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Meeting 2018 TMS Annual Meeting & Exhibition
Symposium Bio-nano Interfaces and Engineering Applications Symposium
Presentation Title Effects of Hydration and Mineralization on the Mechanical Behavior of Collagen Fibrils
Author(s) Marco Fielder, Arun K. Nair
On-Site Speaker (Planned) Arun K. Nair
Abstract Scope Bone is a composite biomaterial with a structural load-bearing function in the human body. Investigating bone’s mechanical properties is important because they change based on age, trauma, disease, or defect; they are also important for the development of bioinspired materials. At the nanoscale, bone is comprised of mineralized and hydrated collagen fibrils, whose nanoscale mechanical behavior can be determined using molecular dynamics models. This study investigates the change in mechanical behavior and properties of collagen fibrils, modeled using molecular dynamics, as a function of mineral and water content under tensile and compressive loadings. Preliminary results indicate a threshold fibril water content where mobile water also fills gap region voids, and not just primarily overlap region voids, allowing the stiffer mineral phase in the gap region to deform more under applied stress, and suggests that fibril water content plays a role in mechanisms of fibril deformation.
Proceedings Inclusion? Planned: Publication Outside of TMS (Indicate publication title and publisher if known.)

OTHER PAPERS PLANNED FOR THIS SYMPOSIUM

Bioconjugated Nanoparticle Imaging Probes for Molecular Imaging with Computed Tomography
Biofilm Formation Behavior on Polymer Brush Surfaces by E.coli and S. Epidermidis
Biomolecular Design of Soft Interfaces for Technology and Medicine
Chemically Functionalised Graphene FET with Double Conductance Minima for the Label-free Sensing of Exosomes
Computational Study of Selective Adsorption of Peptides on MoS2 Surface
Connecting Biology and Electronics with Protons: From Ion Channels to Cells
Development of FRET Biosensor Based on Aptamer/Functionalized Graphene for Ultrasensitive Detection of Bisphenol A and Discrimination from Analogues
Discovery of Biomaterials by Simulation and Experiment: Catalysts, Composites, and Therapeutics
Effects of Hydration and Mineralization on the Mechanical Behavior of Collagen Fibrils
Investigating the Interaction of Amyloidogenic Proteins with Inorganic Surfaces, Nanoparticles and Biomolecules by Atomistic Simulations
Modeling the Mechanics of Cancer Cells on Tissue Engineering Substrates
Nanoclay Based Tissue Engineering Scaffolds for Mimicking Biointerfaces in Mesenchymal to Epithelial Transision of Prostate and Breast Cancer Metastasis to Bone
Nanoparticles-grafted Functionalized Graphene Coated with Nanostructured Polyaniline Layered Nanocomposites for High-performance Biosensors
Nanoscale Structure and Properties of Biomaterials
New Antimicrobial Peptides Generated through Genetic Algorithm Approach Using Chemical Property Based Cross-over 
Oligopeptides and Recombinamers at Surfaces and Interfaces to Address Oral Infections
Revealing the Full Hierarchical Structure of Spider Silks across All Length Scales
Revealing the Multi-functional Surface and Material Property of Venus Flytrap (Dionaea Muscipula)
Self-assembled Formate Dehydrogenase-metal Nanoparticle Hybrids Improved Enzyme Stability
Single Molecular Imaging of Fluorescent-tagged Peptides Diffusing on a Surface of Boron Nitride
Smart Biomaterials for MoS2 and Gold Mining
Surface Modification of Ti6Al4V to Confer Antibacterial Properties against Listeria Monocytogenes
Synthesis and Characterization of Superomniphobic Surfaces Inspired by Springtails
Transmission Synchrotron X-ray Tomography and Nano-indentation Measurements for the Investigation of the Teeth Microstructure of Dinosaurs
Transparent Titanium Dioxide Nanotubes: Processing, Characterization, and Application in Establishing Cellular Response Mechanisms
Use of Nanostructured Diamond in Medical Device Applications

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