Upconversion nanoparticles and their composite nanostructures for biomedical imaging and cancer therapy.
about
Upconversion Nanoparticles for Bioimaging and Regenerative MedicineBiomedical applications of functionalized hollow mesoporous silica nanoparticles: focusing on molecular imagingUpconversion nanoparticles: design, nanochemistry, and applications in theranosticsHexamodal imaging with porphyrin-phospholipid-coated upconversion nanoparticles.Rare-Earth doped particles as dual-modality contrast agent for minimally-invasive luminescence and dual-wavelength photoacoustic imagingA new near infrared photosensitizing nanoplatform containing blue-emitting up-conversion nanoparticles and hypocrellin A for photodynamic therapy of cancer cells.In vitro photodynamic therapy based on magnetic-luminescent Gd2O3:Yb,Er nanoparticles with bright three-photon up-conversion fluorescence under near-infrared light.Shape-controllable synthesis of hydrophilic NaLuF4:Yb,Er nanocrystals by a surfactant-assistant two-phase system.Nanoparticle Probes for the Detection of Cancer Biomarkers, Cells, and Tissues by FluorescenceCarbon Nanodots as Dual-Mode Nanosensors for Selective Detection of Hydrogen Peroxide.Practical implementation, characterization and applications of a multi-colour time-gated luminescence microscope.Polymer micro- and nanocapsules as biological carriers with multifunctional properties.NIR photoregulated chemo- and photodynamic cancer therapy based on conjugated polyelectrolyte-drug conjugate encapsulated upconversion nanoparticles.Phonon-assisted energy back transfer-induced multicolor upconversion emission of Gd2O3:Yb(3+)/Er(3+) nanoparticles under near-infrared excitation.Smart micelle@polydopamine core-shell nanoparticles for highly effective chemo-photothermal combination therapy.A new medium for triplet-triplet annihilated upconversion and photocatalytic application.Near-Infrared-Triggered Azobenzene-Liposome/Upconversion Nanoparticle Hybrid Vesicles for Remotely Controlled Drug Delivery to Overcome Cancer Multidrug Resistance.Recent Advance of Biological Molecular Imaging Based on Lanthanide-Doped Upconversion-Luminescent Nanomaterials.Near-infrared light activated delivery platform for cancer therapyEfficient up-conversion in Yb:Er:NaT(XO4)2 thermal nanoprobes. Imaging of their distribution in a perfused mouse.Stem cell tracking with optically active nanoparticlesNanoscale materials for hyperthermal theranostics.Upconversion nanoparticles for photodynamic therapy and other cancer therapeuticsBasic understanding of the lanthanide related upconversion emissions.Recent advances in design and fabrication of upconversion nanoparticles and their safe theranostic applications.Current advances in lanthanide ion (Ln(3+))-based upconversion nanomaterials for drug delivery.Stimuli responsive upconversion luminescence nanomaterials and films for various applications.Enhancing luminescence in lanthanide-doped upconversion nanoparticles.The intersection of CMOS microsystems and upconversion nanoparticles for luminescence bioimaging and bioassays.Near-infrared-light-mediated imaging of latent fingerprints based on molecular recognition.Design, synthesis, and characterization of graphene-nanoparticle hybrid materials for bioapplications.Smart multifunctional drug delivery towards anticancer therapy harmonized in mesoporous nanoparticles.Lanthanide Ion Doped Upconverting Nanoparticles: Synthesis, Structure and Properties.On The Latest Three-Stage Development of Nanomedicines based on Upconversion Nanoparticles.Near-infrared light triggered photodynamic therapy in combination with gene therapy using upconversion nanoparticles for effective cancer cell killing.NIR-responsive upconversion nanoparticles stimulate neurite outgrowth in PC12 cells.Enzyme-responsive cell-penetrating peptide conjugated mesoporous silica quantum dot nanocarriers for controlled release of nucleus-targeted drug molecules and real-time intracellular fluorescence imaging of tumor cells.Synergistic eradication of antibiotic-resistant bacteria based biofilms in vivo using a NIR-sensitive nanoplatform.Neuroendocrine Tumor-Targeted Upconversion Nanoparticle-Based Micelles for Simultaneous NIR-Controlled Combination Chemotherapy and Photodynamic Therapy, and Fluorescence Imaging.Tailoring bifunctional hybrid organic-inorganic nanoadsorbents by the choice of functional layer composition probed by adsorption of Cu2+ ions.
P2860
Q26744465-36C2E5E9-FB7A-420E-A072-C06316C33B82Q26827998-4F0A1FD8-BD99-4E48-AA70-A1A1BDD301F5Q26830008-C97541DC-01D0-41F3-A270-23A828C5FA30Q30388464-277D96C4-5BB5-428F-8549-A8B14C0CD814Q30428776-D374B4E4-FFA8-4D09-A4AB-7E8108B33ADCQ30678244-385A50AF-CEF4-40F9-B5E8-141C7BB0D426Q30988182-A08E31EA-91D9-403C-B717-3D983EE87FA8Q33644502-62086EE3-844E-4CD9-B195-84910C9F228DQ33759991-A434D07D-5B9E-42BA-9997-BDF15090D225Q33881678-602B8DD5-EDE5-4380-ABD3-8DEECAD74637Q34326051-CE00D9CF-47C8-40F5-9009-E5AC8AAA4E74Q35116954-D75DBAA6-4D8C-4457-841A-53FD964D0D2BQ35226499-8180959A-4B0E-4EB1-8CCC-2292A624AEC2Q35640642-24A8839D-BB96-41C7-B97F-04FE9D3DCCDDQ35837864-D12BB16B-80E0-4890-90E3-AAB5C90A59B0Q35845052-768345F5-0E89-4DE2-A9FF-4AFE158FE02DQ36118030-B0583345-752F-407A-A5CF-18DF9C577C75Q36324626-5BBC2710-797C-48C5-950E-2C162F40B272Q36373450-3932F0D1-A7A3-4360-B7E0-3A8C97398931Q36380386-58D82F6F-4466-408E-A981-6C95AE94EA2DQ36769229-CD488FD5-7C00-4000-9514-D9600C35F227Q36794937-14575C10-138F-4761-B137-78345D69F3B9Q36818538-49128AB5-8681-494A-BF68-73A3C8B07420Q38082985-385FA89B-6A77-4E35-B958-8013EB9D4CDDQ38118224-EAEA9857-2F0D-405B-91FB-B13CD625CD7EQ38225630-FFFBAD39-12FC-4819-8B18-6182A0DB5F34Q38247007-74FEBCDB-B2EB-4392-AC14-ED57ED4DFC2DQ38247508-0A713B0D-9EF2-45A2-8BCE-FE57BB124D03Q38248331-7D756EA7-A3E2-406B-8021-4BB748FC96C5Q38309545-63895074-5238-456E-9841-0E994237558FQ38360063-D061E7D7-5073-47CC-87A9-056BACBA394DQ38563960-735018D0-ABA4-4CF5-8EEA-F126B2BD4376Q38848360-9449C36B-F3F0-4ABA-9694-F49A0EFBD823Q38887908-61459ACB-4682-4C47-A61E-ACFD29B14DF5Q38979501-D98507EB-77FD-4581-8CC1-FD1C458C1BB8Q38993868-12E6ED66-973A-4573-B391-67DC74D506FDQ39022731-0EA5CDA1-3AD3-40F4-8268-A36A88ECDDF8Q40745982-820D82E4-331F-4387-B434-9488A67FF005Q42011249-0442AE28-8848-463C-9D48-38FD1C4A946EQ42123089-A6F10FAD-D814-483B-AAB4-63887853E161
P2860
Upconversion nanoparticles and their composite nanostructures for biomedical imaging and cancer therapy.
description
2012 nî lūn-bûn
@nan
2012年の論文
@ja
2012年学术文章
@wuu
2012年学术文章
@zh-cn
2012年学术文章
@zh-hans
2012年学术文章
@zh-my
2012年学术文章
@zh-sg
2012年學術文章
@yue
2012年學術文章
@zh
2012年學術文章
@zh-hant
name
Upconversion nanoparticles and ...... al imaging and cancer therapy.
@en
type
label
Upconversion nanoparticles and ...... al imaging and cancer therapy.
@en
prefLabel
Upconversion nanoparticles and ...... al imaging and cancer therapy.
@en
P2093
P2860
P356
P1433
P1476
Upconversion nanoparticles and ...... al imaging and cancer therapy.
@en
P2093
Liang Cheng
Zhuang Liu
P2860
P356
10.1039/C2NR32311G
P407
P577
2012-11-07T00:00:00Z