Table of Contents

Table of Contents

Preface

Chapter 1 – Research of Geometrical and Electronic Structure of the Molecule of Cyclohexane by Method MNDO (pp. 1-2)
V. A. Babkin and D. S. Andreev

Chapter 2 – Research of Geometrical and Electronic Structure of the Molecule of Ammonia by Method MNDO (pp. 3-4)
V. A. Babkin and D. S. Andreev

Chapter 3 – Research of Geometrical and Electronic Structure of the Molecule of Purine by Method MNDO (pp. 5-6)
V. A. Babkin and D. S. Andreev

Chapter 4 – Research of Geometrical and Electronic Structure of the Molecule of Benzylpenicillin by Method MNDO (pp. 7-8)
V. A. Babkin and D. S. Andreev

Chapter 5 – Research of Geometrical and Electronic Structure of Molecule of Cholesteric Liquid Crystal Amyl-PARA- (4-Cyanobenzylidenamino)-Cinnamat by Method MNDO (pp. 9-10)
V. A. Babkin and D. S. Andreev

Chapter 6 – Research of Geometrical and Electronic Structure of Molecule of Cholesteric Liquid Crystal Amyl-PARA-(4- Cyanobenzylidenamino)-Cinnamat by Method Ab Initio (pp. 11-12)
V. A. Babkin and D. S. Andreev

Chapter 7 – Estimation of Acid Force of Components of Synthesis 1-[2-(О-Acetylmethyl)-3-О-Acetyl-2- Ethyl]- Methyldichlorinephosphite (pp. 13-14)
V. A. Babkin, V. Yu. Dmitriev, G. A. Savin and G. E. Zaikov

Chapter 8 – About the Geometrical and Electronic Structure Molecule Gopane (pp. 15-16)
V. A. Babkin, R. G. Fedunov and А. А. Оstrouxov

Chapter 9 – About the Geometrical and Electronic Structure Molecule Diagopane (pp. 17-18)
V. A. Babkin, R. G. Fedunov and А. А. Оstrouxov

Chapter 10 – Research of Geometrical and Electronic Structure of О – allyl Ethers (pp. 19-20)
V. A. Babkin, А. V. Tsykanov and O. P. Buzinova

Chapter 11 – Research of Geometrical and Electronic Structure of Molecules of Monomers of Cationic Polymerization, Branched out in γ -, δ-, ε- Position in Relation to Double Bond by Method Ab Initio (pp. 21-22)
V. A. Babkin and D. S. Andreev

Chapter 12 – Research of Geometrical and Electronic Structure of Molecules of Monomers of Cationic Polymerization, Branched out in γ -, δ-, ε- Position in Relation to Double Bond by Method MNDO (pp. 23-24)
V. A. Babkin and D. S. Andreev

Chapter 13 – Quantum-Chemical Studying of the Mechanism of Protonation of Alicyclic Olefin Cationic Polymerization 3- Methylmethylenecyclohexane (pp. 25-26)
V. A. Babkin, V. Yu. Dmitriev and G. E. Zaikov

Chapter 14 – Estimation of Acid Force of Isoolefins (pp. 27-28)
V. A. Babkin, D. A. Frolov, Yu. A. Sangalov and G. E. Zaikov

Chapter 15 – Research of Geometrical and Electronic Structure of Molecule Allylcyclohexane by Method Ab Initio (pp. 29-30)
V. А. Babkin and D. S. Andreev

Chapter 16 – Research of Geometrical and Electronic Structure of Molecule Vinylcyclohexane by Method Ab Initio (pp. 31-32)
V. А. Babkin and D. S. Andreev

Chapter 17 – Research of Geometrical and Electronic Structure of Molecule 4-Methylmethylenecyclohexane by Method Ab Initio (pp. 33-34)
V. А. Babkin and D. S. Andreev

Chapter 18 – Research of Geometrical and Electronic Structure of Molecule Methylenecyclopentane by Method Ab Initio (pp. 35-36)
V. А. Babkin and D. S. Andreev

Chapter 19 – Research of Geometrical and Electronic Structure of Molecule 1-Methylcyclopentene by Method Ab Initio (pp. 37-38)
V. А. Babkin and D. S. Andreev

Chapter 20 – Research of Geometrical and Electronic Structure of Molecule 3-Methylcyclopentene by Method Ab Initio (pp. 39-40)
V. А. Babkin and D. S. Andreev

Chapter 21 – Research of Geometrical and Electronic Structure of Molecule Cyclopentene by Method Ab Initio (pp. 41-42)
V. А. Babkin and D. S. Andreev

Chapter 22 – Research of Geometrical and Electronic Structure of Molecule Methylenecyclopentene by Method Ab Initio (pp. 43-44)
V. А. Babkin and D. S. Andreev

Chapter 23 – Research of Geometrical and Electronic Structure of Molecule 1,2-Dicyclopropylethylene by Method Ab Initio (pp. 45-46)
V. А. Babkin and D. S. Andreev

Chapter 24 – Research of Geometrical and Electronic Structure of Molecule Isopropenylcyclopropane by Method Ab Initio (pp. 47-48)
V. А. Babkin and D. S. Andreev

Chapter 25 – Research of Geometrical and Electronic Structure of Molecule Vinylcyclopropane by Method Ab Initio (pp. 49-50)
V. А. Babkin and D. S. Andreev

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

Chapter 27 – Research of Geometrical and Electronic Structure of Molecule 1-Methyl-1,3-Cyclopentadiene by Method MNDO (pp. 53-54)
V. А. Babkin and N. А. Azaryan

Chapter 28 – Research of Geometrical and Electronic Structure of Molecule 1,3-Cyclopentadiene by Method MNDO (pp. 55-56)
V. А. Babkin and N. А. Azaryan

Chapter 29 – Research of Geometrical and Electronic Structure of Molecule 1-Methyl-3-Methylenecyclobutene by Method MNDO (pp. 57-58)
V. А. Babkin and N. А. Azaryan

Chapter 30 – Research of Geometrical and Electronic Structure of Molecule 3-Methylenecyclobutene by Method MNDO (pp. 59-60)
V. А. Babkin and N. А. Azaryan

Chapter 31 – Research of Geometrical and Electronic Structure of Molecule 1-Methyl-1,3-Cyclopenadiene by Method Ab Initio (pp. 61-62)
V. А. Babkin and D. S. Andreev

Chapter 32 – Research of Geometrical and Electronic Structure of Molecule 1,3-Cyclopenadiene by Method Ab Initio (pp. 63-64)
V. А. Babkin and D. S. Andreev

Chapter 33 – Research of Geometrical and Electronic Structure of Molecule 1-Methyl-3-Methylene-1,3-Cyclobutene by Method Ab Initio (pp. 65-66)
V. А. Babkin and D. S. Andreev

Chapter 34 – Research of Geometrical and Electronic Structure of Molecule 1-Methylbicyclo[6,1,0]Octane by Method MNDO (pp. 67-68)
V. А. Babkin and S. М. Shamin

Chapter 35 – Research of Geometrical and Electronic Structure of Molecule 3-Methylbicyclo[4,1,0]Heptane by Method MNDO (pp. 69-70)
V. А. Babkin and S. М. Shamin

Chapter 36 – Research of Geometrical and Electronic Structure of Molecule 2-Methylbicyclo[4,1,0]Heptane by Method MNDO (pp. 71-72)
V. А. Babkin and S. М. Shamin

Chapter 37 – Research of Geometrical and Electronic Structure of Molecule 1-Methylbicyclo[4,1,0]Heptane by Method MNDO (pp. 73-74)
V. А. Babkin and S. М. Shamin

Chapter 38 – Research of Geometrical and Electronic Structure of Molecule 2-Phenyl-1,1-Dichlorinecyclopropane by Method Ab Initio (pp. 75-76)
V. A. Babkin and D. S. Andreev

Chapter 39 – Research of Geometrical and Electronic Structure of Molecule Isopropylcyclobutane by Method Ab Initio (pp. 77-78)
V. A. Babkin and D. S. Andreev

Chapter 40 – Research of Geometrical and Electronic Structure of Molecule Ethylcyclobutane by Method Ab Initio (pp. 79-80)
V. A. Babkin and D. S. Andreev

Chapter 41 – Research of Geometrical and Electronic Structure of Molecule Methylcyclobutane by Method Ab Initio (pp. 81-82)
V. A. Babkin and D. S. Andreev

Chapter 42 – Research of Geometrical and Electronic Structure of Molecule Bicyclo[6,1,0]Nonene-4 by Method Ab Initio (pp. 83-84)
V. A. Babkin and D. S. Andreev

Chapter 43 – Research of Geometrical and Electronic Structure of Molecule 1-Methyl-7.7-Dichlorobicyclo[4,1,0]Heptane by Method Ab Initio (pp. 85-86)
V. A. Babkin and D. S. Andreev

Chapter 44 – Research of Geometrical and Electronic Structure of Molecule 1-Methyl-6,6-Dichlorobicyclo[3,1,0]Hexane by Method Ab Initio (pp. 87-88)
V. A. Babkin and D. S. Andreev

Chapter 45 – Research of Geometrical and Electronic Structure of Molecule 9,9-Dichlorobicyclo[5,1,0]Nonane by Method Ab Initio (pp. 89-90)
V. A. Babkin and D. S. Andreev

Chapter 46 – Research of Geometrical and Electronic Structure of Molecule P-Fluorostyrene by Method MNDO (pp. 91-92)
V. А. Babkin and К. S. Мedvedeva

Chapter 47 – Research of Geometrical and Electronic Structure of Molecule 2,6-Dimethyl-4-Tert-Butylstyrene by Method MNDO (pp. 93-94)
V. А. Babkin and К. S. Мedvedeva

Chapter 48 – Research of Geometrical and Electronic Structure of Molecule Vinylmesitylene by Method MNDO (pp. 95-96)
V. А. Babkin and К. S. Мedvedeva

Chapter 49 – Research of Geometrical and Electronic Structure of Molecule 2-Isopropyl-5-Methylstyrene by Method MNDO (pp. 97-98)
V. А. Babkin and К. S. Мedvedeva

Chapter 50 – Research of Geometrical and Electronic Structure of Molecule P-Bromostyrene by Method MNDO (pp. 99-100)
V. А. Babkin and К. S. Мedvedeva

Chapter 51 – Research of Geometrical and Electronic Structure of Molecule Cis -α,β-Dimethylstyrene by Method MNDO (pp. 101-102)
V. А. Babkin and D. S. Andreev

Chapter 52 – Research of Geometrical and Electronic Structure of Molecule Trans-α,β-Dimethylstyrene by Method MNDO (pp. 103-104)
V. А. Babkin and D. S. Andreev

Chapter 53 – Research of Geometrical and Electronic Structure of Molecule 2,5-Dimethoxystyrene by Method Ab Initio (pp. 105-106)
V. A. Babkin and D. S. Andreev

Chapter 54 – Research of Geometrical and Electronic Structure of Molecule М-Methoxystyrene by Method Ab Initio (pp. 107-108)
V. A. Babkin and D. S. Andreev

Chapter 55 – Research of Geometrical and Electronic Structure of Molecule О-Methoxystyrene by Method Ab Initio (pp. 109-110)
V. A. Babkin and D. S. Andreev

Chapter 56 – Research of Geometrical and Electronic Structure of Molecule P-Methoxystyrene by Method Ab Initio (pp. 111-112)
V. A. Babkin and D. S. Andreev

Chapter 57 – Quantum Chemical Calculation of Molecule М-Oxystyrene by Method Ab Initio (pp. 113-114)
V. A. Babkin and D. S. Andreev

Chapter 58 – Research of Geometrical and Electronic Structure of Molecule O-Oxystyrene by Method Ab Initio (pp. 115-116)
V. A. Babkin and D. S. Andreev

Chapter 59 – Research of Geometrical and Electronic Structure of Molecule P- Oxystyrene by Method Ab Initio (pp. 117-118)
V. A. Babkin and D. S. Andreev

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

Chapter 61 – Research of Geometrical and Electronic Structure of Molecule 2,5-Dichlorstyrene by Method Ab Initio (pp. 121-122)
V. A. Babkin and D. S. Andreev

Chapter 62 – Research of Geometrical and Electronic Structure of Molecule 3,4,5,6,7-Pentamethylindene by Method MNDO (pp. 123-124)
V. А. Babkin and К. N. Sadukov

Chapter 63 – Research of Geometrical and Electronic Structure of Molecule 4,5,6,7-Tetramethylindene by Method MNDO (pp. 125-126)
V. А. Babkin and К. N. Sadukov

Chapter 64 – Research of Geometrical and Electronic Structure of Molecule 4,6,7-Trimethylindene by Method MNDO (pp. 127-128)
V. А. Babkin and К. N. Sadukov

Chapter 65 – Research of Geometrical and Electronic Structure of Molecule 6,7-Dimethylindene by Method MNDO (pp. 129-130)
V. А. Babkin and К. N. Sadukov

Chapter 66 – Research of Geometrical and Electronic Structure of Molecule 5,7-Dimethylindene by Method MNDO (pp. 131-132)
V. А. Babkin and К. N. Sadukov

Chapter 67 – Research of Geometrical and Electronic Structure of Molecule 5,6-Dimethylindene by Method MNDO (pp. 133-134)
V. А. Babkin and К. N. Sadukov

Chapter 68 – Research of Geometrical and Electronic Structure of Molecule 4,6-Dimethylindene by Method MNDO (pp. 135-136)
V. А. Babkin and К. N. Sadukov

Chapter 69 – Research of Geometrical and Electronic Structure of Molecule 2-Methylindene by Method Ab Initio (pp. 137-138)
V. А. Babkin and D. S. Andreev

Chapter 70 – Research of Geometrical and Electronic Structure of Molecule 1-Methylindene by Method Ab Initio (pp. 139-140)
V. А. Babkin and D. S. Andreev

Chapter 71 – Research of Geometrical and Electronic Structure of Molecule Indene by Method Ab Initio (pp. 141-142)
V. А. Babkin and D. S. Andreev

Chapter 72 – Research of Geometrical and Electronic Structure of Molecule 1-Indenylindene by Method Ab Initio (pp. 143-144)
V. А. Babkin and D. S. Andreev

Chapter 73 – Research of Geometrical and Electronic Structure of Molecule 9-Vinylanthracene by Method MNDO (pp. 145-146)
V. А. Babkin and I. А. Аkimov

Chapter 74 – Research of Geometrical and Electronic Structure of Molecule 5-Methylacenaphthylene by Method MNDO (pp. 147-148)
V. А. Babkin and I. А. Аkimov

Chapter 75 – Research of Geometrical and Electronic Structure of Molecule 3-Methylacenaphthylene by Method MNDO (pp. 149-150)
V. А. Babkin and I. А. Аkimov

Chapter 76 – Research of Geometrical and Electronic Structure of Molecule 1-Methylacenaphthylene by Method MNDO (pp. 151-152)
V. А. Babkin and I. А. Аkimov

Chapter 77 – Research of Geometrical and Electronic Structure of Molecule Acenaphthylene by Method MNDO (pp. 153-154)
V. А. Babkin and I. А. Аkimov

Chapter 78 – Research of Geometrical and Electronic Structure of Molecule 1-Vinylpyrene by Method MNDO (pp. 155-156)
V. А. Babkin and I. А. Аkimov

Chapter 79 – Classic Nanotechnologes of Applied Quantum Chemistry (pp. 157-158)
V.A. Babkin and G.E. Zaikov

Chapter 80 – Nanotechnologes of Applied Quantum Chemistry of Homogeneous and Heterogeneous Molecular Systems (pp. 159-160)
V.A. Babkin, S.P. Belousov and G.E. Zaikov

Chapter 81 – The General Algorithm of Nanotechnology (pp. 161-162)
V.A. Babkin, S.P. Belousov and G.E. Zaikov

Chapter 82 – Ionic Liquids: Opportunities for Science and Technology: Overview and Highlights (pp. 163-164)
Ignacio López, José Luis Bravo and Guadalupe Silvero

Chapter 83 – The Role of Ionic Liquids in (Bio) Chemical Measurement Processes (pp. 165-166)
Rafael Lucena, Soledad Cárdenas and Miguel Valcárcel

Chapter 84 – Applications of Ionic Liquids in Polymer Science and Technology (pp. 167-168)
David Mecerreyes, Markus Döbbelin and Rebeca Marcilla

Chapter 85 – Ionic Liquids as Neoteric Solvents for Liquid-Liquid Extraction (pp. 169-170)
Julián García

Chapter 86 – Extraction Methods of Biophenols (pp. 171-172)
María González-Miquel, Virginia Alonso and Francisco Rodriguez

Chapter 87 – Ionic Liquids Applications in Biorefinery (pp. 173-174)
Mercedes Oliet, Ana Casas and Juan C. Domínguez

Chapter 88 – The Effects of Strontium on Physiology, Pharmacology and Toxicity of the Human (pp. 175-176)
Hanjie Ying, Qi Zhang and Bo Ma

Chapter 89 – Trace and Minor Element Chemistry of Modern Shark Teeth and Implications for Shark Tooth Geochronometry (pp. 177-178)
Jesse John, David E. Seidemann, John A. Chamberlain, Jr., Zhongqi Cheng, and Martin A. Becker

Chapter 90 – The Physical, Chemical and Biological Roles of Strontium in Bone Regeneration Materials (pp. 179-180)
Qianbin Wang and Changxiu Wan

Chapter 91 – Mammalian Oocyte Activation with Strontium Chloride for Parthenogenesis, Somatic Cell Nuclear Transfer and Intracytoplasmic Sperm Injection (pp. 181-182)
Simone Cristina Méo Niciura

Chapter 92 – Strontium and Dental Caries (pp. 183-184)
Toshiko Tanaka

Chapter 93 – Strontium Isotope Ratio (87Sr/86Sr) Analysis in Past Population Residential Mobility and Migration Studies: Snails as Local Bioavailable 87Sr/86Sr Tracers (pp. 185-186)
Argyro Nafplioti

Chapter 94 – Concentration Distribution of Emerging Pollutant Strontium in Food and Environmental Samples in Taiwan (pp. 187-188)
Wu-Jang Huang, Chung-Yu Wu and Meei-Fang Shue

Chapter 95 – Lanthanum Strontium Manganites for Application as Cathodes in Solid Oxide Fuel Cells (pp. 189-190)
Mariana M. V. M. Souza and Leandro da Conceição

Chapter 96 – The Significance of Corrosion in Titanium-Based Alloys for Industrial Applications (pp. 191-192)
I. Gurrappa, I. V. S. Yashwanth, A. K. Gogia and J. S. Burnell-Gray

Chapter 97 – Thermomechanical Processing (TMP) and Strain-Induced Phase Transformation in Titanium Alloys (pp. 193-194)
Ali Dehghan-Manshadi and Rian J. Dippenaar

Chapter 98 – Selective Laser Melting of Ti-24Nb-4Zr-8Sn Alloy for Biomedical Applications (pp. 195-196)
Lai-Chang Zhang, Hooyar Attar and Chao Yang

Chapter 99 – Selective Laser Melting Commercially Pure Titanium: Densification, Microstructure and Wear Performance (pp. 197-198)
Dongdong Gu

Chapter 100 – Fabrication and Characterization of Porous Beta Titanium Alloy (pp. 199-200)
Liqiang Wang, Xiaoxing Cheng, Yue Li, Kelvin Wai Kwok Yeung, Weijie Lu, Jining Qin and Di Zhang

Chapter 101 – Influence of Oxygen Addition on Microstructure and Mechanical Properties of TiNbTaZr Beta Titanium Alloy (pp. 201-202)
Liqiang Wang, Weijie Lu, Zhengjie Lin, Minmin Wang, Qianqian Wei, Jining Qin and Di Zhang

Chapter 102 – Fabrication of Titanium-Based Biomaterial by Spark Plasma Sintering and Crystallization of the Amorphous Phase (pp. 203-204)
Chao Yang, Li-Ming Zou, Yu-Hua Li and Yuan-Yuan Li

Chapter 103 – Fabrication and Corrosion of Ti-Based Metallic Glasses (pp. 205-206)
Fengxiang Qin, Guoqiang Xie, Shengli Zhu, Xinmin Wang and Zhenhua Dan

Chapter 104 – Titanium-Based Bulk Metallic Glass Matrix Composite (pp. 207-208)
Yong-Sheng Wang, Yong Zhang, Guo-Jian Hao and Jun-Pin Lin

Chapter 105 – Fabrication of Titanium-Based Composites by Spark Plasma Sintering and Crystallization of the Amorphous Phase (pp. 209-210)
Chao Yang, Le-Hua Liu and Lai-Chang Zhang

Chapter 106 – High-Strength Ultrafine-Grained Titanium-Based Alloys with Large Plasticity (pp. 211-212)
Lai-Chang Zhang

Chapter 107 – An Exploration of Vintage Fashion Retailing (pp. 213-214)
Julie McColl, Catherine Canning, Louise McBride, Karina Nobbs and Linda Shearer

Chapter 108 – Developing Sustainable Design on Denim Ready-Made Apparels by Stone and Enzymatic Washing (pp. 215-216)
Md. Ibrahim H. Mondal and Md. Mashiur Rahman Khan

Chapter 109 – Digital Textile Printing Using Color Management (pp. 217-218)
Dejana Javoršek, Primož Weingerl and Marica Starešinič

Chapter 110 – Inkjet Printed Photo-Responsive Textiles for Conventional and High-Tech Applications (pp. 219-220)
Shah M. Reduwan Billah

Chapter 111 – Synthesis and Grafting of Cellulose Derivatives from Cellulosic Wastes of the Textile Industry (pp. 221-222)
Md. Ibrahim H. Mondal and A. B. M. Fakrul Alam

Chapter 112 – History, synthesis and Properties of azo pyridone dyes (pp. 223-224)
Dušan Ž. Mijin, Gordana S. Ušćumlić and Nataša V. Valentić

Chapter 113 – Smart Textiles and the Effective Uses of Photochromic, Thermochromic, Ionochromic and Electrochromic Molecular Switches (pp. 225-226)
Shah M. Reduwan Billah

Chapter 114 – Smart Textiles (pp. 227-228)
Ali Akbar Merati

Chapter 115 – Overview of Textiles Excavated in Greece (pp. 229-230)
Christina Margariti, Stavroula Moraitou and Maria Retsa

Chapter 116 – Innovative Ag-Textiles Prepared by Colloidal, Conventional Sputtering and HIPIMS Including Fast Bacterial Inactivation: Critical Issues (pp. 231-232)
Sami Rtimi, Cesar Pulgarin, Rosendo Sanjines and John Kiwi

Chapter 117 – Fungal Deterioration of Aged Textiles (pp. 233-234)
Katja Kavkler, Nina Gunde-Cimerman, Polona Zalar and Andrej Demšar

Chapter 118 – Durability of Functionalized Textiles by Microcapsules (pp. 235-236)
Lucia Capablanca, Pablo Monllor, Pablo Díaz and Maria Ángeles Bonet

Chapter 119 – New Approaches and Applications on Cellulosic Fabric Crosslinking (pp. 237-238)
Eva Bou-Belda, Maria Ángeles Bonet, Pablo Monllor, Pablo Díaz, Ignacio Montava and Jaime Gisbert

Chapter 120 – Wrinkle Resistant and Comfort Finishing of Cotton Textiles (pp. 239-240)
Vahid Ameri Dehabadi and Hans-Jürgen Buschmann

Chapter 121 – Evaluation of Physical and Thermal Comfort Properties of Copper/Alginate Treated Wool Fabrics by Using Ultrasonic Energy (pp. 241-242)
Muhammet Uzun

Chapter 122 – Hemp Fibers: Old Fibers – New Applications (pp. 243-244)
Mirjana Kostic, Marija Vukcevic, Biljana Pejic and Ana Kalijadis

Chapter 123 – Textiles Using Electronic Applications (pp. 245-246)
Marica Starešinič, Andrej Javoršek and Dejana Javoršek

Chapter 124 – Textiles for Cardiac Care (pp. 247-248)
Narayanan Gokarneshan, Palaniappan P. Gopalakrishnan, Venkatachalam Rajendran and Dharmarajan Anita Rachel

Chapter 125 – Effect of Clothing Materials on Thermoregulatory Responses of the Human Body (pp. 249-250)
P. Kandha Vadivu

Chapter 126 – Designing of Jute–Based Thermal Insulating Materials and Their Properties (pp. 251-252)
Sanjoy Debnath

Chapter 127 – Effects of Ring Flange Type, Traveler Weight and Coating on Cotton Yarn Properties (pp. 253-254)
Muhammet Uzun and Ismail Usta

Chapter 128 – Optical Fiber Examination by Confocal Laser Scanning Microscopy (pp. 255-256)
Andrea Ehrmann

Chapter 129 – Spectroscopic Techniques for High Sensitivity Heavy Metal Detection in the Liquid Phase (pp. 257-258)
Robert Fedosejevs, Yogesh Godwal, Zhijiang Chen, Shyama Banerjee and Ying Tsui

Chapter 130 – Application of Laser Induced Breakdown Spectroscopy (LIBS) to Carbon Sequestration Research and Development (pp. 259-260)
Dustin L. McIntyre, Jinesh C. Jain, Christian L. Goueguel and Jagdish Prasad Singh

Chapter 131 – Laser Spectroscopy for Nuclear Applications (pp. 261-262)
M. L. Shah, A. K. Pulhani, G. P. Gupta and B. M. Suri

Chapter 132 – Photoacoustic and Photothermal Detection of Explosives and Harmful Chemicals (pp. 263-264)
Surya Narayan Thakur

Chapter 133 – Monitoring of Energetic Materials Using LIBS (pp. 265-266)
Shikha Rai, A. K. Pathak, A. K. Rai, B. K. Ghosh and S. N. Thakur

Chapter 134 – Applied Microwave Rotational Spectroscopy (pp. 267-268)
K. P. Rajappan Nair and Jens-Uwe Grabow

Chapter 135 – Detection of Explosives and Hazardous Chemicals: Various Facets of Raman Spectroscopy (pp. 269-270)
Sanchita Sil and Siva Umapathy

Chapter 136 – Vanadium Oxides for Energy and Security Applications (pp. 271-272)
Chiranjivi Lamsal and N. M. Ravindra

Chapter 137 – Spectroscopic Techniques for Atmospheric Sensing (pp. 273-274)
Bomidi Lakshmi Madhavan and Yonghua Wu

Chapter 138 – Rare Earth Spectroscopy for Clean Energy and Sensor Applications (pp. 275-276)
Yashashchandra Dwivedi, Sergio Carlos Zilio and Shyam Bahadur Rai

Chapter 139 – Rare Earth Doped Materials for Temperature Sensors (pp. 277-278)
Anurag Pandey and Vineet Kumar Rai

Chapter 140 – Advances in Infrared (IR) Sensors for Security, Forensics and the Environment (pp. 279-280)
R. N. Singh, R. K. Sharma and S. S. Negi

Chapter 141 – Dissociation of a CO Molecule Induced by 10 keV Electrons: Kinetic Energy Release Distributions (pp. 281-282)
Raj Singh, Pragya Bhatt, Namita Yadav and R. Shanker