The Resource Self-Assembling Biomaterials : Molecular Design, Characterization and Application in Biology and Medicine
Self-Assembling Biomaterials : Molecular Design, Characterization and Application in Biology and Medicine
Resource Information
The item Self-Assembling Biomaterials : Molecular Design, Characterization and Application in Biology and Medicine represents a specific, individual, material embodiment of a distinct intellectual or artistic creation found in Missouri University of Science & Technology Library.This item is available to borrow from 1 library branch.
Resource Information
The item Self-Assembling Biomaterials : Molecular Design, Characterization and Application in Biology and Medicine represents a specific, individual, material embodiment of a distinct intellectual or artistic creation found in Missouri University of Science & Technology Library.
This item is available to borrow from 1 library branch.
- Extent
- 1 online resource (700 pages)
- Note
- 10.1 Introduction to host-guest interactions
- Contents
-
- Intro; Title page; Table of Contents; Copyright; List of Contributors; 1: Self-assembling biomaterials: Beginnings, recent progress, and the future; Part One: Molecular building blocks; 2: Designing self-assembling biomaterials with controlled mechanical and biological performance; Abstract; 2.1 Introduction; 2.2 Molecular design; 2.3 Applications in biology; 2.4 Conclusion and future trends; 3: Self-assembling hydrogels from reverse-engineered silk; Abstract; 3.1 Introduction; 3.2 Silk structure-function relationships; 3.3 Reverse engineering the silk cocoon
- 3.4 Rationale for using self-assembling silk hydrogels for biomedical applications3.5 Self-assembling silk hydrogels and their applications; 3.6 Conclusion and future trends; Acknowledgments; 4: Elastin-like proteins: Molecular design for self-assembling; Abstract; 4.1 Introduction; 4.2 Coacervates; 4.3 Nanoparticles; 4.4 Hybrid elastin-like recombinamer nanoparticles; 4.5 Self-assembly into fibrillar structures; 4.6 Self-assembled hydrogels; 4.7 Other structures; 4.8 Conclusion and future trends; 5: Sweet building blocks for self-assembling biomaterials with molecular recognition; Abstract
- 5.1 Introduction5.2 Supramolecular systems using unmodified sugars; 5.3 Supramolecular systems with glycopolymers and carbohydrate amphiphiles; 5.4 Systems responsive to targeted external stimuli; 5.5 Conclusion and future trends; 6: Peptoid self-assembly and opportunities for creating protein-mimetic biomaterials and biointerfaces; Abstract; 6.1 Introduction; 6.2 "Conventional" peptoid secondary and tertiary structures; 6.3 Therapeutic and diagnostic applications; 6.4 Peptoid biointerfaces and self-assembled materials; 6.5 Enzymatic recognition and biocompatibility of peptoids
- 6.6 Conclusion and future trends7: Lipid bolaamphiphiles for fabricating membrane-mimetic biomaterials; Abstract; 7.1 Introduction; 7.2 Different classes of bolaamphiphiles; 7.3 Biomimetic membranes; 7.4 Translocation across vesicle membranes, membrane dynamics, flip-flop; 7.5 Self-assembly of bolaamphiphiles into nanostructures; 7.6 Structural analysis and experimental techniques for characterizing bolaamphiphiles; 7.7 Conception of some original bolaamphiphiles; 7.8 Applications of bolaamphiphiles in recognition, encapsulation, drug, and gene delivery; 7.9 Conclusion and future trends
- 8: DNA-based materials as self-assembling scaffolds for interfacing with cellsAbstract; Acknowledgments; 8.1 Introduction; 8.2 Three-dimensional hydrogels; 8.3 Functional two-dimensional surfaces; 8.4 Conclusion and future trends; 9: Supramolecular biomaterials based on ureidopyrimidinone and benzene-1,3,5-tricarboxamide moieties; Abstract; 9.1 Introduction; 9.2 Solid biomaterials based on ureidopyrimidinone moieties; 9.3 Supramolecular hydrogels; 9.4 Supramolecular fibers in solution; 9.5 Conclusion and future trends; 10: Self-assembled biomaterials using host-guest interactions; Abstract
- Isbn
- 9780081020128
- Label
- Self-Assembling Biomaterials : Molecular Design, Characterization and Application in Biology and Medicine
- Title
- Self-Assembling Biomaterials
- Title remainder
- Molecular Design, Characterization and Application in Biology and Medicine
- Language
- eng
- Cataloging source
- EBLCP
- http://library.link/vocab/creatorName
- Azevedo, Helena S
- Dewey number
- 610.28
- Index
- no index present
- LC call number
- R857.M3
- LC item number
- .S454 2018
- Literary form
- non fiction
- Nature of contents
- dictionaries
- http://library.link/vocab/relatedWorkOrContributorName
- Silva, Riccardo M. P. da
- Series statement
- Woodhead Publishing Series in Biomaterials Ser
- http://library.link/vocab/subjectName
-
- Biomedical materials
- Self-assembly (Chemistry)
- Biomedical materials
- Self-assembly (Chemistry)
- Label
- Self-Assembling Biomaterials : Molecular Design, Characterization and Application in Biology and Medicine
- Note
- 10.1 Introduction to host-guest interactions
- Carrier category
- online resource
- Carrier category code
-
- cr
- Carrier MARC source
- rdacarrier
- Content category
- text
- Content type code
-
- txt
- Content type MARC source
- rdacontent
- Contents
-
- Intro; Title page; Table of Contents; Copyright; List of Contributors; 1: Self-assembling biomaterials: Beginnings, recent progress, and the future; Part One: Molecular building blocks; 2: Designing self-assembling biomaterials with controlled mechanical and biological performance; Abstract; 2.1 Introduction; 2.2 Molecular design; 2.3 Applications in biology; 2.4 Conclusion and future trends; 3: Self-assembling hydrogels from reverse-engineered silk; Abstract; 3.1 Introduction; 3.2 Silk structure-function relationships; 3.3 Reverse engineering the silk cocoon
- 3.4 Rationale for using self-assembling silk hydrogels for biomedical applications3.5 Self-assembling silk hydrogels and their applications; 3.6 Conclusion and future trends; Acknowledgments; 4: Elastin-like proteins: Molecular design for self-assembling; Abstract; 4.1 Introduction; 4.2 Coacervates; 4.3 Nanoparticles; 4.4 Hybrid elastin-like recombinamer nanoparticles; 4.5 Self-assembly into fibrillar structures; 4.6 Self-assembled hydrogels; 4.7 Other structures; 4.8 Conclusion and future trends; 5: Sweet building blocks for self-assembling biomaterials with molecular recognition; Abstract
- 5.1 Introduction5.2 Supramolecular systems using unmodified sugars; 5.3 Supramolecular systems with glycopolymers and carbohydrate amphiphiles; 5.4 Systems responsive to targeted external stimuli; 5.5 Conclusion and future trends; 6: Peptoid self-assembly and opportunities for creating protein-mimetic biomaterials and biointerfaces; Abstract; 6.1 Introduction; 6.2 "Conventional" peptoid secondary and tertiary structures; 6.3 Therapeutic and diagnostic applications; 6.4 Peptoid biointerfaces and self-assembled materials; 6.5 Enzymatic recognition and biocompatibility of peptoids
- 6.6 Conclusion and future trends7: Lipid bolaamphiphiles for fabricating membrane-mimetic biomaterials; Abstract; 7.1 Introduction; 7.2 Different classes of bolaamphiphiles; 7.3 Biomimetic membranes; 7.4 Translocation across vesicle membranes, membrane dynamics, flip-flop; 7.5 Self-assembly of bolaamphiphiles into nanostructures; 7.6 Structural analysis and experimental techniques for characterizing bolaamphiphiles; 7.7 Conception of some original bolaamphiphiles; 7.8 Applications of bolaamphiphiles in recognition, encapsulation, drug, and gene delivery; 7.9 Conclusion and future trends
- 8: DNA-based materials as self-assembling scaffolds for interfacing with cellsAbstract; Acknowledgments; 8.1 Introduction; 8.2 Three-dimensional hydrogels; 8.3 Functional two-dimensional surfaces; 8.4 Conclusion and future trends; 9: Supramolecular biomaterials based on ureidopyrimidinone and benzene-1,3,5-tricarboxamide moieties; Abstract; 9.1 Introduction; 9.2 Solid biomaterials based on ureidopyrimidinone moieties; 9.3 Supramolecular hydrogels; 9.4 Supramolecular fibers in solution; 9.5 Conclusion and future trends; 10: Self-assembled biomaterials using host-guest interactions; Abstract
- Control code
- 1032724023
- Dimensions
- unknown
- Extent
- 1 online resource (700 pages)
- Form of item
- online
- Isbn
- 9780081020128
- Media category
- computer
- Media MARC source
- rdamedia
- Media type code
-
- c
- Specific material designation
- remote
- System control number
- (OCoLC)1032724023
- Label
- Self-Assembling Biomaterials : Molecular Design, Characterization and Application in Biology and Medicine
- Note
- 10.1 Introduction to host-guest interactions
- Carrier category
- online resource
- Carrier category code
-
- cr
- Carrier MARC source
- rdacarrier
- Content category
- text
- Content type code
-
- txt
- Content type MARC source
- rdacontent
- Contents
-
- Intro; Title page; Table of Contents; Copyright; List of Contributors; 1: Self-assembling biomaterials: Beginnings, recent progress, and the future; Part One: Molecular building blocks; 2: Designing self-assembling biomaterials with controlled mechanical and biological performance; Abstract; 2.1 Introduction; 2.2 Molecular design; 2.3 Applications in biology; 2.4 Conclusion and future trends; 3: Self-assembling hydrogels from reverse-engineered silk; Abstract; 3.1 Introduction; 3.2 Silk structure-function relationships; 3.3 Reverse engineering the silk cocoon
- 3.4 Rationale for using self-assembling silk hydrogels for biomedical applications3.5 Self-assembling silk hydrogels and their applications; 3.6 Conclusion and future trends; Acknowledgments; 4: Elastin-like proteins: Molecular design for self-assembling; Abstract; 4.1 Introduction; 4.2 Coacervates; 4.3 Nanoparticles; 4.4 Hybrid elastin-like recombinamer nanoparticles; 4.5 Self-assembly into fibrillar structures; 4.6 Self-assembled hydrogels; 4.7 Other structures; 4.8 Conclusion and future trends; 5: Sweet building blocks for self-assembling biomaterials with molecular recognition; Abstract
- 5.1 Introduction5.2 Supramolecular systems using unmodified sugars; 5.3 Supramolecular systems with glycopolymers and carbohydrate amphiphiles; 5.4 Systems responsive to targeted external stimuli; 5.5 Conclusion and future trends; 6: Peptoid self-assembly and opportunities for creating protein-mimetic biomaterials and biointerfaces; Abstract; 6.1 Introduction; 6.2 "Conventional" peptoid secondary and tertiary structures; 6.3 Therapeutic and diagnostic applications; 6.4 Peptoid biointerfaces and self-assembled materials; 6.5 Enzymatic recognition and biocompatibility of peptoids
- 6.6 Conclusion and future trends7: Lipid bolaamphiphiles for fabricating membrane-mimetic biomaterials; Abstract; 7.1 Introduction; 7.2 Different classes of bolaamphiphiles; 7.3 Biomimetic membranes; 7.4 Translocation across vesicle membranes, membrane dynamics, flip-flop; 7.5 Self-assembly of bolaamphiphiles into nanostructures; 7.6 Structural analysis and experimental techniques for characterizing bolaamphiphiles; 7.7 Conception of some original bolaamphiphiles; 7.8 Applications of bolaamphiphiles in recognition, encapsulation, drug, and gene delivery; 7.9 Conclusion and future trends
- 8: DNA-based materials as self-assembling scaffolds for interfacing with cellsAbstract; Acknowledgments; 8.1 Introduction; 8.2 Three-dimensional hydrogels; 8.3 Functional two-dimensional surfaces; 8.4 Conclusion and future trends; 9: Supramolecular biomaterials based on ureidopyrimidinone and benzene-1,3,5-tricarboxamide moieties; Abstract; 9.1 Introduction; 9.2 Solid biomaterials based on ureidopyrimidinone moieties; 9.3 Supramolecular hydrogels; 9.4 Supramolecular fibers in solution; 9.5 Conclusion and future trends; 10: Self-assembled biomaterials using host-guest interactions; Abstract
- Control code
- 1032724023
- Dimensions
- unknown
- Extent
- 1 online resource (700 pages)
- Form of item
- online
- Isbn
- 9780081020128
- Media category
- computer
- Media MARC source
- rdamedia
- Media type code
-
- c
- Specific material designation
- remote
- System control number
- (OCoLC)1032724023
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<div class="citation" vocab="http://schema.org/"><i class="fa fa-external-link-square fa-fw"></i> Data from <span resource="http://link.library.mst.edu/portal/Self-Assembling-Biomaterials--Molecular-Design/So_ufEVXIew/" typeof="Book http://bibfra.me/vocab/lite/Item"><span property="name http://bibfra.me/vocab/lite/label"><a href="http://link.library.mst.edu/portal/Self-Assembling-Biomaterials--Molecular-Design/So_ufEVXIew/">Self-Assembling Biomaterials : Molecular Design, Characterization and Application in Biology and Medicine</a></span> - <span property="potentialAction" typeOf="OrganizeAction"><span property="agent" typeof="LibrarySystem http://library.link/vocab/LibrarySystem" resource="http://link.library.mst.edu/"><span property="name http://bibfra.me/vocab/lite/label"><a property="url" href="http://link.library.mst.edu/">Missouri University of Science & Technology Library</a></span></span></span></span></div>
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<div class="citation" vocab="http://schema.org/"><i class="fa fa-external-link-square fa-fw"></i> Data from <span resource="http://link.library.mst.edu/portal/Self-Assembling-Biomaterials--Molecular-Design/So_ufEVXIew/" typeof="Book http://bibfra.me/vocab/lite/Item"><span property="name http://bibfra.me/vocab/lite/label"><a href="http://link.library.mst.edu/portal/Self-Assembling-Biomaterials--Molecular-Design/So_ufEVXIew/">Self-Assembling Biomaterials : Molecular Design, Characterization and Application in Biology and Medicine</a></span> - <span property="potentialAction" typeOf="OrganizeAction"><span property="agent" typeof="LibrarySystem http://library.link/vocab/LibrarySystem" resource="http://link.library.mst.edu/"><span property="name http://bibfra.me/vocab/lite/label"><a property="url" href="http://link.library.mst.edu/">Missouri University of Science & Technology Library</a></span></span></span></span></div>
