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Development of a Starch-Based Mussel-Mimetic Adhesive Polymer PDF

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Purdue University Purdue e-Pubs Open Access Theses Theses and Dissertations 2013 Development of a Starch-Based Mussel-Mimetic Adhesive Polymer Jeffrey Kazimir de Kozlowski Purdue University, [email protected] Follow this and additional works at:https://docs.lib.purdue.edu/open_access_theses Part of theBiochemistry Commons Recommended Citation de Kozlowski, Jeffrey Kazimir, "Development of a Starch-Based Mussel-Mimetic Adhesive Polymer" (2013).Open Access Theses. 7. https://docs.lib.purdue.edu/open_access_theses/7 This document has been made available through Purdue e-Pubs, a service of the Purdue University Libraries. Please contact [email protected] for additional information. Graduate School ETD Form 9 (Revised 12/07) PURDUE UNIVERSITY GRADUATE SCHOOL Thesis/Dissertation Acceptance This is to certify that the thesis/dissertation prepared By JeffreydeKozlowski Entitled DevelopmentofaStarch-BasedMussel-MimeticAdhesivePolymer MasterofScience For the degree of Is approved by the final examining committee: BernardTao Chair JonathanWilker NathanMosier To the best of my knowledge and as understood by the student in the Research Integrity and Copyright Disclaimer (Graduate School Form 20), this thesis/dissertation adheres to the provisions of Purdue University(cid:146)s (cid:147)Policy on Integrity in Research(cid:148) and the use of copyrighted material. BernardTao Approved by Major Professor(s): ____________________________________ ____________________________________ Approved by: BernieEngel 10/11/201 3 Head of the Graduate Program Date i DEVELOPMENT OF A STARCH-BASED MUSSEL-MIMETIC ADHESIVE POLYMER A Thesis Submitted to the Faculty of Purdue University by Jeffrey Kazimir de Kozlowski In Partial Fulfillment of the Requirements for the Degree of Master of Science December 2013 i Purdue University West Lafayette, Indiana ii To Amanda, I know it was not easy for you to move with me to Indiana without the guarantee of a job. The past two years have brought us closer than I imagined and in the meantime you discovered your true professional aspirations. I am so happy that things worked out for the best and I thank you for putting up with the frustrations of my life as a graduate student. This thesis represents the time and commitment you deserve every day. I love you. i i iii ACKNOWLEDGEMENTS I would like to first thank my advisor Dr. Bernie Tao for his support throughout my graduate career. I have learned immensely from him educationally, professionally, and personally through conversations and advice. I am extremely grateful for his guidance throughout my project and towards my professional goals. I am glad to have worked with him. Next, I would like to thank the Indiana and Iowa Corn Growers Associations for making this project possible. Thank you for your patience and support throughout this project. I want to thank my committee member Dr. John Wilker for his insights into this project and for allowing me to use his organic chemistry lab. Additionally, I owe extreme gratitude to the Wilker lab group, especially Jess Roman, Cori Jenkins, Heather Meredith, and Michael North for their unwavering assistance in the lab and for helpful discussions. I would also like to thank Lisa Mauer, Brad Reuhs, Anton Terekov, and the entire Whistler Center for their assistance with NMR and IR spectroscopy and for allowing me to use their labs. A special thanks to Anton Terekov for training me on NMR and other i i i equipment. I owe thanks to many members of the Hamaker lab including Madhuvanti Kale and Byung-Hoo Lee for their patience and knowledge in HPLC analysis of polysaccharides. iv Thank you to Karl Wood for his timely assistance with mass spectrometry and general knowledge in analytical chemistry. Thank you to my committee member Dr. Nate Mosier and to Dr. Michael Ladisch for their mentorship and support in my professional and academic goals. To the faculty and staff of ABE and Food Science, thank you for everything you have done for me and other graduate students. Without your commitment, graduate school would be a nightmare. Thanks to Dr. Bruce Applegate for my cat and his vaccinations, and interesting conversations. Thank you to Dr. Yuan Yao and Dr. Susan Nielson for allowing me to attend the food science tour of China. It was a once-in-a-lifetime experience that I will never forget. I want to especially thank Dr. Yao for his guidance on the trip, for helpful discussions regarding starch and carbohydrate chemistry, and his friendship. Finally, I want to thank my family and friends for their support. You are my motivation and backbone. iv v TABLE OF CONTENTS Page LIST OF TABLES .............................................................................................................. x LIST OF FIGURES ........................................................................................................... xi LIST OF ABBREVIATIONS .......................................................................................... xiv ABSTRACT ............................................................................................................ xvi CHAPTER 1. INTRODUCTION ................................................................................. 1 1.1 Objectives ...................................................................................................1 1.2 Organization ...............................................................................................1 CHAPTER 2. LITERATURE REVIEW ...................................................................... 3 2.1 Adhesives ...................................................................................................3 2.1.1 Introduction .........................................................................................3 2.1.2 Motivation for Green Adhesives .........................................................4 2.1.3 Concepts ..............................................................................................5 2.1.4 Mechanisms of Adhesion ....................................................................7 2.1.4.1 Mechanical Adhesion .............................................................................7 2.1.4.2 Chemical Adhesion ................................................................................7 2.1.5 Adhesion in Nature – Mussel Adhesion..............................................8 2.2 DOPA Chemistry .....................................................................................11 v 2.2.2 DOPA in Adhesion ...........................................................................13 2.2.3 DOPA in Cohesion ............................................................................14 2.3 Mussel-Mimetic Adhesive Polymers .......................................................16 2.3.1. Catechol-Functionalized Polymers ..........................................................17 2.3.1.1 Benzotriazoles ......................................................................................17 vi Page 2.3.1.2 Carbodiimide ........................................................................................18 2.3.1.3 Schiff Base............................................................................................21 2.3.2 Polymerization of Catechol-Functionalized Monomers ...................22 2.3.2.1 Condensation ........................................................................................22 2.3.2.2 Ring-Opening Addition of N-Carboxyanhydrides ...............................23 2.3.2.3 Reactive Anhydride or Acid Chloride ..................................................24 2.3.2.4 Vinyl Polymerization............................................................................25 2.3.3 Characterizing DOPA-polymer Conjugates ......................................26 2.3.3.1 DOPA Content......................................................................................26 2.3.3.2 Verification of Conjugation ..................................................................27 2.3.4 Performance of Mussel-Inspired Adhesives .....................................28 2.3.5 DOPA for Adhesive Polymer Crosslinking ......................................30 2.3.5.1 Chemical Oxidants ...............................................................................30 2.3.5.2 Metals ...................................................................................................31 2.3.5.3 Enzymes ...............................................................................................32 2.4 Opportunity for Catechol-Functionalized Biopolymers...........................32 2.5 Starch and Starch Adhesives ....................................................................34 v i 2.5.1 Introduction .......................................................................................34 2.5.2 History of Starch Adhesives..............................................................34 2.5.3 Structure ............................................................................................35 2.5.4 Modified Starch .................................................................................37 2.5.5 Carboxymethyl Starch .......................................................................38 2.5.6 CMS Bioconjugates ..........................................................................39 2.6 Future Studies in Mussel-Inspired Biopolymer Adhesives ......................40 CHAPTER 3. MATERIALS AND METHODS ........................................................ 42 3.1 Materials ...................................................................................................42 vii Page 3.2 Preparation of Hydrolyzed Non-Granular Starch ....................................44 3.2.1 Enzymatic Hydrolysis Time Study ...................................................44 3.2.2 Gram-Scale Preparation of Non-Granular Hydrolyzed Starch .........46 3.2.2.1 Starch Dissolution ................................................................................46 3.2.2.2 Enzymatic Hydrolysis of Dissolved Starch ..........................................46 3.2.2.3 Starch Recovery....................................................................................47 3.2.3 Molecular Weight Distribution of Hydrolyzed Starch ......................48 3.3 Carboxymethyl Starch ..............................................................................49 3.3.1 Synthesis ...........................................................................................49 3.3.1.1 One-Step Non-Granular CMS ..............................................................49 3.3.1.2 Multi-Step Granular CMS ....................................................................51 3.3.2 Degree of Substitution.......................................................................53 3.4 Starch-Catechol Conjugates .....................................................................54 3.4.1 CMS-Dopamine Synthesis by EDC ..................................................54 3.4.1.1 One-step Reaction ................................................................................54 3.4.1.2 One-Step Anaerobic Reaction ..............................................................55 3.4.1.3 One-Step Reaction with Ascorbic Acid ...............................................56 3.4.1.4 Two-Step Reaction ...............................................................................57 vi i 3.4.2 Starch-Dopamine Synthesis by CDI .................................................60 3.4.2.1 In DMSO ..............................................................................................60 3.4.2.2 In DMF .................................................................................................60 3.4.3 Starch-Benzoic Acid Conjugates ......................................................61 3.4.3.1 Starch-DMBA.......................................................................................61 3.4.3.2 Starch-DHBA .......................................................................................64 3.4.4 Characterization of Catechol-Functionalized Starch Polymers ........66 3.4.4.1 Catechol Content ..................................................................................66 viii Page 3.4.4.2 Verification of Conjugation Bond-Type by FTIR ................................70 3.4.4.3 Characterization of Dihydroxybenzoic acid-Phenylboronic acid Esters . ..............................................................................................................70 3.4.5 Lap-Shear Adhesive Test ..................................................................71 CHAPTER 4. RESULTS AND DISCUSSION .......................................................... 72 4.1 Enzymatic Hydrolysis of Hi-Maize® 260 ...............................................72 4.1.1 Enzymatic Hydrolysis Time Study ...................................................74 4.1.2 Gram-Scale Preparation of Hydrolyzed Non-Granular Starch .........75 4.2 Carboxymethylation of Hi-Maize® 260 ..................................................77 4.2.1 One-Step Non-Granular CMS ...........................................................77 4.2.2 Fed-Batch Non-Granular CMS .........................................................78 4.2.2.1 Additional SMCA .................................................................................78 4.2.2.2 Additional SMCA and NaOH ..............................................................79 4.2.3 Single and Multi-step Granular CMS ...............................................79 4.2.3.1 Method 1 ...............................................................................................81 4.2.3.2 Method 2 ...............................................................................................81 4.3 Starch-Catechol Conjugates .....................................................................82 4.3.1 Synthesis of CMS-dopamine by EDC...............................................82 v i i i 4.3.1.1 One-step Reaction ................................................................................83 4.3.1.2 Two-Step Reaction ...............................................................................90 4.3.1.3 Summary of EDC Reactions ................................................................93 4.3.1.4 FTIR Characterization of CMS-Dopamine ..........................................94 4.3.1.5 Adhesive Strength of CMS-Dopamine .................................................97 4.3.2 Starch-Catechol Conjugates ..............................................................98 4.3.2.1 Starch-DMBA.....................................................................................102 4.3.2.2 Starch-DHBA .....................................................................................109

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Chair. To the best of my knowledge and as understood by the student in the Research Integrity and Next, I would like to thank the Indiana and Iowa Corn Growers Associations for making this project possible. adhesives in medical applications or construction as they present a less significant threa
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