Wrap-bake-peel process for nanostructural transformation from beta-FeOOH nanorods to biocompatible iron oxide nanocapsules.
about
Copper doped ceria porous nanostructures towards a highly efficient bifunctional catalyst for carbon monoxide and nitric oxide eliminationNanoparticle-based theranostic agentsEffects of nanoparticle size on cellular uptake and liver MRI with polyvinylpyrrolidone-coated iron oxide nanoparticlesCleaved iron oxide nanoparticles as T2 contrast agents for magnetic resonance imaging.Cooperative nanoparticles for tumor detection and photothermally triggered drug deliveryHSA coated iron oxide nanoparticles as drug delivery vehicles for cancer therapy.Magnetic nanoparticles: preparation, physical properties, and applications in biomedicine.Theranostic nanoplatforms for simultaneous cancer imaging and therapy: current approaches and future perspectives.Formation of alumina nanocapsules by high-energy-electron irradiation of Na-dawsonite nanorodsMultifunctional nanostructured materials for multimodal imaging, and simultaneous imaging and therapy.Self-Templated Synthesis of Ultrathin Nanosheets Constructed TiO2 Hollow Spheres with High Electrochemical PropertiesMagnetic and optical properties of multifunctional core-shell radioluminescence nanoparticles.Synthesis, functionalization, and biomedical applications of multifunctional magnetic nanoparticles.Tube Formation in Nanoscale Materials.Advancement in multifunctional nanoparticles for the effective treatment of cancer.Templated synthesis of nanostructured materials.Promising iron oxide-based magnetic nanoparticles in biomedical engineering.Recent advances in superparamagnetic iron oxide nanoparticles for cellular imaging and targeted therapy research.Structuring of metal-organic frameworks at the mesoscopic/macroscopic scale.Exchange-coupled nanocomposites: chemical synthesis, characterization and applications.Two-dimensional graphene analogues for biomedical applications.Iron oxide-based multifunctional nanoparticulate systems for biomedical applications: a patent review (2008 - present).pH-Responsive drug release and NIR-triggered singlet oxygen generation based on a multifunctional core-shell-shell structure.Highly monodisperse low-magnetization magnetite nanocubes as simultaneous T(1)-T(2) MRI contrast agents.Nano Metal-Organic Framework-Derived Inorganic Hybrid Nanomaterials: Synthetic Strategies and Applications.A highly crystalline manganese-doped iron oxide nanocontainer with predesigned void volume and shape for theranostic applications.Synthesis of monodisperse hollow carbon nanocapsules by using protective silica shells.Monitoring pH-triggered drug release from radioluminescent nanocapsules with X-ray excited optical luminescenceHollow and concave nanoparticles via preferential oxidation of the core in colloidal core/shell nanocrystals.Nanodiamonds as Carriers for Address Delivery of Biologically Active Substances.Aerosol synthesis of phase-controlled iron-graphene nanohybrids through FeOOH nanorod intermediatesEncapsulation of Fe3O4 Nanoparticles into N, S co-Doped Graphene Sheets with Greatly Enhanced Electrochemical Performance.Surface Modification and Heat Generation of FePt NanoparticlesTemplate-free formation of uniform urchin-like α-FeOOH hollow spheres with superior capability for water treatment.Magnetic assembly and field-tuning of ellipsoidal-nanoparticle-based colloidal photonic crystals.Mesoporous Li₄Ti₅O₁₂ hollow spheres with enhanced lithium storage capability.Galvanic replacement reactions in metal oxide nanocrystals.TiO2 hollow spheres composed of highly crystalline nanocrystals exhibit superior lithium storage properties.Genetically modified luminescent bacteria Ralostonia solanacerum, Pseudomonas syringae, Pseudomonas savastanoi, and wild type bacterium Vibrio fischeri in biosynthesis of gold nanoparticles from gold chloride trihydrate.Size control of magnetite nanoparticles in excess ligands as a function of reaction temperature and time.
P2860
Q33847864-7850CB02-4EF3-4A5B-A15D-17750851B0A9Q34130095-CC05F845-EA32-4372-A3AC-90639CAFB7E8Q34444404-BFFF6D36-4CA5-4099-B5FB-B0E674956694Q34560453-4CA293C4-7D02-4DB8-BC25-A2ECB6301AD3Q34674805-11DBD9A8-7455-4FCE-B024-8E7E56F67974Q35257028-88D6ACBC-9E1E-4BDC-8A80-7220F719BAC9Q35854293-4A0AA196-535D-4D9D-85E8-8032DD2DEA56Q36777292-8C2F8316-009F-4D8C-8AAD-EA6AC8EF1A92Q37307243-605D62CA-4629-4481-8AAE-FAB72C8813CFQ37377524-2216E382-BB84-44F6-85AE-ECE0198DB837Q37404637-22A1DE72-00F8-485A-82C2-05F50B3788E2Q37570133-7ECD594D-BAA3-46C5-8C50-A5BD05D011B5Q37754141-0318E57A-5031-4603-8ABB-0329DBF83C9DQ37769119-40622AD2-7F7E-4C03-9656-1F863BFC89B9Q37991742-8FE4A0E7-7BCA-47E1-B9BC-82DA27E49FC7Q38055046-EB3075D4-1395-47C6-A868-EF14C0454CB7Q38069511-0F7C461E-0DEF-4D61-8411-6A0849F6575EQ38102018-0D044729-D467-42AC-BC52-81E75A0854B8Q38210425-3E8E778C-054F-4C5E-BD96-FE88CE0B627EQ38240599-EF6590CF-4517-49AC-9E08-08072F315B4EQ38292327-DF657B27-BB79-4A0B-8C11-03064781D0C8Q38387860-B08152A7-2DC2-45FD-8790-42B647528EF6Q38814204-CEDE8E18-A9AE-4B67-9B94-7B2483009528Q38870993-A5A1E76E-0544-4343-BCAC-1E47DBA5F1F6Q39013037-A6F91E34-E855-4C27-A940-B02FCE082B82Q39156740-7AE7AB14-9034-473D-93FB-9E05B59CE47FQ39205703-85970591-AF8F-4B49-8007-D1657102C781Q39444049-3622804D-121A-42DC-8E4E-FCCF4282A4F5Q41387056-D11509CB-CA47-454B-8E67-080E8DFEA3D2Q41557984-65C47C2F-BE8F-4B16-9C43-2D7A47C3FE44Q41640886-C046C483-8272-4494-97C2-B6CC3AB5952FQ42006229-3562DBF3-50FC-48D6-9C80-8110EED3A456Q42018041-7DD85AE8-C3F5-4C3D-B5AF-11DD9CD4732EQ43339525-22DBEDB5-70AF-456A-A467-BB6CA93F8981Q43645565-A4D18C88-F446-45D2-9591-52ED19FB4C44Q44020391-0131921B-D053-470F-A0E8-3E0335D71254Q45061177-EE5F24E8-2785-4F85-B839-E875CA0A9F1AQ46851991-3BD8ABB7-1803-4521-835B-7A071529680BQ46856987-E47FBF28-B914-4ECA-BFDF-181386B5A229Q47444374-58F60006-9849-47E7-BAEF-D53199A51086
P2860
Wrap-bake-peel process for nanostructural transformation from beta-FeOOH nanorods to biocompatible iron oxide nanocapsules.
description
2008 nî lūn-bûn
@nan
2008 թուականի Փետրուարին հրատարակուած գիտական յօդուած
@hyw
2008 թվականի փետրվարին հրատարակված գիտական հոդված
@hy
2008年の論文
@ja
2008年論文
@yue
2008年論文
@zh-hant
2008年論文
@zh-hk
2008年論文
@zh-mo
2008年論文
@zh-tw
2008年论文
@wuu
name
Wrap-bake-peel process for nan ...... tible iron oxide nanocapsules.
@ast
Wrap-bake-peel process for nan ...... tible iron oxide nanocapsules.
@en
type
label
Wrap-bake-peel process for nan ...... tible iron oxide nanocapsules.
@ast
Wrap-bake-peel process for nan ...... tible iron oxide nanocapsules.
@en
prefLabel
Wrap-bake-peel process for nan ...... tible iron oxide nanocapsules.
@ast
Wrap-bake-peel process for nan ...... tible iron oxide nanocapsules.
@en
P2093
P50
P356
P1433
P1476
Wrap-bake-peel process for nan ...... tible iron oxide nanocapsules.
@en
P2093
Dokyoon Kim
Ji Seon Baek
Mi Kyeong Ko
Mohammadreza Shokouhimehr
Taeghwan Hyeon
Yuanzhe Piao
P2888
P304
P356
10.1038/NMAT2118
P407
P577
2008-02-17T00:00:00Z
P6179
1019281346