Shiou‐Jyh Hwu scite author profile

Magnetic nanocapsules were synthesized for controlled drug release, magnetically assisted delivery, and MRI imaging. These magnetic nanocapsules, consisting of a stable iron nanocore and a mesoporous silica shell, were synthesized by controlled encapsulation of ellipsoidal hematite in silica, partial etching of the hematite core in acid, and reduction of the core by hydrogen. The iron core provided a high saturation magnetization and was stable against oxidation for at least 6 months in air and 1 month in aqueous solution. The hollow space between the iron core and mesoporous silica shell was used to load anticancer drug and a T1-weighted MRI contrast agent (Gd-DTPA). These multifunctional monodispersed magnetic “nanoeyes” were coated by multiple polyelectrolyte layers of biocompatible poly-l-lysine and sodium alginate to control the drug release as a function of pH. We studied pH-controlled release, magnetic hysteresis curves, and T1/T2 MRI contrast of the magnetic nanoeyes. They also served as MRI contrast agents with relaxivities of 8.6 mM–1 s–1 (r1) and 285 mM–1 s–1 (r2).

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A New Class of Hybrid Materials via Salt Inclusion: Novel Copper(II) Arsenates Na₅ACu₄(AsO₄)₄Cl₂ (A = Rb, Cs) Composed of Alternating Covalent and Ionic Lattices

Hwu

Ulutagay-Kartin

Clayhold

et al. 2002

J. Am. Chem. Soc.

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Two novel copper(II) arsenates Na5ACu4(AsO4)4Cl2 (A = Rb, Cs) were synthesized by conventional solid-state methods using reactive molten salt media. These compounds are isostructural and crystallize in an orthorhombic lattice (Fmmm, No. 69; Z = 8). The cell constants are a = 14.632(3) A, b = 18.872(2) A, c = 14.445(3) A, V = 3989(1) A3, for A = Rb; a = 14.638(3) A, b = 18.990(4) A, c = 14.418(3) A, V = 4008(1) A3, for A = Cs. Single-crystal structure studies reveal a new composite framework consisting of alternating covalent and ionic lattices. The covalent lattice contains highly oriented oligomeric mu-oxo [Cu4O12]16- tetrameric units with a cyclo-S8-like Cu4O4 magnetic core that resembles the building block of layered cuprates. The ionic slab consists of a novel framework of mixed alkali metal chloride lattice and rarely seen Na6O8 clusters. Similar to organic-inorganic hybrid materials, the title compounds present a new class of host-guest chemistry via salt inclusion reactions.

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Salt-Templated Open Frameworks (CU-2): Novel Phosphates and Arsenates Containing M₃(X₂O₇)₂^2- (M = Mn, Cu; X = P, As) Micropores 5.3 Å and 12.7 Å in Diameter

et al. 1999

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Shiou‐Jyh Hwu

Iron-Loaded Magnetic Nanocapsules for pH-Triggered Drug Release and MRI Imaging

A New Class of Hybrid Materials via Salt Inclusion: Novel Copper(II) Arsenates Na₅ACu₄(AsO₄)₄Cl₂ (A = Rb, Cs) Composed of Alternating Covalent and Ionic Lattices

Salt-Templated Open Frameworks (CU-2): Novel Phosphates and Arsenates Containing M₃(X₂O₇)₂^2- (M = Mn, Cu; X = P, As) Micropores 5.3 Å and 12.7 Å in Diameter

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Shiou‐Jyh Hwu

Iron-Loaded Magnetic Nanocapsules for pH-Triggered Drug Release and MRI Imaging

A New Class of Hybrid Materials via Salt Inclusion: Novel Copper(II) Arsenates Na5ACu4(AsO4)4Cl2 (A = Rb, Cs) Composed of Alternating Covalent and Ionic Lattices

Salt-Templated Open Frameworks (CU-2): Novel Phosphates and Arsenates Containing M3(X2O7)22- (M = Mn, Cu; X = P, As) Micropores 5.3 Å and 12.7 Å in Diameter

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Product

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A New Class of Hybrid Materials via Salt Inclusion: Novel Copper(II) Arsenates Na₅ACu₄(AsO₄)₄Cl₂ (A = Rb, Cs) Composed of Alternating Covalent and Ionic Lattices

Salt-Templated Open Frameworks (CU-2): Novel Phosphates and Arsenates Containing M₃(X₂O₇)₂^2- (M = Mn, Cu; X = P, As) Micropores 5.3 Å and 12.7 Å in Diameter