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Books on the topic 'Molecular mixture'

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Author: Grafiati

Published: 9 March 2023

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1

1948-, Needham Paul, ed. Mixture and chemical combination: And related essays. Dordrecht: Kluwer Academic Publishers, 2002.

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2

Molecular thermodynamics of complex systems. Berlin: Springer, 2009.

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3

Ballard, Carol. Mixtures and solutions. Chicago, Ill: Raintree, 2010.

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4

United States. National Aeronautics and Space Administration., ed. Kinetic model for the vibrational energy exchange in flowing molecular gas mixtures. Washington, D.C: National Aeronautics and Space Administration, 1987.

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5

Soleymani, Azita. Advanced topics in deformation and flow of dense gas-particle mixtures. Lappeenranta: Lappeenranta University of Technology, 2004.

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6

Needham, Paul, and Pierre Duhem. Mixture and Chemical Combination: And Related Essays. Springer, 2014.

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7

Needham, Paul, and Pierre Duhem. Mixture and Chemical Combination: And Related Essays. Springer London, Limited, 2013.

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8

Needham, Paul, and Pierre Duhem. Mixture and Chemical Combination: And Related Essays. Springer, 2011.

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9

Duhem, Pierre. Mixture and Chemical Combination: And Related Essays (Boston Studies in the Philosophy of Science). Springer, 2002.

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10

GAC adsorption of a mixture of natural organic matter and VOCs in the presence and absence of molecular oxygen. [Washington, D.C.?: U.S. Environmental Protection Agency, 1991.

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11

Aarts, D. G. A. L. Soft interfaces: the case of colloid–polymer mixtures. Oxford University Press, 2017. http://dx.doi.org/10.1093/oso/9780198789352.003.0013.

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In this chapter we discuss the interface of a phase separated colloid-polymer mixture. We start by highlighting a number of experimental studies, illustrating the richness of colloidal interface phenomena. This is followed by a derivation of the bulk phase behaviour within free volume theory. We subsequently calculate the interfacial tension using a squared gradient approach. The interfacial tension turns out to be ultralow, easily a million times smaller than a molecular interfacial tension. From the bulk and interface calculations we obtain the capillary length and compare to experiments, where good overall agreement is found. Finally, we focus on the thermal capillary waves of the interface and derive the static and dynamic height–height correlation functions, which describe the experimental data very well. We end with an outlook, where we address some outstanding questions concerning the behaviour of interfaces, to which colloids may provide unique insights.

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12

Carter, Joshua D., Chenxiang Lin, Yan Liu, Hao Yan, and Thomas H. LaBean. DNA-based self-assembly of nanostructures. Edited by A. V. Narlikar and Y. Y. Fu. Oxford University Press, 2017. http://dx.doi.org/10.1093/oxfordhb/9780199533053.013.24.

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This article examines the DNA-based self-assembly of nanostructures. It first reviews the development of DNA self-assembly and DNA-directed assembly, focusing on the main strategies and building blocks available in the modern molecular construction toolbox, including the design, construction, and analysis of nanostructures composed entirely of synthetic DNA, as well as origami nanostructures formed from a mixture of synthetic and biological DNA. In particular, it considers the stepwise covalent synthesis of DNA nanomaterials, unmediated assembly of DNA nanomaterials, hierarchical assembly, nucleated assembly, and algorithmic assembly. It then discusses DNA-directed assembly of heteromaterials such as proteins and peptides, gold nanoparticles, and multicomponent nanostructures. It also describes the use of complementary DNA cohesion as 'smart glue' for bringing together covalently linked functional groups, biomolecules, and nanomaterials. Finally, it evaluates the potential future of DNA-based self-assembly for nanoscale manufacturing for applications in medicine, electronics, photonics, and materials science.

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13

Huang, Yung-Hui. Thermodynamic properties of compressed liquids and liquid mixtures from fluctuation solution theory. 1986.

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14

Chemistry, Royal Society of. Challenges in Analysis of Complex Natural Mixtures: Faraday Discussion 218. Royal Society of Chemistry, The, 2019.

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15

Hassan, Ali. Phase behavior of multicomponent mixtures of complex molecules in supercritical fluids. 1997.

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16

Roe, Simon, ed. Protein Purification Techniques. Oxford University Press, 2001. http://dx.doi.org/10.1093/oso/9780199636747.001.0001.

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Proteins are an integral part of molecular and cellular structure and function and are probably the most purified type of biological molecule. In order to elucidate the structure and function of any protein it is first necessary to purify it. Protein purification techniques have evolved over the past ten years with improvements in equipment control, automation, and separation materials, and the introduction of new techniques such as affinity membranes and expanded beds. These developments have reduced the workload involved in protein purification, but there is still a need to consider how unit operations linked together to form a purification strategy, which can be scaled up if necessary. The two Practical Approach books on protein purification have therefore been thoroughly updated and rewritten where necessary. The core of both books is the provision of detailed practical guidelines aimed particularly at laboratory scale purification. Information on scale-up considerations is given where appropriate. The books are not comprehensive but do cover the major laboratory techniques and common sources of protein. Protein Purification Techniques focuses on unit operations and analytical techniques. It starts with an overview of purification strategy and then covers initial extraction and clarification techniques. The rest of the book concentrates on different purification methods with the emphasis being on chromatography. The final chapter considers general scale-up considerations. Protein Purification Applications describes purification strategies from common sources: mammalian cell culture, microbial cell culture, milk, animal tissue, and plant tissue. It also includes chapters on purification of inclusion bodies, fusion proteins, and purification for crystallography. A purification strategy that can produce a highly pure single protein from a crude mixture of proteins, carbohydrates, lipids, and cell debris to is a work of art to be admired. These books (available individually or as a set)are designed to give the laboratory worker the information needed to undertake the challenge of designing such a strategy.

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17

National Aeronautics and Space Administration (NASA) Staff. Effect of Nitric Oxide on Photochemical Ozone Formation in Mixtures of Air with Molecular Chlorine and with Trichlorofluoromethane. Independently Published, 2018.

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18

Penny, Harmon C. Vibrational Relaxation Times of Gaseous Mixtures of Diatomic Molecules and Their Effect on Rocket Performance. Creative Media Partners, LLC, 2021.

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19

OHagan, Derek T. Vaccine Adjuvants: Preparation Methods and Research Protocols (Methods in Molecular Medicine). Humana Press, 2000.

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20

Webb, Andrew. Colloids in critical illness. Oxford University Press, 2016. http://dx.doi.org/10.1093/med/9780199600830.003.0056.

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Colloid solutions are homogenous mixtures of large molecules suspended in a crystalloid solution. The efficacy of colloids as volume substitutes or expanders, and length of effect are determined by their physicochemical properties. Smaller volumes of colloid than crystalloid are required for resuscitation. The primary use of colloids is in the correction of circulating volume. Rather than using fixed haemodynamic endpoints, fluid can be given in small aliquots with assessment of the dynamic haemodynamic response to each aliquot. The aim of a fluid challenge is to produce a small, but significant (200 mL) and rapid increase in plasma volume with changes in central venous pressure or stroke volume used to judge fluid responsiveness. Colloid fluids give a reliable increase in plasma volume to judge fluid responsiveness.

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21

Schroeder, Daniel V. An Introduction to Thermal Physics. Oxford University Press, 2021. http://dx.doi.org/10.1093/oso/9780192895547.001.0001.

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Thermal physics deals with collections of large numbers of particles—typically 10²³ or so. Examples include the air in a balloon, the water in a lake, the electrons in a chunk of metal, and the photons given off by the sun. We can't possibly follow every detail of the motions of so many particles. So in thermal physics we assume that these motions are random, and we use the laws of probability to predict how the material as a whole ought to behave. Alternatively, we can measure the bulk properties of a material, and from these infer something about the particles it is made of. This book will give you a working understanding of thermal physics, assuming that you have already studied introductory physics and calculus. You will learn to apply the general laws of energy and entropy to engines, refrigerators, chemical reactions, phase transformations, and mixtures. You will also learn to use basic quantum physics and powerful statistical methods to predict in detail how temperature affects molecular speeds, vibrations of solids, electrical and magnetic behaviors, emission of light, and exotic low-temperature phenomena. The problems and worked examples explore applications not just within physics but also to engineering, chemistry, biology, geology, atmospheric science, astrophysics, cosmology, and everyday life.

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