Weighting and Query Structuring Scheme for Disambiguation in CLTR

Maste

The effect of volume expansion on the propagation of wrinkled premixed flame

학위논문(석사) - 한국과학기술원 : 항공우주공학과, 1998.2, [ ix, 74 p. ]한국과학기술원 : 항공우주공학과

Moxifloxacin: Clinically compatilble contrast agent for multiphoton imaging

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Prediction of Liposome Properties Using Electrophoretic Trap

Liposomes, which can carry the target-oriented payloads, are widely used to innovate the drug delivery systems due to their bio-compatibilities and stability in biological systems. Here, we present a novel method to estimate the material properties (e.g. charge, elasticity of lipid, damping by payload, etc.) of liposomes in aqueous medium by measuring their random fluctuations in electrophoretic trap. The random Brownian motions of trapped liposome are closely related with the material properties, and it can be described by the Langevin equation with proper electrophoretic force model.The material properties such as charge, elasticity of lipid, damping by payload, etc. can be determined via an iterative comparison of the measured fluctuations and the theoretical predictions. The present study provides an efficient way to estimate the unknown properties of newly designed liposome.operties (e.g. charge, elasticity of lipid, damping by payload, etc.) of liposomes in aqueous medium by measuring their random fluctuations in electrophoretic trap. The random Brownian motions of trapped liposome are closely related with the material properties, and it can be described by the Langevin equation with proper electrophoretic force model.The material properties such as charge, elasticity of lipid, damping by payload, etc. can be determined via an iterative comparison of the measured fluctuations and the theoretical predictions. The present study provides an efficient way to estimate the unknown properties of newly designed liposome.2

Antibody-Quantum Dot Conjugates with Zwitterionic Surface Ligand for Multi-channel Colonoscopy Probes

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Random Motion Assisted Charge Identification of the Liposome in Planar Electrophoretic Trap with Aqueous Medium

Liposomes are essential in innovating the drug delivery systems. In this study, we propose a novel method to estimate the charge and the mechanical properties of liposome from its random fluctuation in electrophoretic traps. Since the Brownian motion of liposome is described by the Langevin equation with proper electrophoretic force model, the liposome charge can be computed via an iterative comparison of the measured fluctuations and the theoretical predictions. The presentapproach also unveils the correlations between the other unique properties of liposome (e.g. elasticity of lipid surface) and the random dynamics. The present study provides an efficient way to estimate the unknown properties of newly designed liposome.ian motion of liposome is described by the Langevin equation with proper electrophoretic force model, the liposome charge can be computed via an iterative comparison of the measured fluctuations and the theoretical predictions. The presentapproach also unveils the correlations between the other unique properties of liposome (e.g. elasticity of lipid surface) and the random dynamics. The present study provides an efficient way to estimate the unknown properties of newly designed liposome.1

Spraying Quantum Dot Conjugates for Rapid and Multiplex Cancer Diagnosis Using Endoscopy

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Cancer microenvironment-sensitive activatable quantum dot probe in the second near

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Rapid and Multiplexed Quantum Dot Conjugate Spraying Probes for Colonoscopic Cancer Diagnosis

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Spraying Quantum Dot Conjugates in the Colon of Live Animals Enabled Rapid and Multiplex Cancer Diagnosis Using EndoscopySpraying Quantum Dot Conjugates in the Colon of Live Animals Enabled Rapid and Multiplex Cancer Diagnosis Using Endoscopy

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