SUBJECTS
Cholesterol-containing bicellar mixture labelled with Rh-PE (red) and BODIPY-Chol (green) dyes on a glass surface and the subsequent cholesterol crystallite growth.
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Understanding how natural sequence variation in serum albumin proteins affects conformational stability and protein adsorption
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Sunflower pollen grains are transformed into soft materials— pollen microgels—for high processability by the soap‐making method. The physical and chemical properties of the sunflower pollen microgel are investigated for different potassium hydroxide concentrations and incubation times.
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Photocurable-Albumin-Methacryloyl-Hydrogels-as-a-Versatile-Platform-for-Tissue-Engineering
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Probing the influence of tether density on tethered bilayer lipid membrane (tBLM)-peptide interactions
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Characterizing the Supported Lipid Membrane Formation from Cholesterol-Rich Bicelles
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Improved Size Determination by Nanoparticle tracking analysis :Influence of Recognition Radius
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Surface-Based Nanoplasmonic Sensors for Biointerfacial Science Applications
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Minimal Reconstitution of Membranous Web Induced by a Vesicle− Peptide Sol−Gel Transition
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Spatially Controlled Molecular Encapsulation in Natural Pine Pollen Microcapsules
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Light-Induced Surface Modification of Natural Plant Microparticles: Towards Colloidal Science and Cellular Adhesion Applications.
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A Model Derived from Hydrodynamic Simulations for Extracting the Size of Spherical Particles from the Quartz Crystal Microbalance.
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Bioinspired Spiky Micromotors Based on Sporopollenin Exine Capsule
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Plant-based Hollow Microcapsules for Oral Delivery Applications: Towards Optimized Loading and Controlled Release
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Flexible, Ultra-Sensitive Chemical Sensor with 3D Biomimetic Templating for Diabetes-Related Acetone Detection
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Nanoplasmonic Sensors for Biointerfacial Science
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Dynamic Cellular Interactions with Extracellular Matrix Triggered by Biochemical Tuning of Low-Rigidity, Supported Lipid Membranes
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Flexible, Graphene-Coated Biocomposite for Highly Sensitive, Real-Time Molecular Detection
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Probing Membrane Viscosity and Interleaflet Friction of Supported Lipid Bilayers by Tracking Electrostatically Adsorbed, Nano-Sized Vesicles
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Lycopodium Spores: A Naturally Manufactured, Superrobust Biomaterial for Drug Delivery
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Graphene-Functionalized Natural Microcapsules: Modular Building Blocks for Ultrahigh Sensitivity Bioelectronic Platforms
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Phenotypic Regulation of Liver Cells in a Biofunctionalized Three-Dimensional Hydrogel Platform
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Nanoplasmonic Ruler to Measure Lipid Vesicle Deformation
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Multi-Point Force Feedback Leveling of Massively Parallel Tip Arrays in Scanning Probe Lithography
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Lamellar Sheet Exfoliation of Single Lipid Vesicles by a Membrane-Active Peptide
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Closed-Loop ARS Mode for Scanning Ion Conductance Microscopy with Improved Speed and Stability for Live Cell Imaging Applications
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Correlation between Membrane Partitioning and Functional Activity in a Single Lipid Vesicle Assay Establishes Design Guidelines for Antiviral Peptides
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Silk fibroin-keratin based 3D scaffolds as a dermal substitute for skin tissue engineering
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Controlling Lipid Membrane Architecture for Tunable Nanoplasmonic Biosensing
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Employing two different quartz crystal microbalance models to study changes in viscoelastic behavior upon transformation of lipid vesicles to a bilayer on a gold surface
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