Verfügbarkeit: Tracking self-assembly of hierarchically structured soft matter

Tracking self-assembly of hierarchically structured soft matter:

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Bibliographische Detailangaben
1. Verfasser:	Jehle, Franziska (VerfasserIn)
Format:	Abschlussarbeit Buch
Sprache:	English
Veröffentlicht:	Potsdam [2019]
Schlagworte:	Hochschulschrift
Online-Zugang:	Inhaltsverzeichnis Inhaltsverzeichnis
Beschreibung:	ix, 88 Seiten Illustrationen 30 cm

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Datensatz im Suchindex

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adam_text	TABLE OF CONTENTS ABSTRACT ................................................................................................................................................ III TABLE OF CONTENTS ............................................................................................................................. VI LIST OF FIGURES ................................................................................................................................... VIII LIST OF ABBREVIATIONS......................................................................................................................... X 1. INTRODUCTION .............................................................................................................................. 1 2. MOTIVATION & AIMS .................................................................................................................... 5 3. STATE OF THE ART ......................................................................................................................... 7 3.2 STRUCTURE-FUNCTION RELATIONSHIP ...........................................................................................8 3.2.1 THE PLAQUE - A MULTIFACETED UNDERWATER ADHESIVE .....................................................8 3.2.2 THE CORE - A SELF-HEALING GRADED BLOCK COPOLYMER ................................................... 11 3.2.3 THE CUTICLE - A PROTECTIVE REINFORCED COMPOSITE ...................................................... 12 3.3 ESTABLISHED METHODS FOR BYSSUS EXAMINATION ................................................................18 3.4 MUSSEL-INSPIRED MATERIALS ................................................................................................. 20 3.4.1 MATERIALS FROM EXTRACTED BYSSUS PROTEINS .................................................................. 20 3.4.2 MATERIALS FROM RECOMBINANT BYSSUS PROTEINS ............................................................ 21 3.4.3 MATERIALS FROM BYSSUS PEPTIDES ................................................................................... 23 4. METAL-TUNABLE SELF-ASSEMBLY OF HIERARCHICAL STRUCTURE IN MUSSEL-INSPIRED PEPTIDE FILMS.................................................................................................................................. 26 4.1 MATERIAL & METHODS ........................................................................................................... 28 4.1.1 FILM FORMATION ................................................................................................................ 28 4.1.2 FOURIER TRANSFORM INFRARED SPECTROSCOPY ................................................................... 28 4.1.3 RAMAN SPECTROSCOPY ...................................................................................................... 28 4.1.4 X-RAY ABSORPTION NEAR EDGE SPECTROSCOPY (XANES) .................................................. 29 4.1.5 X-RAY DIFFRACTION .............................................................................................................. 29 4.1.6 AFM-BASED INDENTATION ................................................................................................ 29 4.2 RESULTS .................................................................................................................................. 30 4.2.1 SEQUENCE SELECTION AND FILM FORMATION ..................................................................... 30 4.2.2 FOURIER TRANSFORM INFRARED (FTIR) AND RAMAN SPECTROSCOPY .................................. 30 4.2.3 X-RAY ABSORPTION SPECTROSCOPY (XAS).......................................................................... 32 4.2.4 POLARIZED RAMAN SPECTROSCOPY .................................................................................... 33 4.2.5 X-RAY DIFFRACTION ............................................................................................................. 34 4.2.6 MECHANICAL CHARACTERIZATION ........................................................................................ 37 4.3 DISCUSSION ............................................................................................................................. 39 VI 4.4 CONCLUSION ........................................................................................................................... 41 5. ULTRASTRUCTURE AND COMPOSITION OF BYSSAL THREAD CUTICLE ................................. 42 5.1 MATERIAL & METHODS ......................................................................................................... 44 5.1.1 CHEMICAL FIXATION & EMBEDDING ................................................................................... 44 5.1.2 TEM-EDS .......................................................................................................................... 44 5.1.3 FIB-SEM ......................................................................................................................... 44 5.1.4 IMAGE PROCESSING ........................................................................................................... 45 5.1.5 SEGMENTATION ................................................................................................................. 45 5.1.6 VOLUME FRACTIONS AND 3D THICKNESS MAPPING ............................................................ 45 5.2 RESULTS .................................................................................................................................. 46 5.2.1 ULTRASTRUCTURE OF M. EDULIS BYSSAL THREAD CUTICLE ....................................................... 46 5.2.2 ELEMENTAL COMPOSITION OF BYSSAL THREAD CUTICLE ........................................................ 47 5.2.3 3D-RECONSTRUCTION OF CUTICLE GRANULES ......................................................................... 49 5.3 DISCUSSION ............................................................................................................................ 55 5.4 CONCLUSION ........................................................................................................................... 59 6. DYNAMIC FORMATION PROCESS OF BYSSAL THREAD CUTICLE ............................................ 60 6.1 MATERIAL & METHODS ...........................................................................................................61 6.1.1 CHEMICAL FIXATION AND EMBEDDING ...............................................................................61 6.1.2 INDUCED SECRETION AND THREAD FORMATION ....................................................................62 6.1.3 SAMPLE PREPARATION FOR TEM ........................................................................................ 62 6.1.4 TEM-EDS ..........................................................................................................................62 6.1.5 FIB-SEM ...........................................................................................................................63 6.1.6 IMAGE PROCESSING ...........................................................................................................63 6.1.7 SEGMENTATION ..................................................................................................................63 6.2 RESULTS .................................................................................................................................. 64 6.2.1 DEVELOPMENT OF A FIXATION PROTOCOL SUITABLE FOR MUSSEL FOOT TISSUE ...................... 64 6.2.2 ULTRASTRUCTURE OF CUTICLE VESICLES IN GLAND TISSUE ....................................................... 65 6.2.3 ELEMENTAL COMPOSITION OF CUTICLE VESICLES .................................................................. 67 6.2.4 3D-RECONSTRUCTION OF VESICLE PHASES ........................................................................... 70 6.2.5 INDUCED THREAD FORMATION ............................................................................................. 72 6.3 DISCUSSION ............................................................................................................................ 75 6.4 CONCLUSION ........................................................................................................................... 77 7. REFERENCES .................................................................................................................................79 8. DECLARATION OF ORIGINALITY / EIDESSTATTLICHE ERKLARUNG........................................ 87 9. ACKNOWLEDGEMENTS .............................................................................................................. 88 VII
adam_txt	TABLE OF CONTENTS ABSTRACT . III TABLE OF CONTENTS . VI LIST OF FIGURES . VIII LIST OF ABBREVIATIONS. X 1. INTRODUCTION . 1 2. MOTIVATION & AIMS . 5 3. STATE OF THE ART . 7 3.2 STRUCTURE-FUNCTION RELATIONSHIP .8 3.2.1 THE PLAQUE - A MULTIFACETED UNDERWATER ADHESIVE .8 3.2.2 THE CORE - A SELF-HEALING GRADED BLOCK COPOLYMER . 11 3.2.3 THE CUTICLE - A PROTECTIVE REINFORCED COMPOSITE . 12 3.3 ESTABLISHED METHODS FOR BYSSUS EXAMINATION .18 3.4 MUSSEL-INSPIRED MATERIALS . 20 3.4.1 MATERIALS FROM EXTRACTED BYSSUS PROTEINS . 20 3.4.2 MATERIALS FROM RECOMBINANT BYSSUS PROTEINS . 21 3.4.3 MATERIALS FROM BYSSUS PEPTIDES . 23 4. METAL-TUNABLE SELF-ASSEMBLY OF HIERARCHICAL STRUCTURE IN MUSSEL-INSPIRED PEPTIDE FILMS. 26 4.1 MATERIAL & METHODS . 28 4.1.1 FILM FORMATION . 28 4.1.2 FOURIER TRANSFORM INFRARED SPECTROSCOPY . 28 4.1.3 RAMAN SPECTROSCOPY . 28 4.1.4 X-RAY ABSORPTION NEAR EDGE SPECTROSCOPY (XANES) . 29 4.1.5 X-RAY DIFFRACTION . 29 4.1.6 AFM-BASED INDENTATION . 29 4.2 RESULTS . 30 4.2.1 SEQUENCE SELECTION AND FILM FORMATION . 30 4.2.2 FOURIER TRANSFORM INFRARED (FTIR) AND RAMAN SPECTROSCOPY . 30 4.2.3 X-RAY ABSORPTION SPECTROSCOPY (XAS). 32 4.2.4 POLARIZED RAMAN SPECTROSCOPY . 33 4.2.5 X-RAY DIFFRACTION . 34 4.2.6 MECHANICAL CHARACTERIZATION . 37 4.3 DISCUSSION . 39 VI 4.4 CONCLUSION . 41 5. ULTRASTRUCTURE AND COMPOSITION OF BYSSAL THREAD CUTICLE . 42 5.1 MATERIAL & METHODS . 44 5.1.1 CHEMICAL FIXATION & EMBEDDING . 44 5.1.2 TEM-EDS . 44 5.1.3 FIB-SEM . 44 5.1.4 IMAGE PROCESSING . 45 5.1.5 SEGMENTATION . 45 5.1.6 VOLUME FRACTIONS AND 3D THICKNESS MAPPING . 45 5.2 RESULTS . 46 5.2.1 ULTRASTRUCTURE OF M. EDULIS BYSSAL THREAD CUTICLE . 46 5.2.2 ELEMENTAL COMPOSITION OF BYSSAL THREAD CUTICLE . 47 5.2.3 3D-RECONSTRUCTION OF CUTICLE GRANULES . 49 5.3 DISCUSSION . 55 5.4 CONCLUSION . 59 6. DYNAMIC FORMATION PROCESS OF BYSSAL THREAD CUTICLE . 60 6.1 MATERIAL & METHODS .61 6.1.1 CHEMICAL FIXATION AND EMBEDDING .61 6.1.2 INDUCED SECRETION AND THREAD FORMATION .62 6.1.3 SAMPLE PREPARATION FOR TEM . 62 6.1.4 TEM-EDS .62 6.1.5 FIB-SEM .63 6.1.6 IMAGE PROCESSING .63 6.1.7 SEGMENTATION .63 6.2 RESULTS . 64 6.2.1 DEVELOPMENT OF A FIXATION PROTOCOL SUITABLE FOR MUSSEL FOOT TISSUE . 64 6.2.2 ULTRASTRUCTURE OF CUTICLE VESICLES IN GLAND TISSUE . 65 6.2.3 ELEMENTAL COMPOSITION OF CUTICLE VESICLES . 67 6.2.4 3D-RECONSTRUCTION OF VESICLE PHASES . 70 6.2.5 INDUCED THREAD FORMATION . 72 6.3 DISCUSSION . 75 6.4 CONCLUSION . 77 7. REFERENCES .79 8. DECLARATION OF ORIGINALITY / EIDESSTATTLICHE ERKLARUNG. 87 9. ACKNOWLEDGEMENTS . 88 VII
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author	Jehle, Franziska
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spellingShingle	Jehle, Franziska Tracking self-assembly of hierarchically structured soft matter
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title	Tracking self-assembly of hierarchically structured soft matter
title_auth	Tracking self-assembly of hierarchically structured soft matter
title_exact_search	Tracking self-assembly of hierarchically structured soft matter
title_exact_search_txtP	Tracking self-assembly of hierarchically structured soft matter
title_full	Tracking self-assembly of hierarchically structured soft matter von Franziska Jehle
title_fullStr	Tracking self-assembly of hierarchically structured soft matter von Franziska Jehle
title_full_unstemmed	Tracking self-assembly of hierarchically structured soft matter von Franziska Jehle
title_short	Tracking self-assembly of hierarchically structured soft matter
title_sort	tracking self assembly of hierarchically structured soft matter
topic_facet	Hochschulschrift
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