylbicyclo [6,1,0] Nonane by Method Ab Initio (pp. 65-66)
V. A. Babkin and D. S. Andreev

Chapter 34 – Research of Geometrical and Electronic Structure of Molecule 1-Methylbicyclo [6,1,0] Octane by Method Ab Initio (pp. 67-68)
V. A. Babkin and D. S. Andreev

Chapter 35 – Research of Geometrical and Electronic Structure of Molecule 3-Methylbicyclo [4,1,0] Heptane by Method Ab Initio (pp. 69-70)
V. A. Babkin and D. S. Andreev

Chapter 36 – Research of Geometrical and Electronic Structure of Molecule 2-Methylbicyclo [4,1,0] Heptane by Method Ab Initio (pp. 71-72)
V. A. Babkin and D. S. Andreev

Chapter 37 – Research of Geometrical and Electronic Structure of Molecule 8,8-Dichlorinebicyclo [5,1,0] Octane by Method Ab Initio (pp. 73-74)
V. A. Babkin and D. S. Andreev

Chapter 38 – Research of Geometrical and Electronic Structure of Molecule Para-Methylstyrene by Method MNDO (pp. 75-76)
V. A. Babkin and E. А. Kologrivko

Chapter 39 – Research of Geometrical and Electronic Structure of Molecule Styrene by Method MNDO (pp. 77-78)
V. A. Babkin and E. А. Kologrivko

Chapter 40 – Research of Geometrical and Electronic Structure of Molecule 2,5-Dichlorostyrene by Method MNDO (pp. 79-80)
V. А. Babkin and К. S. Мedvedeva

Chapter 41 – Research of Geometrical and Electronic Structure of Molecule 3,4-Dichlorostyrene by Method MNDO (pp. 81-82)
V. А. Babkin and К. S. Мedvedeva

Chapter 42 – Research of Geometrical and Electronic Structure of Molecule Meta – Chlorostyrene by Method MNDO (pp. 83-84)
V. А. Babkin and К. S. Мedvedeva

Chapter 43 – Research of Geometrical and Electronic Structure of Molecule Оrto-Chlorostyrene by Method MNDO (pp. 85-86)
V. А. Babkin and К. S. Мedvedeva

Chapter 44 – Research of Geometrical and Electronic Structure of Molecule Para-Chlorostyrene by Method MNDO (pp. 87-88)
V. А. Babkin and К. S. Мedvedeva

Chapter 45 – Research of Geometrical and Electronic Structure of Molecule 2-Isopropyl-5-Methylstyrene by Method Ab Initio (pp. 89-90)
V. A. Babkin and D. S. Andreev

Chapter 46 – Research of Geometrical and Electronic Structure of Molecule 5-Isopropyl-2-Methylstyrene by Method Ab Initio (pp. 91-92)
V. A. Babkin and D. S. Andreev

Chapter 47 – Research of Geometrical and Electronic Structure of Molecule 2,4-Dimethylstyrene by Method Ab Initio (pp. 93-94)
V. A. Babkin and D. S. Andreev

Chapter 48 – Research of Geometrical and Electronic Structure of Molecule О-Isopropylstyrene by Method Ab Initio (pp. 95-96)
V. A. Babkin and D. S. Andreev

Chapter 49 – Research of Geometrical and Electronic Structure of Molecule О-Methylstyrene by Method Ab Initio (pp. 97-98)
V. A. Babkin and D. S. Andreev

Chapter 50 – Research of Geometrical and Electronic Structure of Molecule P-Tret-Butylstyrene by Method Ab Initio (pp. 99-100)
V. A. Babkin and D. S. Andreev

Chapter 51 – Research of Geometrical and Electronic Structure of Molecule 2-Methyl-4-Methoxy-5-Isopropylstyrene by Method Ab Initio (pp. 101-102)
V. A. Babkin and D. S. Andreev

Chapter 52 – Research of Geometrical and Electronic Structure of Molecule Α, P-Dimethylstyrene by Method Ab Initio (pp. 103-104)
V. A. Babkin and D. S. Andreev

Chapter 53 – Research of Geometrical and Electronic Structure of Molecule 4,7-Dimethylindene by Method MNDO (pp. 105-106)
V. А. Babkin and D. М. Kolmak

Chapter 54 – Research of Geometrical and Electronic Structure of Molecule 2-Methylindene by Method MNDO (pp. 107-108)
V. А. Babkin and D. М. Kolmak

Chapter 55 – Research of Geometrical and Electronic Structure of Molecule 1-Methylindene by Method MNDO (pp. 109-110)
V. А. Babkin and D. М. Kolmak

Chapter 56 – Research of Geometrical and Electronic Structure of Molecule Indene by Method MNDO (pp. 111-112)
V. А. Babkin and D. М. Kolmak

Chapter 57 – Research of Geometrical and Electronic Structure of Molecule 1,3-Diphenylindene by Method MNDO (pp. 113-114)
V. А. Babkin and К. N. Sadukov

Chapter 58 – Research of Geometrical and Electronic Structure of Molecule 1-Phenylindene by Method MNDO (pp. 115-116)
V. А. Babkin and К. N. Sadukov

Chapter 59 – Research of Geometrical and Electronic Structure of Molecule 5-Vinylindene by Method MNDO (pp. 117-118)
V. А. Babkin and К. N. Sadukov

Chapter 60 – Research of Geometrical and Electronic Structure of Molecule 7-Methylindene by Method Ab Initio (pp. 119-120)
V. А. Babkin and D. S. Andreev

Chapter 61 – Research of Geometrical and Electronic Structure of Molecule 6-Methylindene by Method Ab Initio (pp. 121-122)
V. А. Babkin and D. S. Andreev

Chapter 62 – Research of Geometrical and Electronic Structure of Molecule 5-Methylindene by Method Ab Initio (pp. 123-124)
V. А. Babkin and D. S. Andreev

Chapter 63 – Research of Geometrical and Electronic Structure of Molecule 3-Methylindene by Method Ab Initio (pp. 125-126)
V. А. Babkin and D. S. Andreev

Chapter 64 – Research of Geometrical and Electronic Structure of Molecule О-Methoxyallylbenzol by Method MNDO (pp. 127-128)
V. А. Babkin and D. V. Jukov

Chapter 65 – Research of Geometrical and Electronic Structure of Molecule P-Methoxyallylbenzol by Method MNDO (pp. 129-130)
V. А. Babkin and D. V. Jukov

Chapter 66 – Research of Geometrical and Electronic Structure of Molecule 3-Phenylbutene-1 by Method MNDO (pp. 131-132)
V. А. Babkin, D. V. Jukov and E. S. Titova

Chapter 67 – Research of Geometrical and Electronic Structure of Molecule Allyltoluene by Method MNDO (pp. 133-134)
V. А. Babkin, D. V. Jukov and E. S. Titova

Chapter 68 – Sampling and Sample Preparation in Analytical Chemistry (pp. 135-136)
Jaroslava Švarc-Gajic

Chapter 69 – Biological Effects Induced by Benzpyrene in Soil and Plants (pp. 137-138)
Evgenia V. Yakovleva, Dmitriy N. Gabov, Vasiliy A. Beznosikov, Boris M. Kondratenok and Maria V. Aniskina

Chapter 70 – Benzo[a]pyrene and Colonic Cancer (pp. 139-140)
Atsushi Hakura and Jiro Sonoda

Chapter 71 – Bacterial Metabolism of Pyrene (pp. 141-142)
O. S. Obayori, M. O. Ilori and O. O. Amund

Chapter 72 – Low-Temperature Laser-Induced Fluorescence Studies of Various Biological Systems with Pyrene Chromophore (pp. 143-144)
Chen Lin, Ximao Feng and Ryszard Jankowiak

Chapter 73 – Photo-Energy and Electron Donating Ability of Pyrene (pp. 145-146)
Kazutaka Hirakawa

Chapter 74 – Synthesis of Novel Silylated Pyrene Units and Their Application as a Fluorescent Labeling Agent for Bioactive Components Such as Oligodna and Cholesterol (pp. 147-148)
Kazuo Shinozuka and Toshiyuki Takeuchi

Chapter 75 – Ginsenoside and Gintonin: One Root but Two Different Faces in Their Actions (pp. 149-150)
Seung-Yeol Nah

Chapter 76 – The Mediterranean Medicinal Plants: A Review of Glycosides and Their Pharmacological Effects (pp. 151-152)
Ludmila Yarmolinsky, Arie Budovsky, Jonathan Gorelick, Amir Kitron and Shimon Ben-Shabat

Chapter 77 – Synthesis and Physico-Chemical Properties of Benzimidazolone Derivatives with N-Bound Glycosidic Units (pp. 153-154)
Brahim Lakhrissi, Loubna Lakhrissi, Essassi El Mokhtar, Mohamed Massoui and Carlos Rodriguez-Abreu

Chapter 78 – Isoflavone C-Glycosides Isolated from the Root of Kudzu (Pueraria Lobata) and Their Estrogenic and Antimutagenic Activities (pp. 155-156)
Shin-ichi Kayano, Yoko Matsumura, Yoko Kitagawa, Mayumi Kobayashi, Asuka Nagayama, Nami Kawabata, Mayuka Tuchida, Minami Usuki, Hiroe Kikuzaki and Yoshimi Kitada

Chapter 79 – Motif-Based Exploration of the Glycoside Hydrolases Family 1 (pp. 157-158)
Hirokazu Suzuki

Chapter 80 – Change in the Composition of Saccharides in Rice Grains through Cooking and Digestion Using Synthetic Human Saliva (pp. 159-160)
Yasutaka Uda, Yoshiyuki Watanabe, Tomoki Matsugami, Akiko Fujita, Hiroshi Kanagawa, Kunimoto Takatsu, Koji Kawakami and Masato Nomura

Chapter 81 – Effects of Ultrasound Assisted Extraction of Water Soluble Constituents on Brazilian Ginseng Roots (pp. 161-162)
D. T. Santos, R. Vardanega, J. Q. Albarelli, R. B. Rabelo, M. M. Beppu and M. A. A. Meireles

Chapter 82 – New Ideas in the Field of Nanoelements Formation and Reactivity (pp. 163-166)
A. M. Lipanov and A. V. Vakhrushev

Chapter 83 – Synthesis of Thermoplastic Bio-Based Polyurethanes on the Base of Vegetable Oils (pp. 167-168)
C. Bueno-Ferrer, N. Burgos and A. Jiménez

Chapter 84 – Carvacrol and Thymol for Fresh Food Packaging (pp. 169-170)
Marina Ramos, Ana Beltrán, Arancha Valdés, Mercedes A. Peltzer, Alfonso Jiménez and María C. Garrigós

Chapter 85 – Some Properties of Small Water Clusters in Water-Starch Systems (pp. 171-172)
N. A. Grunina, G. I. Tsereteli, T. V. Belopolskaya, O. I. Smirnova and L. O. Rodriguez Castillo

Chapter 86 – Solubility of Aluminum Polyhydroxochloride in the Water-Acetone Solution (pp. 173-174)
V. F. Kablov, N. U. Bykadorov, O. K. Zhokhova, M. P. Spiridonova and D.A. Provotorova

Chapter 87 – Diversified Fenomena of Entropy (pp. 175-176)
G. А. Korablev, N. G. Petrova, R. G. Korablev, A. K. Osipov and G.E. Zaikov

Chapter 88 – Quantitative Calculation of Spatial-Energy Interactions Entropy (pp. 177-178)
G. А. Korablev, N. G. Petrova, R. G. Korablev and G. E. Zaikov

Chapter 89 – Bacterial Plasmids: Cloning of Multi-Copy CpG Motifs (pp. 179-180)
A. S. Korovashkina, S. V. Kvach and A. I. Zinchenko

Chapter 90 – Using Full-Length Diguanylate Cyclase of Thermotoga Maritime for Enzymatic Synthesis of 3′,5′-Cyclic Diguanylate (pp. 181-182)
A. S. Korovashkina, S. V. Kvach, M. V. Kvach, A. N. Rymko and А. I. Zinchenko

Chapter 91 – The Segmental and Translational Movements of Polystyrene into Solutions: Investigation of Kinetic Parameters (pp. 183-184)
Yuriy Medvedevskikh and Oksana Khavunko

Chapter 92 – Interaction of Hydroxy Organocyclotetrasiloxanes with Propyl Butyrate Side Groups and Polymer Electrolyte Membranes on their Basis: Ring Opening Polymerization Reactions (pp. 185-186)
T. Tatrishvili, E. Markarashvili, I. Esartia, J. Aneli, G.E. Zaikov and O. Mukbaniani

Chapter 93 – UV-Protective Properties of Nanocomposites Films Based on Low Density Polyethylene (pp. 187-188)
A. A. Olkhov, S. V. Romanov, A. A. Ischenko and G. E. Zaikov

Chapter 94 – Biodegradable Compositions of Starch with Synthetic Polymers and Natural Polysaccharides: Production, Morphology and Properties (pp. 189-190)
S. Z. Rogovina, K. V. Aleksanyan and E. V. Prut

Chapter 95 – Kinetics and Mechanism of the Chemically Modificated Starches during Gelatinization (pp. 191-192)
A. I. Sergeev, N. G. Shilkina, L. A. Wasserman and H. Staroszczyk

Chapter 96 – Investigation of Ethylene Copolymers Silanol Modification (pp. 193-194)
S. N. Rusanova, O. V. Stoyanov, A. B. Remizov, A. O. Yanaeva, V. K. Gerasimov, A. E. Chalykh and G. E. Zaikov

Chapter 97 – Determining the Surface Free Energy Parameters (pp. 195-196)
A. Starostina, O. V. Stoyanov, N. V. Makhrova, G. E. Zaikov and R. Ya. Deberdeev

Chapter 98 – Investigation of Ethylene–Vinylacetate Copolymers Binary Mixtures Structure (pp. 197-198)
O. V. Stoyanov, R. M. Khuzakhanov, L. F. Stoyanova, V. K. Gerasimov, A. E. Chalykh, A. D. Aliev, M. V. Vokal and G.E. Zaikov

Chapter 99 – Еffect of Melaphen on a Mitochondria of Sprouts of Peas under Stressful Influences by the AFM Method (pp. 199-200)
V. I. Binyukov, E. M. Mil, I. V. Zhigacheva, A. A. Albantova, I. P. Generozova and A. G. Shugaev

Chapter 100 – Effect of External Influences on the Structural and Dynamic Parameters of Polyhydroxybutyrate– Hydroxyvalerate -Based Biocomposites (pp. 201-202)
S. G. Karpova, A. L. Iordanskii, A. A. Popov, N. G. Shilkina, S. M. Lomakin, M. A. Shcherbinа, S. N. Chvalun and A. A. Berlin

Chapter 101 – Composite Materials Based on LDPE with the Addition of Wood Flour and Rubbers of Different Nature (pp. 203-204)
A. V. Koroleva, Yu. K. Lukanina, A. V. Khvatov, N. N. Kolesnikova, P. V. Pantiukhov, A. A. Olkhov and A. A. Popov

Chapter 102 – Fungicidal Influence of Ions of Сu2+ on Microorganisms as a Way of Biocorrosion Protection of Metal Constructions (pp. 205-206)
Yu. K. Lukanina, N. N. Kolesnikova, A. V. Khvatov, А. N. Likhachev and А. А. Popov

Chapter 103 – Interfacial Rheology of Hen Egg White Lysozyme-5-methylresorcinol Mixtures and their Foaming Properties (pp. 207-208)
E. I. Martirosova and I. G. Plashchina

Chapter 104 – Structure and Thermophysical Properties of Blends Based on Isotactic Polypropylene and Low-Density Polyethylene (pp. 209-210)
E. E. Mastalygina, S. G. Karpova, N. N. Kolesnikova, U. K. Lukanina and A. A. Popov

Chapter 105 – Investigating the Effect of Fungi on Thin Films of Polyethylene, Polyethylene–Poly-3-Hydroxybutyrate and Polyethylene–d2w (pp. 211-212)
Yu. V. Tertyshnaya, S. Dempsey and A. A. Popov

Chapter 106 – Determination of the Identity of the Signs of Natural Pomegranate Juice (pp. 213-214)
E. A. Barishovets and L. G. Eliseeva

Chapter 107 – Influence of Carbon Nanofibers on the Structure and Properties of Vulcanized EPDM (pp. 215-216)
M. M. Ryabenko, V. D. Yulovskaya and B. V. Peshnev

Chapter 108 – Determination Diffusion Coefficient of Brownian Particles Using Velocity or Force Autocorrelation Function in Molecular Dynamic Simulations (pp. 217-218)
D. A. Turchenkov

Chapter 109 – In Silico Simulation of Silver and Copper Ions Interacting with Fungal Cell Wall: In Vitro Antifungal Activity of Copper Ions and Silver Ions (pp. 219-220)
M. A. Turchenkov

Chapter 110 – The Estimation of Antioxidants as Nuts Quality Index (pp. 221-222)
O. V. Yurina and L. G. Eliseeva

Chapter 111 – Structure of Soluble Unlinked and Cross-Linked Fibrin Oligomers (pp. 223-224)
M. A. Rosenfeld, V. B. Leonova, M. I. Biryukova, E. A. Kostanova and M. V. Vasileva

Chapter 112 – Kinetics and Mechanism of the Ozone Reaction with Alcohols, Ketones, Ethers and Hydroxybenzenes (pp. 225-226)
Slavcho Kirillov Rakovsky, Metody Anachkov, Mikhail M. Belitskii and G.E. Zaikov

Chapter 113 – The Mechanism of the Selective Ethylbenzene Oxidation, Catalyzed with Triple Binuclear Metallocomplex Catalysts, Including Ni and Redox-Inactive Metal Na (or Li): Nanostructures {NiII(acac)2·NaSt (or LiSt)·(PhOH)}n Formation Due to Intermolecular H-Bonds (pp. 227-228)
L. I. Matienko, V. I. Binyukov, L. A. Mosolova and G. E. Zaikov

Chapter 114 – Effect of the Stereometry on the Reactivity of Terpenephenols and their Phenoxyl Radicals in the Initiated Oxidation Reactions (pp. 229-230)
L. I. Mazaletskaya, N. I. Sheludchenko, L. B. Dudnik and L. N. Shishkina

Chapter 115 – Health Benefits of Nongallated and Gallated Flavan-3-ols: A Prospectus (pp. 231-232)
Luís R. Silva and Rui Costa

Chapter 116 – Epigallocatechin-3-Gallate, GRP78 and Unfolded Protein Response (pp. 233-234)
Simona Martinotti, Bruno Burlando and Elia Ranzato

Chapter 117 – Antioxidant and Cytoprotective Effects of Gallates (pp. 235-236)
Sandhya Khurana, Collin J. Byrne, Krishnan Venkataraman, Aseem Kumar and T. C. Tai

Chapter 118 – Role of Gallates on the Inflammatory Process (pp. 237-238)
Susana Gorzalczany and María Laura Anzoise

Chapter 119 – Influence of the Nature and Concentration of Dia – and Paramagnetic Doping Elements on Electron Structure and Electrophysical Properties of Doped Lanthanum Gallate (pp. 239-240)
N. Chezhina, D. Korolev and E. Zharikova

Chapter 120 – Therapeutic Potential of Gallic Acid and Its Derivatives: A Review (pp. 241-242)
M. Shalini, T. Kalaivani and C. Rajasekaran

Chapter 121 – Preparation of Zirconium Oxide Thin Film by Plasma Coating Method and Its Hydrophobic Nature (pp. 243-244)
Yasunori Ohtsu

Chapter 122 – Cellulose Fibers Coated Zirconium Oxide: Characteristics, Technology and Performance (pp. 245-246)
Daniella R. Mulinari, Paulo Henrique F. Pereira and Juliana M. Resende

Chapter 123 – Zirconium and Potassium Promoted Cobalt Molybdenum Carbide as an Active Water-Gas Shift Catalyst (pp. 247-248)
Masatoshi Nagai, Amin Md. Zahidul and Yutaka Kunisaki

Chapter 124 – Modification Effects on Electrical and Diffusive Parameters for Different Zirconium-Based Permselective Systems (pp. 249-250)
J. Benavente, R. de Lara, R. Piazuelo, V. Romero, J. Jiménez-Jiménez and E. Rodríguez-Castellón

Chapter 125 – Zirconia and Allumina Bioceramic Biocompatibility (pp. 251-252)
G. Maccauro, P. Rossi Iommetti, P. F. Manicone and L. Raffaelli

Chapter 126 – Preparation and Properties of Zirconia Nanocrystalline Ceramics (pp. 253-254)
Litian Hu and Yongsheng Zhang