Siu Fung Lee scite author profile

Materials:Unless otherwise noted, all solvents and reagents were purchased from VWR or Sigma-Aldrich.The ruthenium-based metathesis catalyst was obtained from Materia Inc. and stored in a drybox prior to use, and the RuO4 SEM staining agent was obtained from Polysciences, Inc and stored at 4 ºC. The ruthenium metathesis catalyst ((H2IMes)(pyr)2(Cl)2RuCHPh) and PLA macromonomer initiator (N-(hydroxyethanyl)-cis-5-norbornene-exo-2,3-dicarboximide) were prepared as described previously (1). Dry solvents were purified by passing them through solvent purification columns, and 3,6-dimethyl-1,4-dioxane-2,5-dione was purified by sublimation under vacuum. All other solvents and chemicals were used without further purification unless otherwise noted. General Information:NMR spectra were recorded at room temperature on a Varian Inova 500 (at 500 MHz), and analyzed on MestReNova software. Gel permeation chromatography (GPC) was carried out in THF on two Plgel 10 μm mixed-B LS columns (Polymer Laboratories) connected in series with a miniDAWN TREOS multiangle laser light scattering (MALLS) detector, a ViscoStar viscometer and Optilab rex differential refractometer (all from Wyatt Technology). The dn/dc values used for the polylactide and polystyrene macromonomers were 0.050 and 0.180 respectively, and dn/dc values for the brush polymers and random copolymers were obtained for each injection by assuming 100% mass elution from the columns. SEM images were taken on a ZEISS 1550 VP

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Ultrasound, pH, and Magnetically Responsive Crown-Ether-Coated Core/Shell Nanoparticles as Drug Encapsulation and Release Systems

Lee

Zhu

Wáng

et al. 2013

ACS Appl. Mater. Interfaces

125

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Core@shell nanoparticles with superparamagnetic iron oxide core, mesoporous silica shell, and crown ether periphery were fabricated toward drug delivery and tumor cell imaging. By the concept of nanovalve based on supramolecular gatekeeper, stimuli-responsive drug delivery nanosystems Fe3O4@SiO2@meso-SiO2@crown ethers were synthesized by (i) modified solvothermal reaction; (ii) sol-gel reaction; and (iii) amide coupling reaction. The successful coupling of the dibenzo-crown ethers onto the mesoporous silica shell was confirmed by thermogravimetric analysis and Infrared spectroscopy. In this system, the "ON/OFF" switching of the gatekeeper supramolecules can be controlled by pH-sensitive intramolecular hydrogen bonding or electrostatic interaction (such as metal chelating). Biological evaluation of the nanoparticles renders them noncytotoxic and can be uptaken by L929 cells. In this work, the antitumor drug (doxorubicin) loading and release profiles which were studied by the UV/visible absorption spectroscopy. The mechanism involves the best-fit binding of crown ethers with cesium or sodium ions at different pH values with ultrasonic wave in phosphate buffered saline (PBS). Magnetic resonance imaging analysis of the particles reveals a high relaxivity, rendering them potentially useful theranostic agents.

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Folate-conjugated Fe3O4@SiO2@gold nanorods@mesoporous SiO2 hybrid nanomaterial: a theranostic agent for magnetic resonance imaging and photothermal therapy

et al. 2013

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Photocytotoxicity and Magnetic Relaxivity Responses of Dual-Porous γ-Fe₂O₃@meso-SiO₂ Microspheres

Xuan

Lee²,

Lau³

et al. 2012

ACS Appl. Mater. Interfaces

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Novel high magnetization microspheres with porous γ-Fe(2)O(3) core and porous SiO(2) shell were synthesized using a templating method, whereas the size of the magnetic core and the thickness of the porous shell can be controlled by tuning the experimental parameters. By way of an example, as-prepared γ-Fe(2)O(3)@meso-SiO(2) microspheres (170 nm) display excellent water-dispersity and show photonic characteristics under externally applied a magnetic field. The magnetic property of the γ-Fe(2)O(3) porous core enables the microspheres to be used as a contrast agent in magnetic resonance imaging with a high r(2) (76.5 s(-1) mM(-1) Fe) relaxivity. The biocompatible composites possess a large BET surface area (222.3 m(2)/g), demonstrating that they can be used as a bifunctional agent for both MRI and drug carrier. Because of the high substrate loading of the magnetic, dual-porous materials, only a low dosage of the substrate will be acquired for potential practical applications. Hydrophobic zinc(II) phthalocyanine (ZnPC) photosensitizing molecules have been encapsulated into the dual-porous microspheres to form γ-Fe(2)O(3)@meso-SiO(2)-ZnPC microspheres. Biosafety, cellular uptake in HT29 cells, and in vitro MRI of these nanoparticles have been demonstrated. Photocytotoxicity (λ > 610 nm) of the HT29 cells uptaken with γ-Fe(2)O(3)@meso-SiO(2)-ZnPC microspheres has been demonstrated for 20 min illumination.

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Siu Fung Lee

Improving Brush Polymer Infrared One-Dimensional Photonic Crystals via Linear Polymer Additives

Ultrasound, pH, and Magnetically Responsive Crown-Ether-Coated Core/Shell Nanoparticles as Drug Encapsulation and Release Systems

Folate-conjugated Fe3O4@SiO2@gold nanorods@mesoporous SiO2 hybrid nanomaterial: a theranostic agent for magnetic resonance imaging and photothermal therapy

Photocytotoxicity and Magnetic Relaxivity Responses of Dual-Porous γ-Fe₂O₃@meso-SiO₂ Microspheres

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Siu Fung Lee

Improving Brush Polymer Infrared One-Dimensional Photonic Crystals via Linear Polymer Additives

Ultrasound, pH, and Magnetically Responsive Crown-Ether-Coated Core/Shell Nanoparticles as Drug Encapsulation and Release Systems

Folate-conjugated Fe3O4@SiO2@gold nanorods@mesoporous SiO2 hybrid nanomaterial: a theranostic agent for magnetic resonance imaging and photothermal therapy

Photocytotoxicity and Magnetic Relaxivity Responses of Dual-Porous γ-Fe2O3@meso-SiO2 Microspheres

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Photocytotoxicity and Magnetic Relaxivity Responses of Dual-Porous γ-Fe₂O₃@meso-SiO₂ Microspheres