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Abstract Blue Geometric Design

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1239

Single-Pulse Nanomorphology Governs Laser-Induced Periodic Surface Structure Formation on Metals

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The paper likely discusses the optical properties of dielectric (non-metallic) nanoparticles that are structured to have a chiral (handed, non-superimposable mirror image) geometry. These nanoparticles are designed to exhibit Mie resonances, which are strong light scattering effects that occur when the particle size is comparable to the wavelength of light. The research probably explores how the combination of chirality and Mie resonance leads to unique interactions with circularly polarized light, with potential applications in nanophotonics, quantum optics, and advanced sensing.
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2104

Low-temperature studies of nitrogen-vacancy center in diamonds

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This paper reviews the study of Nitrogen-Vacancy (NV) centers in diamond crystals at cryogenic temperatures. It discusses how low temperatures affect the quantum properties of NV centers, which are critical for their application in quantum computing, sensing, and information processing.
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2104

Study of Natural and Synthetic Diamonds in Single-crystal X-ray Diffraction

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This presentation outlines the use of single-crystal X-ray diffraction (XRD) to analyze and differentiate between natural and synthetic diamonds. The technique is used to identify crystal structure, defects, and strain, providing key information about the diamond's origin and quality.
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2104

Diffraction Contrast Tomography

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This paper describes Diffraction Contrast Tomography (DCT), a non-destructive 3D imaging technique. It is used to map the grain morphology, orientation, and strain fields within polycrystalline materials with high spatial resolution, often utilizing synchrotron X-ray sources.
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2104

Science behind Diamond Cutting and Polishing

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This document explores the materials science, physics, and chemistry behind the mechanical processes of diamond cutting and polishing. It focuses on the principles of abrasion, friction, and material removal used to shape and finish diamond crystals for gemological and industrial applications.
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1239

Correlative MFM and SEM Imaging of Magnetic Nanowires

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This application note describes the use of an in-situ Atomic Force Microscope (AFM) integrated within a Scanning Electron Microscope (SEM), a product known as AFSEM. The document demonstrates how this setup can perform Magnetic Force Microscopy (MFM) to map the magnetic domains of cobalt nanowires while simultaneously imaging the same area with the SEM for high-resolution structural context.
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1239

In-situ Nanoindentation in the SEM

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This document showcases the combination of a nanoindenter with an in-situ Atomic Force Microscope (AFM) inside a Scanning Electron Microscope (SEM). The application note explains how this correlative setup allows for the precise positioning of the indenter tip on a sample, performing the indentation to measure mechanical properties, and then immediately imaging the resulting indent with the AFM without breaking vacuum.
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1526

PCL-PLA Blends for Electrospun Vascular Grafts With Enhanced Cellular Activity and Long-Term Biodegradability

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This paper describes the fabrication of small-diameter vascular grafts by electrospinning blends of poly(??caprolactone) (PCL) and poly(lactic acid) (PLA). The resulting nanofibrous scaffolds show improved mechanical properties and enhanced cellular adhesion, making them promising for tissue engineering applications.
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1526

Thymol-based Schiff base-loaded poly (?-caprolactone) (PCL) electrospun nanofiber mats with anticancer, antimicrobial and antioxidant properties

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This study reports on the creation of electrospun nanofiber mats made from poly(?-caprolactone) (PCL) loaded with a thymol-based Schiff base. The resulting material demonstrates significant anticancer, antimicrobial, and antioxidant properties.
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1526

Electrospun ZnO/CoMoO4/ZnCo2O4 composite nanofibers for highly selective sub-ppm n-butanol sensing

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This paper details the synthesis of composite nanofibers (ZnO/CoMoO4/ZnCo2O4) via electrospinning for use in gas sensors. The nanofibers exhibit high selectivity and sensitivity for detecting n-butanol at sub-parts-per-million levels.
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1526

Tailoring Electrospun Eudragit L100 Fibers: Morphology, Core-Shell Architecture, and pH-Responsive Behavior

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This research focuses on controlling the morphology of electrospun Eudragit L100 fibers. By adjusting solution properties, the study achieves various structures, including core-shell nanofibers, which exhibit pH-responsive behavior for potential drug delivery applications.
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1526

The potential of resolvin D2 loaded hydroxyapatite/mineral trioxide aggregate electrospun membranes to downregulate Interleukin 1 beta and tumor necrosis factor alpha in human dental pulp stem cells and macrophages co-cultures

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This study investigates an electrospun membrane containing hydroxyapatite, mineral trioxide aggregate, and resolvin D2. The material is shown to reduce inflammatory responses in dental pulp stem cells, indicating its potential for regenerative dentistry.
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1526

Physical and mechanical study of electrospun poly(Vinyl Alcohol)/dextrin fiber adhesive for wound care

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This paper examines the physical and mechanical properties of an electrospun adhesive made from polyvinyl alcohol and dextrin nanofibers. The material is designed as a wound care product with controlled adhesion and mechanical strength.
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1526

Reusable Molten-nanonet fiber-immobilized air filter with polycaprolactone-polyvinylidene fluoride electrospun nanofibers for enhanced water-wash durability

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This study presents a reusable air filter fabricated with electrospun nanofibers of PCL and PVDF. The resulting "molten-nanonet" structure provides high filtration efficiency and enhanced durability, allowing it to be washed with water.
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1526

Curing properties of covalently bonded polyoxazoline-imidazole thermal latent curing agents for one-component epoxy resins

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This conference proceeding discusses the synthesis of new curing agents for epoxy resins. The research involves creating polyoxazoline-imidazole copolymers to act as latent curing agents, which could have applications in advanced composite materials.
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1526

Fabrication of composite membrane via electrospinning: A novel membrane bioreactor design for enzymatic synthesis of prebiotic carbohydrates

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This paper describes a novel membrane bioreactor created by immobilizing enzymes onto electrospun polyvinyl alcohol (PVA) nanofibers. The system is designed for the efficient synthesis of prebiotic carbohydrates.
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1526

Arctium minus (Hill) Bernh. extract-loaded polycaprolactone and bilayer polycaprolactone/polyvinyl alcohol electrospun nanofiber scaffolds as bioactive wound dressings

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This research explores the development of a bioactive wound dressing using electrospun nanofibers. A bilayer scaffold is created from PCL and PVA, loaded with Arctium minus extract, to provide a material with wound healing properties.
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1526

Physical and mechanical study of electrospun poly(Vinyl Alcohol)/dextrin fiber adhesive for wound care

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This paper investigates the properties of an electrospun adhesive for wound care, made from a blend of polyvinyl alcohol and dextrin nanofibers, focusing on its mechanical strength and adhesive characteristics.
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1526

Development of Novel Antimicrobial Nanofiber Membranes for Bio-aerosol Filtration: Fabrication, Characterization, and Performance Evaluation

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This paper describes the fabrication and testing of antimicrobial nanofiber membranes for air filtration. The electrospun membranes are designed to capture and inactivate bio-aerosols, making them suitable for applications like personal protective equipment.
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1526

Synthesis and characterization of graphene nanoplatelets-containing fibers by electrospinning

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This study details the fabrication of composite nanofibers by incorporating graphene nanoplatelets into a polymer matrix using the electrospinning technique. The resulting materials are characterized for their structural and physical properties.
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