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Książki na temat „Complex Reaction Mechanism”

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Data publikacji: 7 września 2023

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1

Vicario, Jose L. Organocatalytic enantioselective conjugate addition reactions: A powerful tool for the stereocontrolled synthesis of complex molecules. Cambridge: Royal Society of Chemistry, 2010.

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2

John, Ross. Determination of complex reaction mechanisms: Analysis of chemical, biological, and genetic networks. New York: Oxford University Press, 2005.

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3

Elena, Soriano, José Marco-Contelles i B. Alcaide. Computational mechanisms of Au and Pt catalyzed reactions. Heidelberg: Springer, 2011.

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4

Ross, John. Determination of complex reaction mechanisms: Analysis of chemical, biological, and genetic networks. New York, NY: Oxford University Press, 2005.

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5

Wilkins, Ralph G. Kinetics and mechanism of reactions of transition metal complexes. Wyd. 2. Weinheim: VCH, 1991.

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6

Wilkins, Ralph G. Kinetics and mechanism of reactions of transition metal complexes. Wyd. 2. Weinheim: VCH, 1991.

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7

Wilkins, Ralph G. Kinetics and mechanisms of reactions of transition metal complexes. Wyd. 2. Weinheim: VCH Publishers, 1991.

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8

Busacca, Maurizio, i Roberto Paladini. Collaboration Age. Venice: Fondazione Università Ca’ Foscari, 2020. http://dx.doi.org/10.30687/978-88-6969-424-0.

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Recently, public policies of urban regeneration have intensified and multiplied. They are being promoted with the aim to start social and economic dynamics within the local context which is subject to intervention. From the empirical analysis, we realise that such activities are mainly implemented by three subjects or by mixed coalitions (public institutions, actors of the third sector and companies). Within them, each player is moved by a multiplicity of interests and goals that go beyond their own nature – public interest, market and mutualism – and tend to redefine themselves, thus becoming hybrid forms of production of value (social, economic, cultural). By studying a number Italian and Catalan cases, this essay deals with the theory that, under specific conditions and configurations, a collaborative direction – of organization, production and design – would give life to successful procedures, even without the identification of a one-best-way. The collaboration is not simply a choice of operation, but a real production method which mobilises social resources to create hybrid solutions – between state, market and society – to complex issues that could not be faced solely with the use of the rationale of action of one among the three actors. In this framework, the systems of relations and interactions between players and shared capital become an essential condition for the success of every initiative of urban redevelopment, or failure thereof. Such initiatives are brought to life by the strategic role of individuals who foster connections as well as the dissemination of non-redundant information between social networks, and collective and individual actors which would otherwise be separated and barely able to communicate and collaborate with each other. In addition to the functions carried out by knowledge brokers, that have been extensively described in organisational studies and economic sociology, the aforementioned figures act as real social enzymes, that is to say, they handle the available information and function as catalysts of social processes of production of knowledge. Moreover, they increase the reaction speed, working on mechanisms which control the spontaneity.
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9

Ross, John, Igor Schreiber i Marcel O. Vlad. Determination of Complex Reaction Mechanisms. Oxford University Press, 2006. http://dx.doi.org/10.1093/oso/9780195178685.001.0001.

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In a chemical system with many chemical species several questions can be asked: what species react with other species: in what temporal order: and with what results? These questions have been asked for over one hundred years about simple and complex chemical systems, and the answers constitute the macroscopic reaction mechanism. In Determination of Complex Reaction Mechanisms authors John Ross, Igor Schreiber, and Marcel Vlad present several systematic approaches for obtaining information on the causal connectivity of chemical species, on correlations of chemical species, on the reaction pathway, and on the reaction mechanism. Basic pulse theory is demonstrated and tested in an experiment on glycolysis. In a second approach, measurements on time series of concentrations are used to construct correlation functions and a theory is developed which shows that from these functions information may be inferred on the reaction pathway, the reaction mechanism, and the centers of control in that mechanism. A third approach is based on application of genetic algorithm methods to the study of the evolutionary development of a reaction mechanism, to the attainment given goals in a mechanism, and to the determination of a reaction mechanism and rate coefficients by comparison with experiment. Responses of non-linear systems to pulses or other perturbations are analyzed, and mechanisms of oscillatory reactions are presented in detail. The concluding chapters give an introduction to bioinformatics and statistical methods for determining reaction mechanisms.
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10

Sanguanruang, Oravan. [Lambda hyperon]-((R)-cysteinesulfenamido-N,S) bis (ethylenediamine) cobalt(III) complex: Characterization of the complex and kinetics and mechanism of formation and base-catalyzed decomposition. 1988.

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11

Sanguanruang, Oravan. [Lambda hyperon]-((R)-cysteinesulfenamido-N,S) bis (ethylenediamine) cobalt(III) complex: Characterization of the complex and kinetics and mechanism of formation and base-catalyzed decomposition. 1988.

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12

Reaction Mechanisms Of Metal Complexes. Albion/Horwood Pub, 2000.

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13

Banerjea, Debabrata. Mechanisms of Metal Complex Reactions in Solution. Royal Society of Chemistry, The, 2020.

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14

Soriano, Elena, i José Marco-Contelles. Computational Mechanisms of Au and Pt Catalyzed Reactions. Springer, 2011.

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15

Soriano, Elena, i José Marco-Contelles. Computational Mechanisms of Au and Pt Catalyzed Reactions. Springer, 2013.

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16

Vlad, Marcel O., Igor Schreiber i John Ross. Determination of Complex Reaction Mechanisms: Analysis of Chemical, Biological, and Genetic Networks. Oxford University Press, 2006.

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17

Oefner, Peter J. Determination of Complex Reaction Mechanisms: Analysis of Chemical, Biological, and Genetic Networks. Oxford University Press, Incorporated, 2005.

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18

Henriksen, Niels Engholm, i Flemming Yssing Hansen. Bimolecular Reactions, Transition-State Theory. Oxford University Press, 2018. http://dx.doi.org/10.1093/oso/9780198805014.003.0006.

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This chapter discusses an approximate approach—transition-state theory—to the calculation of rate constants for bimolecular reactions. A reaction coordinate is identified from a normal-mode coordinate analysis of the activated complex, that is, the supermolecule on the saddle-point of the potential energy surface. Motion along this coordinate is treated by classical mechanics and recrossings of the saddle point from the product to the reactant side are neglected, leading to the result of conventional transition-state theory expressed in terms of relevant partition functions. Various alternative derivations are presented. Corrections that incorporate quantum mechanical tunnelling along the reaction coordinate are described. Tunnelling through an Eckart barrier is discussed and the approximate Wigner tunnelling correction factor is derived in the limit of a small degree of tunnelling. It concludes with applications of transition-state theory to, for example, the F + H2 reaction, and comparisons with results based on quasi-classical mechanics as well as exact quantum mechanics.
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19

Wilkins, Ralph G. Kinetics and Mechanism of Reactions of Transition Metal Complexes. Wiley & Sons Australia, Limited, John, 2003.

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20

Divan, Aysha, i Janice A. Royds. 2. DNA. Oxford University Press, 2016. http://dx.doi.org/10.1093/actrade/9780198723882.003.0002.

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Another significant milestone was the publication in 2003 of the complete sequence of the human genome—the entire DNA contained within the forty-six chromosomes located in the nucleus of each human somatic (body) cell. Once this was published, further worldwide projects were launched to work out what the functions of these genes and other regions of the genome actually were. ‘DNA’ outlines the components of the human genome and their organization; DNA replication; mutations and correction mechanisms; polymorphisms; and new DNA technologies, including gene cloning, the polymerase chain reaction, and sequencing methods. Finally, bioinformatics and the subsequent issues of privacy and how this information could be used are discussed.
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21

Deater-Deckard, Kirby, Nan Chen i Shereen El Mallah. Gene–Environment Interplay in Coercion. Redaktorzy Thomas J. Dishion i James Snyder. Oxford University Press, 2015. http://dx.doi.org/10.1093/oxfordhb/9780199324552.013.4.

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Coercive relationship dynamics are established and operate within reactive and regulatory intra- and interpersonal processes in families. These regulatory processes function within complex transactions between genetic and nongenetic processes that are transmitted from parents to children. This chapter highlights examples of gene–environment interplay in several key components of coercive family processes, with a special focus on parent and child self-regulation problems in coercive interactions. These include gene–environment correlation, gene–environment interaction, and epigenetic mechanisms that contribute to individual differences in self-regulation and dyadic regulation. These are conceptualized within a framework of ongoing parent and child effects operating within family dyads.
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22

Sousek, Alexandra, i Mehdi Tafti. The genetics of sleep. Redaktorzy Sudhansu Chokroverty, Luigi Ferini-Strambi i Christopher Kennard. Oxford University Press, 2017. http://dx.doi.org/10.1093/med/9780199682003.003.0005.

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Although there is strong evidence for a genetic contribution to inter-individual variations in sleep, the underlying factors and their interaction remain largely elusive. Much effort has been expended in studying genetic variations contributing to circadian and sleep phenotypes, the individual pattern of the human sleep EEG, reactions to sleep loss, and the pathophysiology of sleep-related disorders. Certain sleep-related diseases may be caused by single genes, while the etiology of others seems to be variable and complex. This is especially the case when the immune system is involved. This chapter reports on twin and familial studies, genetic variations and mutations affecting neurotransmitters and other signaling pathways and thereby affecting sleep, and impacts of gene expression processes and the immune system on sleep. Although much knowledge has been gained, further research is needed to elucidate the all-embracing mechanisms and their interactions that regulate sleep.
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23

Frenier, Wayne W., i Murtaza Ziauddin. Chemistry for Enhancing the Production of Oil and Gas. Society of Petroleum Engineers, 2013. http://dx.doi.org/10.2118/9781613993170.

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Providing an overview of the science and technology of the use of production chemicals to enhance and maintain oil and gas production, Chemistry for Enhancing the Production of Oil and Gas is geared towards a technically trained audience. Readers will find a review of the important chemical and physical principles that are common to most, if not all, of the enhancement treatments. The authors also discuss aspects of the use and mechanisms of the complex chemistries that take place with the application of flow assurance chemicals, during stimulation (reactive chemistry and prop fracturing) and chemically improved oil recovery, including the use of chemical tracers. A final chapter emphasizes the importance of health, safety, and environmental compliance in all aspects of oilfield treatments. Most of the chapters found within end with a section where successful chemical enhancement or control methods have been used to solve specific production problems.
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24

Banchetti-Robino, Marina Paola. The Chemical Philosophy of Robert Boyle. Oxford University Press, 2020. http://dx.doi.org/10.1093/oso/9780197502501.001.0001.

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This book examines the way in which Robert Boyle seeks to accommodate his complex chemical philosophy within the framework of a mechanistic theory of matter. More specifically, the book proposes that Boyle regards chemical qualities as properties that emerge from the mechanistic structure of chymical atoms. Within Boyle’s chemical ontology, chymical atoms are structured concretions of particles that Boyle regards as chemically elementary entities, that is, as chemical wholes that resist experimental analysis. Although this interpretation of Boyle’s chemical philosophy has already been suggested by other Boyle scholars, the present book provides a sustained philosophical argument to demonstrate that, for Boyle, chemical properties are dispositional, relational, emergent, and supervenient properties. This argument is strengthened by a detailed mereological analysis of Boylean chymical atoms that establishes the kind of theory of wholes and parts that is most consistent with his emergentist conception of chemical properties. The emergentist position that is being attributed to Boyle supports his view that chemical reactions resist direct explanation in terms of the mechanistic properties of fundamental particles, as well as his position regarding the scientific autonomy of chemistry from mechanics and physics.
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25

Banerjee, Diptonil, Amit Kumar Sharma i Nirmalya Sankar Das. Nano Materials Induced Removal of Textile Dyes from Waste Water. BENTHAM SCIENCE PUBLISHERS, 2022. http://dx.doi.org/10.2174/97898150502951220101.

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Nanotechnology has progressed to the point where it can mimic natural systems such as porous membranes or the structure of leaves. Technological advances have resulted in a boom in the use of nanotechnology in different areas of engineering, including water purification systems. This book explores nanomaterials used for removing various textile dyes from water. It compiles 8 chapters that discuss the materials and nano systems used in these processes. This reference is designed to provide answers to common questions for scholars, academicians and technologists about fundamentals of nanoscience and nanomaterial induced removal of textile dyes. College students (physics, chemistry and materials science, engineering) will be able to easily understand the subject matter. Key Features: Covers the basics of nano systems, from synthesis to applications Explains the basics of nanomaterial behavior and characterization Describes the classifications of dyes Explains the interactions nanomaterials with different dyes Explains the reaction mechanisms of photocatalysis and the kinetics behind adsorption two important methods for removing dyes from water Discusses nano systems that are useful for textile dye removal from water. 3 types of nano systems are included: carbon based, oxide based, polymer based or nitride based systems Includes references for further reading Simple presentation for easy and quick understanding of the subject
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