Pages that link to "Q57031564"

The following pages link to Large deformation of living cells using laser traps (Q57031564):

Displaying 26 items.

• Deformation and failure of protein materials in physiologically extreme conditions and disease (Q28235746) (← links)
• Probing red blood cell mechanics, rheology and dynamics with a two-component multi-scale model (Q30583036) (← links)
• A novel two-layer, coupled finite element approach for modeling the nonlinear elastic and viscoelastic behavior of human erythrocytes. (Q33667014) (← links)
• Red blood cell rheology using single controlled laser-induced cavitation bubbles (Q33779966) (← links)
• Cell Docking, Movement and Cell-Cell Interactions of Heterogeneous Cell Suspensions in a Cell Manipulation Microdevice (Q35863202) (← links)
• Optomechanical measurement of the stiffness of single adherent cells (Q35721647) (← links)
• Deformation measurement of individual cells in large populations using a single-cell microchamber array chip (Q35953783) (← links)
• Optical tweezers for single cells (Q37125303) (← links)
• Biomechanics of haemostasis and thrombosis in health and disease: from the macro- to molecular scale (Q37294541) (← links)
• Actuation means for the mechanical stimulation of living cells via microelectromechanical systems: A critical review (Q37864771) (← links)
• Biolens behavior of RBCs under optically-induced mechanical stress (Q38744821) (← links)
• Use of optical tweezers technology for long-term, focal stimulation of specific subcellular neuronal compartments. (Q39570805) (← links)
• Dielectrophoretic stretching of cells allows for characterization of their mechanical properties (Q39627040) (← links)
• Mechanical diagnosis of human erythrocytes by ultra-high speed manipulation unraveled critical time window for global cytoskeletal remodeling (Q41831950) (← links)
• Cell-free layer development process in the entrance region of microvessels (Q44876677) (← links)
• Analyzing the interplay between single cell rheology and force generation through large deformation finite element models (Q46098985) (← links)
• The Role of Nanomechanics in Healthcare. (Q46250335) (← links)
• Computational analysis of adhesion force in the indentation of cells using atomic force microscopy (Q47833523) (← links)
• Using a mathematical model of cadherin-based adhesion to understand the function of the actin cytoskeleton (Q47948344) (← links)
• Sub-population analysis of deformability distribution in heterogeneous red blood cell population (Q50436925) (← links)
• Mechanical characteristics of human red blood cell membrane change due to C60 nanoparticle infiltration (Q50496840) (← links)
• Optomechanical measurement of the role of lamins in whole cell deformability (Q50662121) (← links)
• Dielectrophoresis Testing of Nonlinear Viscoelastic Behaviors of Human Red Blood Cells. (Q53404712) (← links)
• Modeling erythrocyte electrodeformation in response to amplitude modulated electric waveforms. (Q55660356) (← links)
• Corrigendum to “Large deformation of living cells using laser traps” [Acta Materialia 52 (2004) 1837–1845] (Q57031569) (← links)
• Reliable and mobile all-fiber modular optical tweezers (Q102152303) (← links)