Your search keyword '"Attard P"' showing total 25 results

1. Monitoring nanobubble nucleation at early-stage within a sub-9 nm solid-state nanopore.

Author

Li Q, Ying YL, Hu YX, Liu SC, and Long YT

Subjects

Borohydrides chemistry, Hydrogen chemistry, Particle Size, Water chemistry, Gases chemistry, Nanopores, Nanotechnology methods

Abstract

Nanobubble nucleation study is important for understanding the dynamic behavior of nanobubble growth, which is instructive for the nanobubble applications. Benefiting from nanopore fabrication, herein, we fabricated a sub-9 nm SiN X nanopore with the comparable size to nanobubbles at early-stage. The confined nanopore interface serves as a generator for producing nanobubbles by the chemical reaction between NaBH 4 and H 2 O and as an ultra-sensitive sensor for monitoring the H 2 nanobubble nucleation process. By carrying out the NaBH 4 concentration-dependent experiments, we found the life-time of nanobubbles decreased 250 times and the frequency of nanobubble generation increased 38 times with the NaBH 4 concentration increasing from 6 to 100 mM. The long-time equilibrium between gas molecules inward flux and outward flux could prolong the life-time of nanobubbles to hundreds of milliseconds at low NaBH 4 concentration. The raw current trace depicted that the transient accumulation and dissolution of cavity occurred during all the life-time of nanobubbles. Therefore, the sub-9 nm SiN X nanopore shows a strong ability for real-time monitoring the nanobubble nucleation at early-stage with high temporal and spatial resolution. This work provides a guide to study the dynamic and stochastic characteristics of nanobubbles., (© 2019 WILEY-VCH Verlag GmbH & Co. KGaA, Weinheim.)

Published

2020

2. Synergistic Modulation of Multiple Sites Boosts Anti-Poisoning Hydrogen Electrooxidation Reaction with Ultrasmall (Pt 0.9 Rh 0.1 ) 3 V Ternary Intermetallic Nanoparticles.

Author

Hou YC, Shen T, Hu K, Wang X, Zheng QN, Le JB, Dong JC, and Li JF

Abstract

Promoting the hydrogen oxidation reaction (HOR) activity and poisoning tolerance of electrocatalysts is crucial for the large-scale application of hydrogen-oxygen fuel cell. However, it is severely hindered by the scaling relations among different intermediates. Herein, lattice-contracted Pt-Rh in ultrasmall ternary L1 2 -(Pt 0.9 Rh 0.1 ) 3 V intermetallic nanoparticles (~2.2 nm) were fabricated to promote the HOR performances through an oxides self-confined growth strategy. The prepared (Pt 0.9 Rh 0.1 ) 3 V displayed 5.5/3.7 times promotion in HOR mass/specific activity than Pt/C in pure H 2 and dramatically limited activity attenuation in 1000 ppm CO/H 2 mixture. In situ Raman spectra tracked the superior anti-CO* capability as a result of compressive strained Pt, and the adsorption of oxygen-containing species was promoted due to the dual-functional effect. Further assisted by density functional theory calculations, both the adsorption of H* and CO* on (Pt 0.9 Rh 0.1 ) 3 V were reduced compared with that of Pt due to lattice contraction, while the adsorption of OH* was enhanced by introducing oxyphilic Rh sites. This work provides an effective tactic to stimulate the electrocatalytic performances by optimizing the adsorption of different intermediates severally., (© 2024 Wiley-VCH GmbH.)

Published

2024

3. To DISP or Not? The Far-Reaching Reaction Mechanisms Underpinning Lithium-Air Batteries.

Author

Jethwa RB, Mondal S, Pant B, and Freunberger SA

Abstract

The short history of research on Li-O 2 batteries has seen a remarkable number of mechanistic U-turns over the years. From the initial use of carbonate electrolytes, that were then found to be entirely unsuitable, to the belief that (su)peroxide was solely responsible for degradation, before the more reactive singlet oxygen was found to form, to the hypothesis that capacity depends on a competing surface/solution mechanism before a practically exclusive solution mechanism was identified. Herein, we argue for an ever-fresh look at the reported data without bias towards supposedly established explanations. We explain how the latest findings on rate and capacity limits, as well as the origin of side reactions, are connected via the disproportionation (DISP) step in the (dis)charge mechanism. Therefrom, directions emerge for the design of electrolytes and mediators on how to suppress side reactions and to enable high rate and high reversible capacity., (© 2023 The Authors. Angewandte Chemie International Edition published by Wiley-VCH GmbH.)

Published

2024

4. Encoding Chiral Molecular Information in Metal Structures.

Author

Wattanakit C and Kuhn A

Abstract

The concept of encoding molecular information in bulk metals has been proposed over the past decade. The structure of various types of molecules, including enantiomers, can be imprinted in achiral substrates. Typically, to encode metals with chiral information, several approaches, based on chemical and electrochemical concepts, can be used. In this Minireview, recent achievements with respect to the development of such materials are discussed, including the entrapment of chiral biomolecules in metals, the chiral imprinting of metals, as well as the combination of imprinting with nanostructuring. The features and potential applications of these designer materials, such as chirooptical properties, enantioselective adsorption and separation, as well as their use for asymmetric synthesis will be presented. This will illustrate that the development of molecularly encoded metal structures opens up very interesting perspectives, especially in the frame of chiral technologies., (© 2019 Wiley-VCH Verlag GmbH & Co. KGaA, Weinheim.)

Published

2020

5. Design, Synthesis, and Biological Evaluation of Histone Deacetylase Inhibitors Derived from Erianin and Its Derivatives.

Author

Yang Y, Liu Q, Wang X, and Gou S

Subjects

Histone Deacetylase Inhibitors chemistry, Cell Proliferation, Phenol pharmacology, Cell Line, Tumor, Apoptosis, Histone Deacetylase 1, Bibenzyls, Antineoplastic Agents chemistry

Abstract

Multi-target histone deacetylase (HDAC) inhibitors can be designed by introducing dominant structures of natural products to enhance activity and efficacy while avoiding the toxicity from other targets. In this study, we reported a series of novel HDAC inhibitors based on erianin and amino erianin upon pharmacophore fusion strategy. Two representative compounds, N-hydroxy-2-(2-methoxy-5- (3,4,5-trimethoxyphenethyl)phenoxy)acetamide and N-Hydroxy-8-((2-methoxy-5- (3,4,5-trimethoxyphenethyl)phenyl)amino)octanamide, possessed good inhibitory effect against five cancer cells tested (IC 50 =0.30-1.29 μΜ, 0.29-1.70 μΜ) with strong HDAC inhibition, and low toxicity toward L02 cells, which were selected for subsequent biological studies in PANC-1 cells. They were also found to promote the intracellular generation of reactive oxygen species, cause DNA damage, block the cell cycle at G2/M phase, and activate the mitochondria-related apoptotic pathway to induce cell apoptosis, which are significant for the discovery of new HDAC inhibitors., (© 2023 Wiley-VCH GmbH.)

Published

2023

6. Block-Copolymers Enable Direct Reduction and Structuration of Noble Metal-Based Films.

Author

Gayrard M, Chancerel F, De Marco ML, Naumenko D, Boissière C, Rozes L, Amenitsch H, Peron J, Cattoni A, and Faustini M

Subjects

Catalysis, Metals, Printing, Nanostructures, Polymers

Abstract

Noble metal nanostructured films are of great interest for various applications including electronics, photonics, catalysis, and photocatalysis. Yet, structuring and patterning noble metals, especially those of the platinum group, is challenging by conventional nanofabrication. Herein, an approach based on solution processing to obtain metal-based films (rhodium, ruthenium (Ru) or iridium in the presence of residual organic species) with nanostructuration at the 20 nm-scale is introduced. Compared to existing approaches, the dual functionality of block-copolymers acting both as structuring and as reducing agent under inert atmosphere is exploited. A set of in situ techniques has allowed for the capturing of the carbothermal reduction mechanism occurring at the hybrid organic/inorganic interface. Differently from previous literature, a two-step reduction mechanism is unveiled with the formation of a carbonyl intermediate. From a technological point of view, the materials can be solution-processed on a large scale by dip-coating as polymers and simultaneously structured and reduced into metals without requiring expensive equipment or treatments in reducing atmosphere. Importantly, the metal-based films can be patterned directly by block-copolymer lithography or by soft-nanoimprint lithography on various substrates. As proof-of-concept of application, the authors demonstrate that nanostructured Ru films can be used as efficient catalysts for H 2 generation into microfluidic reactors., (© 2021 Wiley-VCH GmbH.)

Published

2022

7. Heterogeneous Enantioselective Catalysis with Chiral Encoded Mesoporous Pt-Ir Films Supported on Ni Foam.

Author

Assavapanumat S, Butcha S, Ittisanronnachai S, Kuhn A, and Wattanakit C

Abstract

The development of heterogeneous catalysts for asymmetric synthesis is one of the most challenging topics in chemistry, as it allows obtaining enantiomerically pure compounds. Recently, metal layers incorporating molecular chiral cavities, obtained by electroreduction of a metal source in the simultaneous presence of a non-ionic surfactant and asymmetric molecules, have been proposed for a wide range of applications, including enantioselective electroanalysis and electrosynthesis, as well as chiral separation. In contrast to this previous work, solely based on electrochemical phenomena, herein we designed and employed nanostructured chiral encoded Pt-Ir alloys, supported on high surface area nickel foams, as heterogeneous catalysts for the asymmetric hydrogenation of aromatic ketones. Fine-tuning the experimental conditions allows achieving very high enantioselectivity (>80%), combined with improved catalyst stability., (© 2021 Wiley-VCH GmbH.)

Published

2021

8. Electrolysis on a Chip with Tunable Thin Film Nanostructured PGM Electrocatalysts Generated from Self-Assembled Block Copolymer Templates.

Author

Bhattacharya D, Kole S, Kizilkaya O, Strzalka J, Angelopoulou PP, Sakellariou G, Cao D, and Arges CG

Abstract

Self-assembled block copolymers are promising templates for fabricating thin film materials with tuned periodic feature sizes and geometry at the nanoscale. Here, a series of nanostructured platinum and iridium oxide electrocatalysts templated from poly(styrene)-block-poly(vinyl pyridine) (PSbPVP) block copolymers via an incipient wetness impregnation (IWI) pathway is reported. Both nanowire and nanocylinder electrocatalysts of varying feature sizes are assessed and higher catalyst loadings are achieved by the alkylation of the pyridine moieties in the PVP block prior to IWI. Electrocatalyst evaluations featuring hydrogen pump and water electrolysis demonstrations are carried out on interdigitated electrode (IDE) chips flexible with liquid supporting electrolytes and thin film polymer electrolytes. Notably, the mass activities of the nanostructured electrocatalysts from alkylated block copolymer templates are 35%-94% higher than electrocatalysts from non-alkylated block copolymer templates. Standing cylinder nanostructures lead to higher mass activities than lamellar variants despite their not having the largest surface area per unit catalyst loading demonstrating that mesostructure architectures have a profound impact on reactivity. Overall, IDE chips with model thin film electrocatalysts prepared from self-assembled block copolymers offer a high-throughput experimental method for correlating electrocatalyst nanostructure and composition to electrochemical reactivity., (© 2021 Wiley-VCH GmbH.)

Published

2021

9. Mathematical model of electromigration allowing the deviation from electroneutrality.

Author

Novotný T and Gaš B

Subjects

Electric Conductivity, Ions, Solutions, Electrolytes, Models, Theoretical

Abstract

The structure of the double layer on the boundary between solid and liquid phases is described by various models, of which the Stern-Gouy-Chapman model is still commonly accepted. Generally, the solid phase is charged, which also causes the distribution of the electric charge in the adjacent diffuse layer in the liquid phase. We propose a new mathematical model of electromigration considering the high deviation from electroneutrality in the diffuse layer of the double layer when the liquid phase is composed of solution of weak multivalent electrolytes of any valence and of any complexity. The mathematical model joins together the Poisson equation, the continuity equation for electric charge, the mass continuity equations, and the modified G-function. The model is able to calculate the volume charge density, electric potential, and concentration profiles of all ionic forms of all electrolytes in the diffuse part of the double layer, which consequently enables to calculate conductivity, pH, and deviation from electroneutrality. The model can easily be implemented into the numerical simulation software such as Comsol. Its outcome is demonstrated by the numerical simulation of the double layer composed of a charged silica surface and an adjacent liquid solution composed of weak multivalent electrolytes. The validity of the model is not limited only to the diffuse part of the double layer but is valid for electromigration of electrolytes in general., (© 2020 Wiley-VCH GmbH.)

Published

2021

10. Designed Patterning of Mesoporous Metal Films Based on Electrochemical Micelle Assembly Combined with Lithographical Techniques.

Author

Lim H, Kim J, Kani K, Masud MK, Park H, Kim M, Alsheri SM, Ahamad T, Alhokbany N, Na J, Malgras V, Bando Y, and Yamauchi Y

Abstract

Mesoporous noble metals and their patterning techniques for obtaining unique patterned structures are highly attractive for electrocatalysis, photocatalysis, and optoelectronics device applications owing to their expedient properties such as high level of exposed active locations, cascade electrocatalytic sites, and large surface area. However, patterning techniques for mesoporous substrates are still limited to metal oxide and silica films, although there is growing demand for developing techniques related to patterning mesoporous metals. In this study, the first demonstration of mesoporous metal films on patterned gold (Au) substrates, prefabricated using photolithographic techniques, is reported. First, different growth rates of mesoporous Au metal films on patterned Au substrates are demonstrated by varying deposition times and voltages. In addition, mesoporous Au films are also fabricated on various patterns of Au substrates including stripe and mesh lines. An alternative fabrication method using a photoresist insulating mask also yields growth of mesoporous Au within the patterning. Moreover, patterned mesoporous films of palladium (Pd) and palladium-copper alloy (PdCu) are demonstrated on the same types of substrates to show versatility of this method. Patterned mesoporous Au films (PMGFs) show higher electrochemically active surface area (ECSA) and higher sensitivity toward glucose oxidation than nonpatterned mesoporous Au films (NMGF)., (© 2019 WILEY-VCH Verlag GmbH & Co. KGaA, Weinheim.)

Published

2020

11. Physical Electrochemistry : Fundamentals, Techniques, and Applications

Author

Noam Eliaz, Eliezer Gileadi, Noam Eliaz, and Eliezer Gileadi

Subjects

Electrochemistry

Abstract

This bestselling textbook on physical electrochemistry caters to the needs of advanced undergraduate and postgraduate students of chemistry, materials engineering, mechanical engineering, and chemical engineering. It is unique in covering both the more fundamental, physical aspects as well as the application-oriented practical aspects in a balanced manner. In addition it serves as a self-study text for scientists in industry and research institutions working in related fields. The book can be divided into three parts: (i) the fundamentals of electrochemistry; (ii) the most important electrochemical measurement techniques; and (iii) applications of electrochemistry in materials science and engineering, nanoscience and nanotechnology, and industry. The second edition has been thoroughly revised, extended and updated to reflect the state-of-the-art in the field, for example, electrochemical printing, batteries, fuels cells, supercapacitors, and hydrogen storage.

Published

2019

12. Surface and Interfacial Forces

Author

Hans-Jürgen Butt, Michael Kappl, Hans-Jürgen Butt, and Michael Kappl

Subjects

Force and energy, Surfaces (Physics), Interfaces (Physical sciences), Surface chemistry

Abstract

A general introduction to surface and interfacial forces, perfectly combining theoretical concepts, experimental techniques and practical applications. In this completely updated edition all the chapters have been thoroughly revised and extended to cover new developments and approaches with around 15% new content. A large part of the book is devoted to surface forces between solid surfaces in liquid media, and while a basic knowledge of colloid and interface science is helpful, it is not essential since all important concepts are explained and the theoretical concepts can be understood with an intermediate knowledge of mathematics. A number of exercises with solutions and the end-of-chapter summaries of the most important equations, facts and phenomena serve as additional tools to strengthen the acquired knowledge and allow for self-study. The result is a readily accessible text that helps to foster an understanding of the intricacies of this highly relevant topic.

Published

2018

13. Toxicology of Nanomaterials

Author

Yuliang Zhao, Zhiyong Zhang, Weiyue Feng, Yuliang Zhao, Zhiyong Zhang, and Weiyue Feng

Subjects

Nanostructured materials--Toxicology

Abstract

This book provides the reader with a comprehensive view of analytical methods for nanotoxicology studies. After an introduction to nanomaterials and toxicological studies, the book discusses various characterization methods of nanomaterials and continues with the detection of nanoparticles in vivo as well as in vitro. A variety of techniques in molecular toxicology of nanomaterials is presented, followed by a detailed explanation of interaction between nanoparticles and biomacromolecules, including the structure-toxicity relationships of nanomaterials. Finally, the book concludes with the advantages and challenges of the analytical methods for nanotoxicology.

Published

2016

14. Scanning Probe Microscopy of Soft Matter : Fundamentals and Practices

Author

Vladimir V. Tsukruk, Srikanth Singamaneni, Vladimir V. Tsukruk, and Srikanth Singamaneni

Subjects

Scanning probe microscopy, Materials science

Abstract

Well-structured and adopting a pedagogical approach, this self-contained monograph covers the fundamentals of scanning probe microscopy, showing how to use the techniques for investigating physical and chemical properties on the nanoscale and how they can be used for a wide range of soft materials. It concludes with a section on the latest techniques in nanomanipulation and patterning. This first book to focus on the applications is a must-have for both newcomers and established researchers using scanning probe microscopy in soft matter research. From the contents: • Atomic Force Microscopy and Other Advanced Imaging Modes • Probing of Mechanical, Thermal Chemical and Electrical Properties • Amorphous, Poorly Ordered and Organized Polymeric Materials • Langmuir-Blodgett and Layer-by-Layer Structures • Multi-Component Polymer Systems and Fibers • Colloids and Microcapsules • Biomaterials and Biological Structures • Nanolithography with Intrusive AFM Tipand Dip-Pen Nanolithography • Microcantilever-Based Sensors

Published

2012

15. Solid State Electrochemistry II : Electrodes, Interfaces and Ceramic Membranes

Author

Vladislav V. Kharton and Vladislav V. Kharton

Subjects

Electrochemistry, Solid state chemistry

Abstract

The ideal addition to the companion volume on fundamentals, methodologies, and applications, this second volume combines fundamental information with an overview of the role of ceramic membranes, electrodes and interfaces in this important, interdisciplinary and rapidly developing field. Written primarily for specialists working in solid state electrochemistry, this first comprehensive handbook on the topic focuses on the most important developments over the last decade, as well as the methodological and theoretical aspects and practical applications. This makes the contents equally of interest to material, physical and industrial scientists, and to physicists. Also available as a two-volume set.

Published

2011

16. Amplitude Modulation Atomic Force Microscopy

Author

Ricardo García and Ricardo García

Subjects

Amplitude modulation, Atomic force microscopy

Abstract

Filling a gap in the literature, this book features in-depth discussions on amplitude modulation AFM, providing an overview of the theory, instrumental considerations and applications of the technique in both academia and industry. As such, it includes examples from material science, soft condensed matter, molecular biology, and biophysics, among others. The text is written in such a way as to enable readers from different backgrounds and levels of expertise to find the information suitable for their needs.

Published

2010

17. Surface and Interfacial Forces

Author

Hans-Jürgen Butt, Michael Kappl, Hans-Jürgen Butt, and Michael Kappl

Subjects

Surfaces (Physics), Interfaces (Physical sciences), Surface chemistry, Force and energy

Abstract

This systematic introduction to the topic includes theoretical concepts to help readers understand and predict surface forces, while also integrating experimental techniques and practical applications with up-to-date examples plus motivating exercises. Starting with intermolecular forces, the authors discuss different surfaces forces, with a major part devoted to surface forces between solid surfaces in liquid media. In addition, they cover surface forces between liquid-vapor interfaces and between liquid-liquid interfaces.

Published

2010

18. Protein Engineering Handbook

Author

Stefan Lutz, Uwe Theo Bornscheuer, Stefan Lutz, and Uwe Theo Bornscheuer

Subjects

Protein engineering, Protein engineering--Handbooks, manuals, etc

Abstract

Unparalleled in size and scope, this new major reference integrates academic and industrial knowledge into a single resource, allowing for a unique overview of the entire field. Adopting a systematic and practice-oriented approach, and including a wide range of technical and methodological information, this highly accessible handbook is an invaluable'toolbox'for any bioengineer. In two massive volumes, it covers the full spectrum of current concepts, methods and application areas.

Published

2009

19. Modern Drying Technology, Volume 2 : Experimental Techniques

Author

Evangelos Tsotsas, Arun S. Mujumdar, Evangelos Tsotsas, and Arun S. Mujumdar

Subjects

Drying

Abstract

This five-volume handbook provides a comprehensive overview of all important aspects of modern drying technology, including only cutting-edge results. Volume 2 comprises experimental methods used in various industries and in research in order to design and control drying processes, measure moisture and moisture distributions, characterize particulate material and the internal micro-structure of dried products, and investigate the behavior of particle systems in drying equipment. Key topics include acoustic levitation, near-infrared spectral imaging, magnetic resonance imaging, X-ray tomography, and positron emission tracking.

Published

2009

20. The Chemistry of Nanomaterials : Synthesis, Properties and Applications

Author

C. N. R. Rao, Achim Müller, Anthony K. Cheetham, C. N. R. Rao, Achim Müller, and Anthony K. Cheetham

Subjects

Nanotechnology, Solid state chemistry, Nanostructures

Abstract

With this handbook the distinguished team of editors has combined the expertise of leading nanomaterials scientists to provide the latest overview of this field. The authors cover the whole spectrum of nanomaterials, ranging from theory, synthesis, properties, characterization to application, including such new developments as: quantum dots, nanoparticles, nanoporous materials, as well as nanowires, nanotubes and nanostructural polymers nanocatalysis, nanolithography, nanomanipulation methods for the synthesis of nanoparticles. The book can thus be recommended for everybody working in nanoscience: Beginners can acquaint themselves with the exciting subject, while specialists will find answers to all their questions plus helpful suggestions for further research.

Published

2004

21. Handbook of Machine Olfaction : Electronic Nose Technology

Author

Tim C. Pearce, Susan S. Schiffman, H. Troy Nagle, Julian W. Gardner, Tim C. Pearce, Susan S. Schiffman, H. Troy Nagle, and Julian W. Gardner

Subjects

Chemical detectors, Olfactometry, Odors

Abstract

'Electronic noses'are instruments which mimic the sense of smell. Consisting of olfactory sensors and a suitable signal processing unit, they are able to detect and distinguish odors precisely and at low cost. This makes them very useful for a remarkable variety of applications in the food and pharmaceutical industry, in environmental control or clinical diagnostics and more. The scope covers biological and technical fundamentals and up-to-date research. Contributions by renowned international scientists as well as application-oriented news from successful'e-nose'manufacturers give a well-rounded account of the topic, and this coverage from R&D to applications makes this book a must-have read for e-nose researchers, designers and users alike.

Published

2003

22. Reviews in Computational Chemistry, Volume 19

Author

Kenny B. Lipkowitz, Raima Larter, Thomas R. Cundari, Donald B. Boyd, Kenny B. Lipkowitz, Raima Larter, Thomas R. Cundari, and Donald B. Boyd

Subjects

Chemistry, Chemistry--Data processing

Abstract

The Reviews in Computational Chemistry series brings together leading authorities in the field. The chapters in this book series are written to teach the newcomer and update the expert. Topics include computational chemistry, molecular modeling, computer-assisted molecular design (CAMD), quantum chemistry, molecular mechanics and dynamics, and quantitative structure-activity relationships (QSAR). Detailed author and subject indices on each volume help the reader to quickly discover particular topics. The chapters are approached in a tutorial manner and written in a non-mathematical style allowing students and researchers to access computational methods outside their immediate area of expertise.

Published

2003

23. Handbook of Liquid Crystals, Volume 2B : Low Molecular Weight Liquid Crystals II

Author

Dietrich Demus, John W. Goodby, George W. Gray, Hans W. Spiess, Volkmar Vill, Dietrich Demus, John W. Goodby, George W. Gray, Hans W. Spiess, and Volkmar Vill

Subjects

Liquid crystals--Handbooks, manuals, etc

Abstract

The Handbook of Liquid Crystals is a unique compendium of knowledge on all aspects of liquid crystals. In over 2000 pages the Handbook provides detailed information on the basic principles of both low- and high-molecular weight materials, as well as the synthesis, characterization, modification, and applications (such as in computer displays or as structural materials) of all types of liquid crystals. The five editors of the Handbook are internationally renowned experts from both industry and academia and have drawn together over 70 leading figures in the field as authors. The four volumes of the Handbook are designed both to be used together or as stand-alone reference sources. Some users will require the whole set, others will be best served with one or two of the volumes. Volume 1 deals with the basic physical and chemical principles of liquid crystals, including structure-property relationships, nomenclature, phase behavior, characterization methods, and general synthesis and application strategies. As such this volume provides an excellent introduction to the field and a powerful learning and teaching tool for graduate students and above. Volumes 2A and 2B concentrate on low-molecular weight materials, for example those typically used in display technology. A high quality survey of the literature is provided along with full details of molecular design strategies, phase characterization and control, and applications development. These volumes are therefore by far the most detailed reference sources on these industrially very important materials, ideally suited for professionals in the field. Volume 3 concentrates on high-molecular weight, or polymeric, liquid crystals, some of which are found in structural applications and others occur as natural products of living systems. A high-quality literature survey is complemented by full detail of the synthesis, processing, analysis, and applications of all important materials classes. This volume is the most comprehensive reference source on these materials, and is therefore ideally suited for professionals in the field.

Published

1998

24. Reviews in Computational Chemistry, Volume 12

Author

Kenny B. Lipkowitz, Donald B. Boyd, Kenny B. Lipkowitz, and Donald B. Boyd

Subjects

Chemistry--Mathematics, Chemistry--Data processing, Cheminformatics

Abstract

VOLUME 12 REVIEWS IN COMPUTATIONAL CHEMISTRY Kenny B. Lipkowitz and Donald B. Boyd HOW DOES ONE COMPUTE FREE ENERGY AND ENTROPY FROM MOLECULAR SIMULATIONS? WHAT HAPPENS WHEN SIMULATIONS ARE RUN WITH CONSTRAINTS? HOW SHOULD SIMULATIONS BE PERFORMED TO MODEL INTERFACIAL PHENOMENA? HOW IS DENSITY FUNCTIONAL THEORY USED TO SIMULATE MATERIALS? WHAT QUANTUM MECHANICAL METHODS SHOULD BE USED TO COMPUTE NONLINEAR OPTICAL PROPERTIES OF MATERIALS? WHICH PARAMETERS ARE MOST INFLUENTIAL IN A MOLECULAR SIMULATION? HOW CAN CRYSTAL STRUCTURES BE PREDICTED? TUTORIALS PROVIDING ANSWERS TO THESE QUESTIONS ARE THE FOCUS OF THIS BOOK. FROM REVIEWS OF THE SERIES'The series continues to be one of the most useful information sources.'-JOURNAL OF THE AMERICAN CHEMICAL SOCIETY

Published

1998

25. Metallomesogens : Synthesis, Properties, and Applications

Author

Jose Luis Serrano and Jose Luis Serrano

Subjects

Metallomesogens

Abstract

Research on metal-containing liquid crystals is a rapidly expanding, multidisciplinary field with new materials continually being synthesized and novel applications being developed.'Metallomesogens'is the first comprehensive survey of the field, introducing the reader to: • materials design • synthesis • physical properties • emerging applications Carefully selected references round off this well-organized compendium. It is an indispensable guide to experienced researchers in coordination and organometallic chemistry as well as in liquid-crystal and materials science. Newcomers and graduate students will also benefit from this didactically sound introduction to the field.

Published

1996