Lecture 1: Molecular Design and Synthesis of Biomaterials I: Biodegradable Solid Polymeric Materials (
PDF - 1.6 MB)
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Polyanhydride Deg Rates (
XLS)
Lecture 2: Molecular Design and Synthesis of Biomaterials I: Biodegradable Materials (PDF)
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Molecular Design and Synthesis of Biomaterials I: Biodegradable Solid Polymeric Materials (continued) (
PDF)
Lecture 3: Degradable Materials with Biological Recognition (PDF - 1.5 MB)
Lecture 4: Degradable Materials with Biological Recognition (part II) (PDF)
Lecture 5: Controlled Release Devices (PDF)
Lecture 6: Programmed / Pulsed Drug Delivery and Drug Delivery in Tissue Engineering (PDF - 1.3 MB)
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Biodegradable Polymers for Tissue Engineering (
PDF)
Lecture 7: Hydrogel Biomaterials: Structure and Physical Chemistry (PDF - 1.4 MB)
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Hydrogel Biomaterials: Structure and Physical Chemistry. (
PDF)
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Lecture 8: Physical Hydrogels (PDF - 1.3 MB)
Lecture 9: Polyelectrolyte Hydrogels (PDF - 1.5 MB)
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Brannon-Peppas Theory of Swelling in Ionic Hydrogels. (
PDF)
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Lecture 10: Bioengineering Applications of Hydrogels: Molecular Imprinting and Drug Delivery (PDF)
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Hydrogels in Drug Delivery (
PDF)
Lecture 11: Molecular Design and Synthesis of Biomaterials III: Inorganic Biomaterials (PDF - 2.2 MB)
Lecture 12: Organic Templating of Inorganic Materials and Bone Biomimesis (PDF - 2.4 MB)
Lecture 13: Molecular Devices (PDF - 1.3 MB)
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Molecular Switches in the Cell: Fibronectin as a Mechanical Switch (Vogel, 2002) (
PDF)
Lecture 14: Nano- and Micro-Particle Carriers (PDF)
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PEGylated Surface Model (
XLS)
Lecture 15: 'Stealth' Particles (PDF)
Lecture 16: Intracellular Drug Delivery (PDF)
Lecture 17: Drug Targeting (PDF)
Lecture 18: Biosensors (PDF)
Lecture 19: Biosensors (continued) (PDF - 2.3 MB)
Lecture 20: Cell- and Tissue-Based Biosensors (PDF - 1.3 MB)
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