Keywords: طیف سنجی نیروی; Nanoscience; Force spectroscopy; Spherical nanoparticles; Bond rupture;
مقالات ISI طیف سنجی نیروی (ترجمه نشده)
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در صورتی که به ترجمه آماده هر یک از مقالات زیر نیاز داشته باشید، می توانید سفارش دهید تا مترجمان با تجربه این مجموعه در اسرع وقت آن را برای شما ترجمه نمایند.
Keywords: طیف سنجی نیروی; Atomic force microscopy; Force spectroscopy; Carbon-encapsulated iron nanoparticles; Nanomaterial;
Keywords: طیف سنجی نیروی; Oligo(ethylene glycol)-based microgel; Force spectroscopy; Adhesion; Self-assembly; Self-supported film;
Keywords: طیف سنجی نیروی; Dendrimers; Carbosilane; Gene therapy; siRNA; Molecular dynamics; Force spectroscopy;
Keywords: طیف سنجی نیروی; Endothelium cell; Endothelium-targeted drugs; Simvastatin; Pyridine derivatives; Force spectroscopy;
Keywords: طیف سنجی نیروی; Red blood cell; Atomic force microscopy; AFM; Immunohaematology; Force spectroscopy;
Keywords: طیف سنجی نیروی; Atomic Force Microscopy; Lecithin; Phopholipid; Sucrose; Chocolate; Force spectroscopy;
Keywords: طیف سنجی نیروی; AFM; atomic force microscopy; DLS; dynamic light scattering; FS; force spectroscopy; UpC-NPs; up-conversion nanoparticles; Up-conversion nanoparticles; Neutrophil granulocytes; Atomic force microscopy; Young's modulus; Membrane elasticity;
Keywords: طیف سنجی نیروی; Dendronized polymers; Force spectroscopy; Atomic force microscopy; Single molecule; Polymer elasticity;
Keywords: طیف سنجی نیروی; Nanopore; Hemolysin; Pore forming toxin; DNA sequencing; Force spectroscopy; Temperature-jump spectroscopy
Keywords: طیف سنجی نیروی; AFM; Atomic force microscopy; Force spectroscopy; Drug-tissue interaction; Interaction mapping; Biomedical applications; Single molecule studies;
Keywords: طیف سنجی نیروی; Tandem modular protein; Free energy landscape; Force spectroscopy; Tissue elasticity; Protein folding; Langevin dynamics;
Keywords: طیف سنجی نیروی; Sunflower pollen; Pollenkitt; Atomic force microscopy; Force spectroscopy; Adhesion; Humidity; Microcantilever sensor; Capillary forces
Keywords: طیف سنجی نیروی; Force spectroscopy; Molar mass; Polymer brush;
Keywords: طیف سنجی نیروی; Heparin; Thrombin; Self-assembled monolayers; Atomic force microscopy; Force spectroscopy;
Keywords: طیف سنجی نیروی; AFM; Bacterial cell probe; Extracellular polymeric substances; Force spectroscopy; Polyelectrolytes; Rhodococcus;
Keywords: طیف سنجی نیروی; AFM; Force spectroscopy; Prostate cancer; Formin; Arp 2/3; Cortical actin;
Keywords: طیف سنجی نیروی; AFM; Fibroblast; Young's modulus; Transformed cell; Force spectroscopy;
Keywords: طیف سنجی نیروی; Force spectroscopy; Protein–ligand interaction; Protein unfolding; Mechanical stability; Binding assay
Keywords: طیف سنجی نیروی; Lipid raft; Air-stable lipid layer; AFM; Spin-coating; Force spectroscopy;
Keywords: طیف سنجی نیروی; AFM, atomic force microscopy; US-AFM, ultrastable atomic force microscopy; TERS, tip-enhanced Raman scattering; SMFS, single molecule force spectroscopy; bR, bacteriorhodopsinAtomic force microscope; Force spectroscopy; Single-molecule biophysics; Force p
Keywords: طیف سنجی نیروی; Atomic force microscopy; Force spectroscopy; Biomolecular recognition; Cell surface
Keywords: طیف سنجی نیروی; AFM; atomic force microscopy; DFS; dynamic single-molecule force spectroscopy; F-D; force-distance; GPCR; G protein-coupled receptor; HOPG; highly ordered pyrolytic graphite; ICAM-1; intercellular adhesion molecule-1; LFA-1; leukocyte function-associa
Phase-segregated membrane model assessed by a combined SPR-AFM approach
Keywords: طیف سنجی نیروی; Supported lipid bilayer; Surface plasmon resonance; Force spectroscopy; Biomimetic systems; Cyclodextrin; Raft-like domains;
Cholesterol induced asymmetry in DOPC bilayers probed by AFM force spectroscopy
Keywords: طیف سنجی نیروی; Lipid bilayer; Asymmetry; DOPC; Cholesterol; Force spectroscopy; Atomic Force Microscopy; Nanomechanical properties;
A cooperative transition from the semi-flexible to the flexible regime of polymer elasticity: Mitoxantrone-induced DNA condensation
Keywords: طیف سنجی نیروی; DNA condensation; Mitoxantrone; Polymer elasticity; Force spectroscopy;
Multi-scale characterization and biological evaluation of composite surface layers produced under glow discharge conditions on NiTi shape memory alloy for potential cardiological application
Keywords: طیف سنجی نیروی; Atomic force microscopy; Force spectroscopy; Glow discharge oxidizing; RFCVD process; Shape memory alloys;
Atomic force microscopy of RNA: State of the art and recent advancements
Keywords: طیف سنجی نیروی; AFM; Force spectroscopy; RNA; RNA assemblies; RNA protein; RNA detection; RNA ligand; RNA interactions;
Effect of pH on the adsorption and interactions of Bovine Serum Albumin with functionalized silicon nitride surface
Keywords: طیف سنجی نیروی; Silanization; APTES; BSA immobilization; Force spectroscopy;
AFM nanoindentation of protein shells, expanding the approach beyond viruses
Keywords: طیف سنجی نیروی; AFM; Force spectroscopy; Virus; Virus-like particle; Proteinaceous assembly; Biophysics;
Modulation of lipid membrane structural and mechanical properties by a peptidomimetic derived from reduced amide scaffold
Keywords: طیف سنجی نیروی; Atomic force microscopy; Force spectroscopy; Planar lipid bilayer; Area compressibility modulus; Puncture force;
Biophysical characterization of the association of histones with single-stranded DNA
Keywords: طیف سنجی نیروی; Single-stranded DNA; Histones; Nucleosome; Magnetic tweezers; Electrophoresis; Force spectroscopy;
Pro-apoptotic cBid and Bax exhibit distinct membrane remodeling activities: An AFM study
Keywords: طیف سنجی نیروی; Atomic force microscopy (AFM); Bcl-2 proteins; Force spectroscopy; Membrane; supported lipid bilayers;
Nanopuller-open data acquisition platform for AFM force spectroscopy experiments
Keywords: طیف سنجی نیروی; Atomic force microscope; Single molecule experiments; Proteins; DNA; Force spectroscopy; Nanoindentation;
Imaging and force probing RNA by atomic force microscopy
Keywords: طیف سنجی نیروی; AFM; Force spectroscopy; RNA; RNA assemblies;
Micromechanical properties of strain-sensitive lyriform organs of a wandering spider (Cupiennius salei)
Keywords: طیف سنجی نیروی; Mechanosensing; Epicuticle mechanics; Relaxation time; Force spectroscopy; Biosensing; Cupiennius salei;
MspA nanopore as a single-molecule tool: From sequencing to SPRNT
Keywords: طیف سنجی نیروی; ssDNA; single stranded DNA; dsDNA; double stranded DNA; MspA; Mycobacterium smegmatis porin A. Octameric outer membrane protein from Mycobacterium smegmatis (accession no CAB56052.1) with mutations D90N, D91N, D93N, D118R, D134R, and E139K; Phi29 DNAP; DN
Structural and nanomechanical comparison of epitaxially and solution-grown amyloid β25–35 fibrils
Keywords: طیف سنجی نیروی; AFM, atomic force microscopy; PBS, phosphate-buffered saline; FTIR, Fourier transform infraredAmyloid; Atomic force microscopy; Force spectroscopy; Fourier transform infrared spectroscopy; β-Sheet structure; Structural compaction
Multi-scale evaluation of the effect of rejuvenators on the performance of high RAP content mixtures
Keywords: طیف سنجی نیروی; High RAP mixtures; RAP blending zone; AFM; Nano-mechanics; Nano-indentation; Force spectroscopy
Application of the Johnson–Kendall–Roberts model in AFM-based mechanical measurements on cells and gel.
Keywords: طیف سنجی نیروی; Force spectroscopy; Mechanical properties; Adhesion; Viscoelasticity; Cell; Polyacrylamide gel
Homophilic interaction and deformation of E-cadherin and cadherin 7 probed by single molecule force spectroscopy
Keywords: طیف سنجی نیروی; Force spectroscopy; Cell adhesion; Atomic force microscopy; Magnetic tweezersEC, extracellular cadherin; EC1 to EC5 domains, the first to the fifth extracellular cadherin domains; AFM, Atomic Force Microscopy; SMD, Steered Molecular Dynamics; TIRF, Total
Ionic strength and composition govern the elasticity of biological membranes. A study of model DMPC bilayers by force- and transmission IR spectroscopy
Keywords: طیف سنجی نیروی; AFM; Force spectroscopy; Ion binding; Ion mixture; IR spectroscopy; Lipid bilayers; Nanomechanics; Seawater;
Direct and quantitative AFM measurements of the concentration and temperature dependence of the hydrophobic force law at nanoscopic contacts
Keywords: طیف سنجی نیروی; Hydrophobic force; AFM; Force spectroscopy; Hydra model;
Effect of Cancer Drug LHRH-PE40 on the Elasticity of Living HeLa Cells
Keywords: طیف سنجی نیروی; Cell elasticity; Single-cell level; Force spectroscopy; Atomic force microscopy
High-throughput single-molecule studies of protein–DNA interactions
Keywords: طیف سنجی نیروی; DNA curtains; Force spectroscopy; Particle tracking
Combined force spectroscopy, AFM and calorimetric studies to reveal the nanostructural organization of biomimetic membranes
Keywords: طیف سنجی نیروی; Biomembranes; Phase diagram; Atomic force microscopy; Force spectroscopy
Galectin 3-β-galactobiose interactions
Keywords: طیف سنجی نیروی; Modified pectin; Gal3; Anti-cancer action; β-Galactobiose; Force spectroscopy; Atomic force microscopy;
Different effects of Alzheimer's peptide Aβ(1-40) oligomers and fibrils on supported lipid membranes
Keywords: طیف سنجی نیروی; Aβ toxicity; Supported lipid bilayers; In liquid AFM; Force spectroscopy;
Novel polymer linkers for single molecule AFM force spectroscopy
Keywords: طیف سنجی نیروی; Atomic force microscopy; Force spectroscopy; Surface chemistry; Polymeric linker; Phoshoramidates; Protein unfolding; Protein-DNA complexes; Single molecule force spectroscopy;
Cytoadherence of erythrocytes invaded by Plasmodium falciparum: Quantitative contact-probing of a human malaria receptor
Keywords: طیف سنجی نیروی; Malaria; Cytoadherence; Chondroitin sulfate A; Force spectroscopy; Single-cell probe;