Tag Archives: Nanomaterials

“Advances in Crystallization Processes” ed. by Yitzhak Mastai

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"Advances in Crystallization Processes" ed. by Yitzhak Mastai
InTeOpP | 2012 | ISBN: 9535105817 9789535105817 | 659 pages | PDF | 51 MB
This book provides the latest research developments in many aspects of crystallization including: chiral crystallization, crystallization of nanomaterials and the crystallization of amorphous and glassy materials. This book is of interest to both fundamental research and also to practicing scientists and will prove invaluable to all chemical engineers and industrial chemists in the process industries as well as crystallization workers and students in industry and academia.

“Advances in Crystallization Processes” ed. by Yitzhak Mastai
Crystallization is used at some stage in nearly all process industries as a method of production, purification or recovery of solid materials. In recent years, a number of new applications have also come to rely on crystallization processes such as the crystallization of nano and amorphous materials.

Section 1 Chiral crystallization
1 Separation of the Mixtures of Chiral Compounds by Crystallization
2 Crystallization on Self Assembled Monolayers
3 Asymmetric Reaction Using Molecular Chirality Controlled by Spontaneous Crystallization
Section 2 Crystallization of amorphous and glassy materials
4 Preparation of Na+ Superionic Conductors by Crystallization of Glass
5 Crystallization Kinetics of Metallic Glasses
6 Crystallization Kinetics of Amorphous Materials
7 Thermodynamics of Enthalpy Relaxation and Hole Formation of Polymer Glasses
8 Crystallization Behavior and Control of Amorphous Alloys
Section 3 Crystallization of nanomaterials
9 Influence of Crystallization on the Properties of Sn02 Thin Films
10 Crystallization of Sub-Micrometer Sized ZSM-5 Zeolites in SDA-Free Systems
11 The Growth of Chalcedony (Nanocrystalline Silica) in Electric Organs from Living Marine Fish
12 Synthesis and Characterization of Crystalline Zirconium Titanate Obtained by Sol-Gel
13 Characterization of Sol-Gel-Derived and Crystallized ??2, Zr02, Zr02-Y203 Thin Films on Si(001) Wafers with High Dielectric Constant
14 Crystalization in Spinel Ferrite Nanoparticles
Section 4 Bulk Crystallization from Aqueous Solutions
15 Separation of Uranyl Nitrate Hexahydrate Crystal from Dissolver Solution of Irradiated Fast Neutron Reactor Fuel
16 Stable and Metastable Phase Equilibria in the Salt-Water Systems
17 'Salt Weathering' Distress on Concrete by Sulfates?
18 Crystallization, Alternation and Recrystallization of Sulphates
Section 5 General issues in crystallization
19 Synthetic Methods for Perovskite Materials – Structure and Morphology
20 Phase Behavior and Crystal Structure of Binary Polycyclic Aromatic Compound Mixtures
21 Structure of Pure Aluminum After Endogenous and Exogenous Inoculation
22 Phosphoramidates: Molecular Packing and Hydrogen Bond Strength in Compounds Having a P(0)(N)n(0)3-n (n = 1, 2, 3) Skeleton
23 Synthesis and X-Ray Crystal Structure of a-Keggin-Type Aluminum-Substituted Polyoxotungstate
24 The Diffusion Model of Grown-ln Microdefects Formation During Crystallization of Dislocation-Free Silicon Single Crystals
25 Preparation of Carvedilol Spherical Crystals Having Solid Dispersion Structure by the Emulsion Solvent Diffusion Method and Evaluation of Its in vitro Characteristics
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“Advanced Plasma Spray Applications” ed. by Hamidreza Salimi Jazi

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"Advanced Plasma Spray Applications" ed. by Hamidreza Salimi Jazi
InTeOpP | 2012 | ISBN: 9535103490 9789535103493 | 248 pages | PDF | 20 MB
Some state-of-the-art studies of advanced applications of plasma spraying such as nanostructure coatings, surface modifications, biomaterial deposition, and anti wear and corrosion coatings are presented in this book.

“Advanced Plasma Spray Applications” ed. by Hamidreza Salimi Jazi
Part 1 Plasma Spray for Corrosion and Wear Resistance
1 Thermal Sprayed Coatings Used Against Corrosion and Corrosive Wear
2 The Influence of Dry Particle Coating Parameters on Thermal Coatings Properties
3 Isothermal Oxidation Behavior of Plasma Sprayed MCrAlY Coatings
4 Analysis of Experimental Results of Plasma Spray Coatings Using Statistical Techniques
Part 2 Plasma Spray in Biomaterials Applications
5 Plasma Sprayed Bioceramic Coatings on Ti-Based Substrates: Methods for Investigation of Their Crystallographic Structures and Mechanical Properties
6 Effect of Hydrothermal Self-Healing and Intermediate Strengthening Layers on Adhesion Reinforcement of Plasma-Sprayed Hydroxyapatite Coatings
Part 3 Plasma Spray in Nanotechnology Applications
7 Solution and Suspension Plasma Spraying of Nanostructure Coatings
8 A Solid State Approach to Synthesis Advanced Nanomaterials for Thermal Spray Applications
Part 4 Plasma Spray in Polymer Applications
9 Atmospheric Pressure Plasma Jet Induced Graft-Polymerization for Flame Retardant Silk
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Biosensors Nanotechnology

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Biosensors Nanotechnology (Advanced Material Series) by Ashutosh Tiwari, Anthony P. F. Turner
2014 | ISBN: 1118773519 | English | 552 pages | PDF | 6 MB

Biosensors Nanotechnology
A new emerging field that combines nanoscale materials and biosensor technology is receiving increased attention. Nanostructures have been used to achieve direct wiring of biosensing elements to electrode surfaces, to promote bio-reactions, to impose nanobarcodes on biomaterials, and to amplify the signal from bio-recognition events. Nanomaterials based biosensors have found wide spread applications in the environmental and medical applications for their sensitivity, specificity, rapidity, simplicity, and cost-effectiveness.

In the same pursuit, Biosensors Nanotechnology provides detailed review chapters on a range of nanostructures such as nanoparticles, nanowires, nanotubes, nanoribbons, nanorods, nanobelts and nanosheets in the construction of biosensors with set applications of biosensors nanotechnology for biological and chemical analyses, food safety industry, biomedical diagnostics, clinical detection, and environmental monitoring.

The senior contributors write on the following topics:

ZnO and graphene microelectrode applications in biosensing
Assembly of polymers/metal nanoparticles
Gold nanoparticle-based electrochemical biosensors
Impedimetric DNA sensing employing nanomaterials
Graphene and carbon nanotube based biosensors
The-state-of-art of nanomedicine
Computational nanochemistry study
BFPF green fluorescent protein chromophore
Biosynthesis of metal nanoparticles
Ionic discotic liquid crystals
Role of advanced materials as nanosensors in water treatment
Bioconjugated-nanoporous gold films in electrochemical biosensors
Combination of molecular imprinting and nanotechnology
Recent development of fiber reinforced composite materials
Principal and properties of multiferroics and ceramics
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Microwave-Assisted Organic Synthesis: A Green Chemical Approach

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Suresh C. Ameta and Pinki B. Punjabi, "Microwave-Assisted Organic Synthesis: A Green Chemical Approach"
English | ISBN: 1771880392 | 2015 | 412 pages | PDF | 34 MB

Microwave-Assisted Organic Synthesis: A Green Chemical Approach
The large-scale production of chemicals to meet various societal needs has created environmental pollution, including pollution from byproducts and improper disposal of waste. With the world facing adverse consequences due to this pollution, green chemistry is increasingly being viewed as a means to address this concern.

Since most organic syntheses require toxic solvents, more reaction time, and drastic conditions of temperature, conventional methods of organic synthesis are less preferred. Microwave-assisted organic synthesis is considered to be a promising green chemical approach because it reduces reaction time from days or hours to minutes or even seconds, and has many other advantages. It helps reduce side reactions and increase yields, uses fewer solvents or is almost solvent-free, has solid supported reactions, and improves purity.

This book’s main focus is microwave-assisted organic synthesis processes, particularly various reactions such as cycloaddition, rearrangement, elimination, substitution, oxidation, reduction, condensation, coupling, polymerization, nanomaterials, synthesis of heterocycles, and industrial applications under microwave irradiation. The time is not far off when this methodology will virtually replace existing and cumbersome methods of organic synthesis.
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Plasma Processing of Nanomaterials

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Plasma Processing of Nanomaterials
English | ISBN: 1439866767 | 2012 | 432 pages | PDF | 15 MB

We are at a critical evolutionary juncture in the research and development of low-temperature plasmas, which have become essential to synthesizing and processing vital nanoscale materials. More and more industries are increasingly dependent on plasma technology to develop integrated small-scale devices, but physical limits to growth, and other challenges, threaten progress.

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