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Books on the topic 'Biomimetic synthesis'

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Author: Grafiati
Published: 4 June 2021
Last updated: 6 September 2023

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1

Biomimetic organic synthesis. Weinheim: Wiley-VCH, 2011.

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2

Poupon, Erwan, and Bastien Nay, eds. Biomimetic Organic Synthesis. Weinheim, Germany: Wiley-VCH Verlag GmbH & Co. KGaA, 2011. http://dx.doi.org/10.1002/9783527634606.

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3

Sun, Xiao-Yu. Total Synthesis of Plakortide E and Biomimetic Synthesis of Plakortone B. Berlin, Heidelberg: Springer Berlin Heidelberg, 2012. http://dx.doi.org/10.1007/978-3-642-27195-3.

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4

service), SpringerLink (Online, ed. Total Synthesis of Plakortide E and Biomimetic Synthesis of Plakortone B. Berlin, Heidelberg: Springer Berlin Heidelberg, 2012.

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5

Harald, Gröger, ed. Asymmetric organocatalysis: From biomimetic concepts to applications in asymmetric synthesis. Weinheim: Wiley-VCH, 2005.

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6

H, Lima Arturo, ed. Biomimetic and supramolecular systems research. New York: Nova Science Publishers, 2008.

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7

Carnazza, Santina. Phage display as a tool for synthetic biology. Hauppauge, N.Y: Nova Science Publishers, 2010.

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8

1950-, Guglielmino Salvatore, ed. Phage display as a tool for synthetic biology. Hauppauge, N.Y: Nova Science Publishers, 2010.

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9

1952-, Roy René, and American Chemical Society. Division of Carbohydrate Chemistry, eds. Glycomimetics: Modern synthetic methodologies. Washington, D.C: American Chemical Society, 2005.

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10

Ronald, Breslow, ed. Artificial enzymes. Weinheim: Wiley-VCH, 2005.

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11

Seminar and Meeting on Ceramics, Cells, and Tissues (11th 2007 Faenza, Italy). Ceramics, cells, and tissues: Nanotechnology for functional repair and regenerative medicine : the role of ceramics as in bulk and as coating. Rome: Consiglio nazionale delle ricerche, 2008.

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12

Poupon, Erwan, and Bastien Nay. Biomimetic Organic Synthesis. Wiley & Sons, Limited, John, 2011.

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13

Poupon, Erwan, and Bastien Nay. Biomimetic Organic Synthesis. Wiley & Sons, Incorporated, John, 2011.

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14

Poupon, Erwan, and Bastien Nay. Biomimetic Organic Synthesis. Wiley & Sons, Incorporated, John, 2011.

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15

Poupon, Erwan, and Bastien Nay. Biomimetic Organic Synthesis. Wiley & Sons, Incorporated, John, 2011.

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16

Sulikowski, Gary A., and Daniel Romo. Biomimetic Synthesis of Natural and Unnatural Products. Wiley & Sons, Incorporated, John, 2004.

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17

Sun, Xiao-Yu. Total Synthesis of Plakortide e and Biomimetic Synthesis of Plakortone B. Springer Berlin / Heidelberg, 2014.

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18

Total Synthesis Of Plakortide E And Biomimetic Synthesis Of Plakortone B. Springer, 2012.

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19

Sun, Xiao-Yu. Total Synthesis of Plakortide E and Biomimetic Synthesis of Plakortone B. Springer, 2012.

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20

Berkessel, Albrecht, and Harald Gröger. Asymmetric Organocatalysis: From Biomimetic Concepts to Applications in Asymmetric Synthesis. Wiley-VCH, 2005.

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21

Berkessel, Albrecht, Harald Gröger, and David MacMillan. Asymmetric Organocatalysis: From Biomimetic Concepts to Applications in Asymmetric Synthesis. Wiley-VCH Verlag GmbH, 2005.

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22

Berkessel, Albrecht, Harald Gröger, and David MacMillan. Asymmetric Organocatalysis: From Biomimetic Concepts to Applications in Asymmetric Synthesis. Wiley & Sons, Incorporated, John, 2006.

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23

Kikuchi, Shota. Studies Toward the Biomimetic Synthesis of Marine Alkaloids. 2011.

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24

Pompe, Wolfgang, Gerhard Rödel, Hans-Jürgen Weiss, and Michael Mertig. Bio-Nanomaterials: Designing Materials Inspired by Nature. Wiley & Sons, Limited, John, 2013.

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25

Pompe, Wolfgang, Gerhard Rödel, Hans-Jürgen Weiss, and Michael Mertig. Bio-Nanomaterials: Designing Materials Inspired by Nature. Wiley & Sons, Incorporated, John, 2013.

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26

BioNanomaterials. Wiley-VCH Verlag GmbH, 2013.

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27

Pompe, Wolfgang, Gerhard Rödel, Hans-Jürgen Weiss, and Michael Mertig. Bio-Nanomaterials: Designing Materials Inspired by Nature. Wiley & Sons, Incorporated, John, 2013.

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28

Pompe, Wolfgang, Gerhard Rödel, Hans-Jürgen Weiss, and Michael Mertig. Bio-Nanomaterials: Designing Materials Inspired by Nature. Wiley & Sons, Incorporated, John, 2013.

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29

Lowman, Anthony, and Angela Dillow. Biomimetic Materials and Design: Biointerfacial Strategies, Tissue Engineering and Targeted Drug Delivery. Taylor & Francis Group, 2002.

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30

Lowman, Anthony, and Angela Dillow. Biomimetic Materials and Design: Biointerfacial Strategies, Tissue Engineering and Targeted Drug Delivery. Taylor & Francis Group, 2002.

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31

1970-, Dillow Angela K., and Lowman Anthony M. 1970-, eds. Biomimetic materials and design: Biointerfacial strategies, tissue engineering, and targeted drug delivery. New York: Marcel Dekker, 2002.

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32

Lowman, Anthony, and Angela Dillow. Biomimetic Materials and Design: Biointerfacial Strategies, Tissue Engineering and Targeted Drug Delivery. Taylor & Francis Group, 2002.

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33

Lowman, Anthony, and Angela Dillow. Biomimetic Materials and Design: Biointerfacial Strategies, Tissue Engineering and Targeted Drug Delivery. Taylor & Francis Group, 2002.

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34

Lowman, Anthony, and Angela Dillow. Biomimetic Materials and Design: Biointerfacial Strategies, Tissue Engineering and Targeted Drug Delivery. Taylor & Francis Group, 2002.

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35

Jelinek, Raz. Cellular and Biomolecular Recognition: Synthetic and Non-Biological Molecules. Wiley & Sons, Incorporated, John, 2009.

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36

Breslow, Ronald. Artificial Enzymes. Wiley-VCH, 2005.

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37

Adamson, D. H. Biomimetic Synthetic Polymers: Inspired by Nature's Form and Function. Wiley & Sons, Incorporated, John, 2019.

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38

Adamson, D. H. Biomimetic Synthetic Polymers: Inspired by Nature's Form and Function. Wiley & Sons, Incorporated, John, 2019.

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39

Adamson, D. H. Biomimetic Synthetic Polymers: Inspired by Nature's Form and Function. Wiley & Sons, Incorporated, John, 2019.

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40

Ayers, Joseph. Biological Intelligence for Biomimetic Robots: An Introduction to Synthetic Neuroethology. MIT Press, 2023.

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41

Breslow, Ronald. Artificial Enzymes. Wiley-VCH Verlag GmbH, 2006.

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42

Breslow, Ronald. Artificial Enzymes. Wiley & Sons, Incorporated, John, 2006.

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43

Jelinek, Raz. Cellular and Biomolecular Recognition: Synthetic and Non-Biological Molecules. Wiley & Sons, Limited, John, 2009.

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44

Ayers, Joseph. Biohybrid robots are synthetic biology systems. Oxford University Press, 2018. http://dx.doi.org/10.1093/oso/9780199674923.003.0051.

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This chapter describes how synthetic biology and organic electronics can integrate neurobiology and robotics to form a basis for biohybrid robots and synthetic neuroethology. Biomimetic robots capture the performance advantages of animal models by mimicking the behavioral control schemes evolved in nature, based on modularized devices that capture the biomechanics and control principles of the nervous system. However, current robots are blind to chemical senses, difficult to miniaturize, and require chemical batteries. These obstacles can be overcome by integration of living engineered cells. Synthetic biology seeks to build devices and systems from fungible gene parts (gene systems coding different proteins) integrated into a chassis (induced pluripotent eukaryotic cells, yeast, or bacteria) to produce devices with properties not found in nature. Biohybrid robots are examples of such systems (interacting sets of devices). A nascent literature describes genes that can mediate organ levels of organization. Such capabilities, applied to biohybrid systems, portend truly biological robots guided, controlled, and actuated solely by life processes.
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45

Prescott, Tony J., and Leah Krubitzer. Evo-devo. Oxford University Press, 2018. http://dx.doi.org/10.1093/oso/9780199674923.003.0008.

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This chapter explores how principles underlying natural evo-devo (evolution and development) continue to inspire the design of artificial systems from models of cell growth through to simulated three-dimensional evolved creatures. Research on biological evolvability shows that phenotypic outcomes depend on multiple interactions across different organizational levels—the adult organism is the outcome of a series of genetic cascades modulated in time and space by the wider embryological, bodily, and environmental context. This chapter reviews evo-devo principles discovered in biology and explores their potential for improving the evolvability of artificial systems. Biological topics covered include adaptive, selective, and generative mechanisms, and the role of epigenetic processes in creating phenotypic diversity. Modeling approaches include L-systems, Boolean networks, reaction-diffusion processes, genetic algorithms, and artificial embryogeny. A particular focus is on the evolution and development of the mammalian brain and the possibility of designing, using synthetic evo-devo approaches, brain-like control architectures for biomimetic robots.
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46

Wortham, Robert H., and Joanna J. Bryson. Communication. Oxford University Press, 2018. http://dx.doi.org/10.1093/oso/9780199674923.003.0033.

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From a traditional engineering perspective, communication is about effecting control over a distance, and its primary concern is the reliability of transmission. This chapter reviews communication in nature, describing its evolution from the perspective of the selfish gene. Communication in nature is ubiquitous and generally honest, and arises as much from collaboration as manipulation. We show that context and relevance allow effective communication with little information transfer, particularly between organisms with similar capacities and goals. Human language differs fundamentally from the non-verbal communication we share with other animals; robots may need to accommodate both. We document progress in AI capacities to generate synthetic emotion and to sense and classify human emotion. Communication in contemporary biomimetic systems is between robots in swarm robotics, but also between robot and human for both autonomous and collaborative systems. We suggest increased future emphasis on capacities to receive and comprehend signs, and on the pragmatic utility of communication and cooperation.
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