Handbook of Biomimetics and Bioinspiration :: Biologically-Driven Engineering of Materials, Processes, Devices, and Systems (In 3 Volumes).
Global warming, pollution, food and water shortage, cyberspace insecurity, over-population, land erosion, and an overburdened health care system are major issues facing the human race and our planet. These challenges have presented a mandate to develop ""natural"" or ""...
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Weitere Verfasser: | , , , |
Format: | Elektronisch E-Book |
Sprache: | English |
Veröffentlicht: |
Singapore :
World Scientific Publishing Company,
2014.
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Schriftenreihe: | World Scientific series in nanoscience and nanotechnology.
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Schlagworte: | |
Online-Zugang: | Volltext |
Zusammenfassung: | Global warming, pollution, food and water shortage, cyberspace insecurity, over-population, land erosion, and an overburdened health care system are major issues facing the human race and our planet. These challenges have presented a mandate to develop ""natural"" or ""green"" technologies using nature and the living system as a guide to rationally design processes, devices, and systems. This approach has given rise to a new paradigm, one in which innovation goes hand-in-hand with less waste, less pollution, and less invasiveness to life on earth. Bioinspiration has also led to the development |
Beschreibung: | 3.1. Templated moth-eye ARCs on crystalline silicon wafers. |
Beschreibung: | 1 online resource (1462 pages, 3 volumes) |
Bibliographie: | Includes bibliographical references and index. |
ISBN: | 9789814354936 9814354937 |
Internformat
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245 | 1 | 0 | |a Handbook of Biomimetics and Bioinspiration : |b Biologically-Driven Engineering of Materials, Processes, Devices, and Systems (In 3 Volumes). |
264 | 1 | |a Singapore : |b World Scientific Publishing Company, |c 2014. | |
300 | |a 1 online resource (1462 pages, 3 volumes) | ||
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490 | 1 | |a World Scientific Series in Nanoscience and Nanotechnology ; |v v. 9 | |
546 | |a Text in English. | ||
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505 | 0 | |a Volume 1; Preface; About the Editors; About the Contributors; 1. Bioinspired Fabrication of Nanostructures from Tissue Slices; 1. Introduction; 2. Tissue Processing and Skiving; 2.1. Decellularizing; 2.2. Sectioning tools; 3. Applications; 3.1. Template for nanofabrication; 3.1.1. Metallic nanostructures by staining-and-etching; 3.1.2. Replica molding; 3.2. Stacking and rolling for tissue engineering; 3.2.1. Two-dimensional scaffolds; 3.2.2. Three-dimensional tubular scaffolds; 4. Conclusions and Outlook; 4.1. Future perspective; 4.2. Conclusion; Acknowledgments; Reference. | |
505 | 8 | |a 2. Bioinspired Artificial Muscles Based on Dielectric Elastomers1. Introduction; 2. Dielectric Elastomer Artificial Muscles; 3. Example of Application: Bioinspired Tunable Lenses; 4. Conclusions and Outlook; Acknowledgments; References; 3. Bioinspired Engineering of Multifunctional Devices; 1. Introduction; 2. Physiological Phenomena; 2.1. Recognition-multivalent binding; 2.1.1. Extracellular multivalent binding events; 2.1.2. Intracellular multivalent binding events; 2.2. Molecular self-assembly; 2.3. Stimuli-responsive processes; 2.4. Transfer of genetic materials. | |
505 | 8 | |a 2.5. Tissue regeneration/wound healing2.6. Natural surface architecture and adhesiveness; 3. Synthetic and Natural Biomedical Polymers Used for Biomimicry Applications; 4. Nature-Inspired Engineering; 4.1. Biomedical engineering for drug/gene delivery; 4.1.1. Multivalent binding-based cell targeting, therapy and gene delivery for cancer; 4.1.1.1. Cancer cell targeting through multivalent binding; 4.1.1.2. Delivery of anticancer therapeutics using multivalent dendrimers; 4.1.1.3. Anticancer gene delivery using multivalent dendrimers; 4.1.2. Drug delivery systems using self-assembly. | |
505 | 8 | |a 4.1.2.1. Micelles and liposomes4.1.2.2. Supramolecules and nanoparticles; 4.1.3. Drug delivery system using environmentally responsive materials; 4.2. Engineering strategies for diagnostics; 4.2.1. Multivalent binding-based diagnostics; 4.2.2. Self-assembly-based diagnostics; 4.2.3. Stimuli-responsive materials for diagnostics; 4.2.4. Biomimetic surface for diagnostics; 4.3. Engineering strategies for tissue regeneration; 4.4. Engineering strategies for biomimetic surfaces; 4.4.1. Self-cleaning surfaces; 4.4.2. Bioinspired optical devices with antireflection; 4.4.3. Gecko-inspired adhesives. | |
505 | 8 | |a 5. ConclusionsReferences; 4. Bioinspired Self-Cleaning Antireflection Coatings; 1. Introduction; 1.1. Antireflection coatings; 1.1.1. Traditional quarter-wavelength and multilayer antireflection coatings; 1.1.2. Bioinspired broadband moth-eye antireflection coatings; 1.2. Bioinspired self-cleaning coatings; 1.3. Overview of the chapter; 2. Wafer-Scale Bottom-Up Self-Assembly of Colloidal Microspheres; 2.1. Spin-coating-based colloidal self-assembly; 2.2. Colloidal self-assembly at air/water inferface; 3. Templating Nanofabrication of Moth-Eye ARCs on Semiconductors. | |
500 | |a 3.1. Templated moth-eye ARCs on crystalline silicon wafers. | ||
520 | |a Global warming, pollution, food and water shortage, cyberspace insecurity, over-population, land erosion, and an overburdened health care system are major issues facing the human race and our planet. These challenges have presented a mandate to develop ""natural"" or ""green"" technologies using nature and the living system as a guide to rationally design processes, devices, and systems. This approach has given rise to a new paradigm, one in which innovation goes hand-in-hand with less waste, less pollution, and less invasiveness to life on earth. Bioinspiration has also led to the development | ||
504 | |a Includes bibliographical references and index. | ||
650 | 0 | |a Biomimicry |v Handbooks, manuals, etc. | |
650 | 0 | |a Bionics |v Handbooks, manuals, etc. | |
650 | 0 | |a Biomimetics |v Handbooks, manuals, etc. | |
650 | 6 | |a Bionique |v Guides, manuels, etc. | |
650 | 6 | |a Chimie biomimétique |v Guides, manuels, etc. | |
650 | 7 | |a TECHNOLOGY & ENGINEERING |x Engineering (General) |2 bisacsh | |
650 | 7 | |a TECHNOLOGY & ENGINEERING |x Reference. |2 bisacsh | |
650 | 7 | |a Biomimetics |2 fast | |
650 | 7 | |a Biomimicry |2 fast | |
650 | 7 | |a Bionics |2 fast | |
655 | 2 | |a Handbook |0 https://id.nlm.nih.gov/mesh/D020479 | |
655 | 7 | |a handbooks. |2 aat | |
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655 | 7 | |a Guides et manuels. |2 rvmgf | |
700 | 1 | |a Jabbari, E. |q (Esmaiel), |e editor. |1 https://id.oclc.org/worldcat/entity/E39PBJtGXJQkpkfmdQh93DY773 |0 http://id.loc.gov/authorities/names/n2010183293 | |
700 | 1 | |a Kim, Deok-Ho, |e editor. | |
700 | 1 | |a Lee, Luke P., |e editor. | |
700 | 1 | |a Ghaemmaghami, Amir, |e editor. | |
758 | |i has work: |a Handbook of biomimetics and bioinspiration (Text) |1 https://id.oclc.org/worldcat/entity/E39PCGrmbccdWVyPTQMQ87GXgq |4 https://id.oclc.org/worldcat/ontology/hasWork | ||
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author | Khademhosseini, Ali |
author2 | Jabbari, E. (Esmaiel) Kim, Deok-Ho Lee, Luke P. Ghaemmaghami, Amir |
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author_facet | Khademhosseini, Ali Jabbari, E. (Esmaiel) Kim, Deok-Ho Lee, Luke P. Ghaemmaghami, Amir |
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callnumber-label | TA164 |
callnumber-raw | TA164 .J384 2014eb |
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contents | Volume 1; Preface; About the Editors; About the Contributors; 1. Bioinspired Fabrication of Nanostructures from Tissue Slices; 1. Introduction; 2. Tissue Processing and Skiving; 2.1. Decellularizing; 2.2. Sectioning tools; 3. Applications; 3.1. Template for nanofabrication; 3.1.1. Metallic nanostructures by staining-and-etching; 3.1.2. Replica molding; 3.2. Stacking and rolling for tissue engineering; 3.2.1. Two-dimensional scaffolds; 3.2.2. Three-dimensional tubular scaffolds; 4. Conclusions and Outlook; 4.1. Future perspective; 4.2. Conclusion; Acknowledgments; Reference. 2. Bioinspired Artificial Muscles Based on Dielectric Elastomers1. Introduction; 2. Dielectric Elastomer Artificial Muscles; 3. Example of Application: Bioinspired Tunable Lenses; 4. Conclusions and Outlook; Acknowledgments; References; 3. Bioinspired Engineering of Multifunctional Devices; 1. Introduction; 2. Physiological Phenomena; 2.1. Recognition-multivalent binding; 2.1.1. Extracellular multivalent binding events; 2.1.2. Intracellular multivalent binding events; 2.2. Molecular self-assembly; 2.3. Stimuli-responsive processes; 2.4. Transfer of genetic materials. 2.5. Tissue regeneration/wound healing2.6. Natural surface architecture and adhesiveness; 3. Synthetic and Natural Biomedical Polymers Used for Biomimicry Applications; 4. Nature-Inspired Engineering; 4.1. Biomedical engineering for drug/gene delivery; 4.1.1. Multivalent binding-based cell targeting, therapy and gene delivery for cancer; 4.1.1.1. Cancer cell targeting through multivalent binding; 4.1.1.2. Delivery of anticancer therapeutics using multivalent dendrimers; 4.1.1.3. Anticancer gene delivery using multivalent dendrimers; 4.1.2. Drug delivery systems using self-assembly. 4.1.2.1. Micelles and liposomes4.1.2.2. Supramolecules and nanoparticles; 4.1.3. Drug delivery system using environmentally responsive materials; 4.2. Engineering strategies for diagnostics; 4.2.1. Multivalent binding-based diagnostics; 4.2.2. Self-assembly-based diagnostics; 4.2.3. Stimuli-responsive materials for diagnostics; 4.2.4. Biomimetic surface for diagnostics; 4.3. Engineering strategies for tissue regeneration; 4.4. Engineering strategies for biomimetic surfaces; 4.4.1. Self-cleaning surfaces; 4.4.2. Bioinspired optical devices with antireflection; 4.4.3. Gecko-inspired adhesives. 5. ConclusionsReferences; 4. Bioinspired Self-Cleaning Antireflection Coatings; 1. Introduction; 1.1. Antireflection coatings; 1.1.1. Traditional quarter-wavelength and multilayer antireflection coatings; 1.1.2. Bioinspired broadband moth-eye antireflection coatings; 1.2. Bioinspired self-cleaning coatings; 1.3. Overview of the chapter; 2. Wafer-Scale Bottom-Up Self-Assembly of Colloidal Microspheres; 2.1. Spin-coating-based colloidal self-assembly; 2.2. Colloidal self-assembly at air/water inferface; 3. Templating Nanofabrication of Moth-Eye ARCs on Semiconductors. |
ctrlnum | (OCoLC)884017179 |
dewey-full | 620.82 |
dewey-hundreds | 600 - Technology (Applied sciences) |
dewey-ones | 620 - Engineering and allied operations |
dewey-raw | 620.82 |
dewey-search | 620.82 |
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format | Electronic eBook |
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genre | Handbook https://id.nlm.nih.gov/mesh/D020479 handbooks. aat Handbooks and manuals fast Handbooks and manuals. lcgft http://id.loc.gov/authorities/genreForms/gf2014026109 Guides et manuels. rvmgf |
genre_facet | Handbook handbooks. Handbooks and manuals Handbooks and manuals. Guides et manuels. |
id | ZDB-4-EBA-ocn884017179 |
illustrated | Not Illustrated |
indexdate | 2024-11-27T13:26:05Z |
institution | BVB |
isbn | 9789814354936 9814354937 |
language | English |
oclc_num | 884017179 |
open_access_boolean | |
owner | MAIN DE-863 DE-BY-FWS |
owner_facet | MAIN DE-863 DE-BY-FWS |
physical | 1 online resource (1462 pages, 3 volumes) |
psigel | ZDB-4-EBA |
publishDate | 2014 |
publishDateSearch | 2014 |
publishDateSort | 2014 |
publisher | World Scientific Publishing Company, |
record_format | marc |
series | World Scientific series in nanoscience and nanotechnology. |
series2 | World Scientific Series in Nanoscience and Nanotechnology ; |
spelling | Khademhosseini, Ali, author. http://id.loc.gov/authorities/names/nb2008007763 Handbook of Biomimetics and Bioinspiration : Biologically-Driven Engineering of Materials, Processes, Devices, and Systems (In 3 Volumes). Singapore : World Scientific Publishing Company, 2014. 1 online resource (1462 pages, 3 volumes) text txt rdacontent computer c rdamedia online resource cr rdacarrier World Scientific Series in Nanoscience and Nanotechnology ; v. 9 Text in English. Print version record. Volume 1; Preface; About the Editors; About the Contributors; 1. Bioinspired Fabrication of Nanostructures from Tissue Slices; 1. Introduction; 2. Tissue Processing and Skiving; 2.1. Decellularizing; 2.2. Sectioning tools; 3. Applications; 3.1. Template for nanofabrication; 3.1.1. Metallic nanostructures by staining-and-etching; 3.1.2. Replica molding; 3.2. Stacking and rolling for tissue engineering; 3.2.1. Two-dimensional scaffolds; 3.2.2. Three-dimensional tubular scaffolds; 4. Conclusions and Outlook; 4.1. Future perspective; 4.2. Conclusion; Acknowledgments; Reference. 2. Bioinspired Artificial Muscles Based on Dielectric Elastomers1. Introduction; 2. Dielectric Elastomer Artificial Muscles; 3. Example of Application: Bioinspired Tunable Lenses; 4. Conclusions and Outlook; Acknowledgments; References; 3. Bioinspired Engineering of Multifunctional Devices; 1. Introduction; 2. Physiological Phenomena; 2.1. Recognition-multivalent binding; 2.1.1. Extracellular multivalent binding events; 2.1.2. Intracellular multivalent binding events; 2.2. Molecular self-assembly; 2.3. Stimuli-responsive processes; 2.4. Transfer of genetic materials. 2.5. Tissue regeneration/wound healing2.6. Natural surface architecture and adhesiveness; 3. Synthetic and Natural Biomedical Polymers Used for Biomimicry Applications; 4. Nature-Inspired Engineering; 4.1. Biomedical engineering for drug/gene delivery; 4.1.1. Multivalent binding-based cell targeting, therapy and gene delivery for cancer; 4.1.1.1. Cancer cell targeting through multivalent binding; 4.1.1.2. Delivery of anticancer therapeutics using multivalent dendrimers; 4.1.1.3. Anticancer gene delivery using multivalent dendrimers; 4.1.2. Drug delivery systems using self-assembly. 4.1.2.1. Micelles and liposomes4.1.2.2. Supramolecules and nanoparticles; 4.1.3. Drug delivery system using environmentally responsive materials; 4.2. Engineering strategies for diagnostics; 4.2.1. Multivalent binding-based diagnostics; 4.2.2. Self-assembly-based diagnostics; 4.2.3. Stimuli-responsive materials for diagnostics; 4.2.4. Biomimetic surface for diagnostics; 4.3. Engineering strategies for tissue regeneration; 4.4. Engineering strategies for biomimetic surfaces; 4.4.1. Self-cleaning surfaces; 4.4.2. Bioinspired optical devices with antireflection; 4.4.3. Gecko-inspired adhesives. 5. ConclusionsReferences; 4. Bioinspired Self-Cleaning Antireflection Coatings; 1. Introduction; 1.1. Antireflection coatings; 1.1.1. Traditional quarter-wavelength and multilayer antireflection coatings; 1.1.2. Bioinspired broadband moth-eye antireflection coatings; 1.2. Bioinspired self-cleaning coatings; 1.3. Overview of the chapter; 2. Wafer-Scale Bottom-Up Self-Assembly of Colloidal Microspheres; 2.1. Spin-coating-based colloidal self-assembly; 2.2. Colloidal self-assembly at air/water inferface; 3. Templating Nanofabrication of Moth-Eye ARCs on Semiconductors. 3.1. Templated moth-eye ARCs on crystalline silicon wafers. Global warming, pollution, food and water shortage, cyberspace insecurity, over-population, land erosion, and an overburdened health care system are major issues facing the human race and our planet. These challenges have presented a mandate to develop ""natural"" or ""green"" technologies using nature and the living system as a guide to rationally design processes, devices, and systems. This approach has given rise to a new paradigm, one in which innovation goes hand-in-hand with less waste, less pollution, and less invasiveness to life on earth. Bioinspiration has also led to the development Includes bibliographical references and index. Biomimicry Handbooks, manuals, etc. Bionics Handbooks, manuals, etc. Biomimetics Handbooks, manuals, etc. Bionique Guides, manuels, etc. Chimie biomimétique Guides, manuels, etc. TECHNOLOGY & ENGINEERING Engineering (General) bisacsh TECHNOLOGY & ENGINEERING Reference. bisacsh Biomimetics fast Biomimicry fast Bionics fast Handbook https://id.nlm.nih.gov/mesh/D020479 handbooks. aat Handbooks and manuals fast Handbooks and manuals. lcgft http://id.loc.gov/authorities/genreForms/gf2014026109 Guides et manuels. rvmgf Jabbari, E. (Esmaiel), editor. https://id.oclc.org/worldcat/entity/E39PBJtGXJQkpkfmdQh93DY773 http://id.loc.gov/authorities/names/n2010183293 Kim, Deok-Ho, editor. Lee, Luke P., editor. Ghaemmaghami, Amir, editor. has work: Handbook of biomimetics and bioinspiration (Text) https://id.oclc.org/worldcat/entity/E39PCGrmbccdWVyPTQMQ87GXgq https://id.oclc.org/worldcat/ontology/hasWork Print version: Khademhosseini, Ali. Handbook of Biomimetics and Bioinspiration : Biologically-Driven Engineering of Materials, Processes, Devices, and Systems (In 3 Volumes). Singapore : World Scientific Publishing Company, ©2014 9789814354929 World Scientific series in nanoscience and nanotechnology. http://id.loc.gov/authorities/names/no2010171511 FWS01 ZDB-4-EBA FWS_PDA_EBA https://search.ebscohost.com/login.aspx?direct=true&scope=site&db=nlebk&AN=811793 Volltext |
spellingShingle | Khademhosseini, Ali Handbook of Biomimetics and Bioinspiration : Biologically-Driven Engineering of Materials, Processes, Devices, and Systems (In 3 Volumes). World Scientific series in nanoscience and nanotechnology. Volume 1; Preface; About the Editors; About the Contributors; 1. Bioinspired Fabrication of Nanostructures from Tissue Slices; 1. Introduction; 2. Tissue Processing and Skiving; 2.1. Decellularizing; 2.2. Sectioning tools; 3. Applications; 3.1. Template for nanofabrication; 3.1.1. Metallic nanostructures by staining-and-etching; 3.1.2. Replica molding; 3.2. Stacking and rolling for tissue engineering; 3.2.1. Two-dimensional scaffolds; 3.2.2. Three-dimensional tubular scaffolds; 4. Conclusions and Outlook; 4.1. Future perspective; 4.2. Conclusion; Acknowledgments; Reference. 2. Bioinspired Artificial Muscles Based on Dielectric Elastomers1. Introduction; 2. Dielectric Elastomer Artificial Muscles; 3. Example of Application: Bioinspired Tunable Lenses; 4. Conclusions and Outlook; Acknowledgments; References; 3. Bioinspired Engineering of Multifunctional Devices; 1. Introduction; 2. Physiological Phenomena; 2.1. Recognition-multivalent binding; 2.1.1. Extracellular multivalent binding events; 2.1.2. Intracellular multivalent binding events; 2.2. Molecular self-assembly; 2.3. Stimuli-responsive processes; 2.4. Transfer of genetic materials. 2.5. Tissue regeneration/wound healing2.6. Natural surface architecture and adhesiveness; 3. Synthetic and Natural Biomedical Polymers Used for Biomimicry Applications; 4. Nature-Inspired Engineering; 4.1. Biomedical engineering for drug/gene delivery; 4.1.1. Multivalent binding-based cell targeting, therapy and gene delivery for cancer; 4.1.1.1. Cancer cell targeting through multivalent binding; 4.1.1.2. Delivery of anticancer therapeutics using multivalent dendrimers; 4.1.1.3. Anticancer gene delivery using multivalent dendrimers; 4.1.2. Drug delivery systems using self-assembly. 4.1.2.1. Micelles and liposomes4.1.2.2. Supramolecules and nanoparticles; 4.1.3. Drug delivery system using environmentally responsive materials; 4.2. Engineering strategies for diagnostics; 4.2.1. Multivalent binding-based diagnostics; 4.2.2. Self-assembly-based diagnostics; 4.2.3. Stimuli-responsive materials for diagnostics; 4.2.4. Biomimetic surface for diagnostics; 4.3. Engineering strategies for tissue regeneration; 4.4. Engineering strategies for biomimetic surfaces; 4.4.1. Self-cleaning surfaces; 4.4.2. Bioinspired optical devices with antireflection; 4.4.3. Gecko-inspired adhesives. 5. ConclusionsReferences; 4. Bioinspired Self-Cleaning Antireflection Coatings; 1. Introduction; 1.1. Antireflection coatings; 1.1.1. Traditional quarter-wavelength and multilayer antireflection coatings; 1.1.2. Bioinspired broadband moth-eye antireflection coatings; 1.2. Bioinspired self-cleaning coatings; 1.3. Overview of the chapter; 2. Wafer-Scale Bottom-Up Self-Assembly of Colloidal Microspheres; 2.1. Spin-coating-based colloidal self-assembly; 2.2. Colloidal self-assembly at air/water inferface; 3. Templating Nanofabrication of Moth-Eye ARCs on Semiconductors. Biomimicry Handbooks, manuals, etc. Bionics Handbooks, manuals, etc. Biomimetics Handbooks, manuals, etc. Bionique Guides, manuels, etc. Chimie biomimétique Guides, manuels, etc. TECHNOLOGY & ENGINEERING Engineering (General) bisacsh TECHNOLOGY & ENGINEERING Reference. bisacsh Biomimetics fast Biomimicry fast Bionics fast |
subject_GND | https://id.nlm.nih.gov/mesh/D020479 http://id.loc.gov/authorities/genreForms/gf2014026109 |
title | Handbook of Biomimetics and Bioinspiration : Biologically-Driven Engineering of Materials, Processes, Devices, and Systems (In 3 Volumes). |
title_auth | Handbook of Biomimetics and Bioinspiration : Biologically-Driven Engineering of Materials, Processes, Devices, and Systems (In 3 Volumes). |
title_exact_search | Handbook of Biomimetics and Bioinspiration : Biologically-Driven Engineering of Materials, Processes, Devices, and Systems (In 3 Volumes). |
title_full | Handbook of Biomimetics and Bioinspiration : Biologically-Driven Engineering of Materials, Processes, Devices, and Systems (In 3 Volumes). |
title_fullStr | Handbook of Biomimetics and Bioinspiration : Biologically-Driven Engineering of Materials, Processes, Devices, and Systems (In 3 Volumes). |
title_full_unstemmed | Handbook of Biomimetics and Bioinspiration : Biologically-Driven Engineering of Materials, Processes, Devices, and Systems (In 3 Volumes). |
title_short | Handbook of Biomimetics and Bioinspiration : |
title_sort | handbook of biomimetics and bioinspiration biologically driven engineering of materials processes devices and systems in 3 volumes |
title_sub | Biologically-Driven Engineering of Materials, Processes, Devices, and Systems (In 3 Volumes). |
topic | Biomimicry Handbooks, manuals, etc. Bionics Handbooks, manuals, etc. Biomimetics Handbooks, manuals, etc. Bionique Guides, manuels, etc. Chimie biomimétique Guides, manuels, etc. TECHNOLOGY & ENGINEERING Engineering (General) bisacsh TECHNOLOGY & ENGINEERING Reference. bisacsh Biomimetics fast Biomimicry fast Bionics fast |
topic_facet | Biomimicry Handbooks, manuals, etc. Bionics Handbooks, manuals, etc. Biomimetics Handbooks, manuals, etc. Bionique Guides, manuels, etc. Chimie biomimétique Guides, manuels, etc. TECHNOLOGY & ENGINEERING Engineering (General) TECHNOLOGY & ENGINEERING Reference. Biomimetics Biomimicry Bionics Handbook handbooks. Handbooks and manuals Handbooks and manuals. Guides et manuels. |
url | https://search.ebscohost.com/login.aspx?direct=true&scope=site&db=nlebk&AN=811793 |
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