Photoactive Ruthenium Nitrosyls: Effects of Light and Potential Application as NO Donors.
about
Polymer-Based Nitric Oxide Therapies: Recent Insights for Biomedical Applications.NIR-triggered release of caged nitric oxide using upconverting nanostructured materials.Designed iron carbonyls as carbon monoxide (CO) releasing molecules: rapid CO release and delivery to myoglobin in aqueous buffer, and vasorelaxation of mouse aortaVisible light-triggered nitric oxide release from near-infrared fluorescent nanospheric vehicles.Solid-phase synthesis as a platform for the discovery of new ruthenium complexes for efficient release of photocaged ligands with visible light.Reversible binding of nitric oxide to an Fe(III) complex of a tetra-amido macrocycle.Selective Photodissociation of Acetonitrile Ligands in Ruthenium Polypyridyl Complexes Studied by Density Functional Theory.Photoremovable protecting groups in chemistry and biology: reaction mechanisms and efficacy.Application of metal coordination chemistry to explore and manipulate cell biology.Nitric oxide-donating materials and their potential in pharmacological applications for site-specific nitric oxide delivery.Multi-photon excitation in uncaging the small molecule bioregulator nitric oxide.Light-triggered nitric oxide delivery to malignant sites and infection.Nitric oxide modulators: an emerging class of medicinal agents.Photophysical properties and the NO photorelease mechanism of a ruthenium nitrosyl model complex investigated using the CASSCF-in-DFT embedding approach.Heteropentanuclear Oxalato-Bridged nd-4f (n=4, 5) Metal Complexes with NO Ligand: Synthesis, Crystal Structures, Aqueous Stability and Antiproliferative ActivityRuthenium polypyridyl phototriggers: from beginnings to perspectives.Ruthenium nitrosyls derived from tetradentate ligands containing carboxamido-N and phenolato-o donors: syntheses, structures, photolability, and time dependent density functional theory studiesSyntheses, structures, and photochemistry of manganese nitrosyls derived from designed Schiff base ligands: potential NO donors that can be activated by near-infrared light.Biological properties of novel ruthenium- and osmium-nitrosyl complexes with azole heterocycles.Orbital entanglement and CASSCF analysis of the Ru-NO bond in a Ruthenium nitrosyl complex.Photo-induced DNA cleavage activity and remarkable photocytotoxicity of lanthanide(III) complexes of a polypyridyl ligand.A photosensitive {Ru-NO}6 nitrosyl bearing dansyl chromophore: novel NO donor with a fluorometric on/off switch.A Theoretical Study of the N to O Linkage Photoisomerization Efficiency in a Series of Ruthenium Mononitrosyl Complexes.The wonderful world of pyridine-2,6-dicarboxamide based scaffolds.Tumor cell specific and lysosome-targeted delivery of nitric oxide for enhanced photodynamic therapy triggered by 808 nm near-infrared light.Comparative photo-release of nitric oxide from isomers of substituted terpyridinenitrosylruthenium(II) complexes: experimental and computational investigations.Hydroxide-bridged dicopper complexes: the influence of secondary coordination sphere on structure and catecholase activity.Photo-controlled targeted intracellular delivery of both nitric oxide and singlet oxygen using a fluorescence-trackable ruthenium nitrosyl functional nanoplatform.Pushing the photodelivery of nitric oxide to the visible: are {FeNO}7 complexes good candidates?Ruthenium nitrosyl functionalized graphene quantum dots as an efficient nanoplatform for NIR-light-controlled and mitochondria-targeted delivery of nitric oxide combined with photothermal therapy.Sensitization of NO-Releasing Ruthenium Complexes to Visible Light.Distorted tetrahedral nickel-nitrosyl complexes: spectroscopic characterization and electronic structure.Lipophilic ruthenium salen complexes: incorporation into liposome bilayers and photoinduced release of nitric oxide.Electronic tuning of nitric oxide release from manganese nitrosyl complexes by visible light irradiation: enhancement of nitric oxide release efficiency by the nitro-substituted quinoline ligand.From curiosity to applications. A personal perspective on inorganic photochemistry.Light-triggered NO release from a nanofibrous non-woven
P2860
Q33951477-3300C3FE-3817-45AB-8821-522C8C71492FQ34350725-FBEC1B8B-4CB2-46A2-BE11-666544C5BA32Q34778320-46224776-6DBD-44EF-BB36-9FC1D6CE6CCCQ35168694-2343822D-B384-4696-919F-B7F6E29DCEE9Q35547191-38527AA0-30BC-4B2C-AAE5-2B27B498C8BEQ36407459-E645A997-A717-428C-AB82-629F684DA70DQ36549488-DE1F5508-5EFA-4443-B4AA-0E0033DC5E6EQ36570458-8E85485C-9689-4A7D-9D26-23479F4684E6Q37387617-3B8B74CF-E855-448C-97DE-CA53F4BDFF35Q37855867-46EC520C-9B49-4E37-8804-D62FDDBF1490Q38115291-36CA0C9F-DC04-4679-9B52-7A2626EEEFFBQ38115293-0865D390-B39C-4DE0-9D46-7EFD83DF6B12Q38116861-B28E8679-F08B-4BBE-9196-9CD4FE0AA9F7Q38780945-92F4840D-2D39-4071-BA88-6E12F67F606DQ38844730-4C5FCEA5-D570-45C9-BD42-6DFAB5212C59Q39400764-D0AE4A4D-BC99-4985-BBFD-6EF87F2206ECQ39619012-27083438-9DD9-40F3-B7B9-E25839589976Q39998466-081D450D-124A-488C-8EBA-2F4F9D07C7FEQ40786041-C8C9F58B-5025-4623-B31C-09BBD17B13EFQ41230962-E846DC46-A1C6-443A-AAEC-866E26BE3570Q45994880-FF5A0BE5-8D91-44BA-B580-207AB6D94BE0Q46055748-62450CF5-B8CC-468A-B845-59E1A7D45FABQ46292853-2EEC4532-6787-44D4-8B85-3611D74A00DFQ46462745-5266E0DB-AB55-41E8-8458-5B46ADEC2F99Q46648852-BFA423D6-7A01-40D6-A904-DB002D776FE7Q46868127-1EF35E82-D514-4869-B1D5-334AACC1946DQ48093577-3B978899-2557-463D-997B-0913EBCF181BQ48690753-2F431CB7-63F5-4BF5-A9F8-715FBDF9D7FBQ50101564-5602B633-71F6-4725-8518-D4575DD93C5CQ50977928-63A31238-21A3-44CC-A004-91761418DDE1Q51332819-BC798B69-3161-492A-875A-2FA18EA2C69CQ53025293-A19F3D36-F02D-48FE-9C95-11A5BEC32FABQ53610441-E9A53B52-45CF-4E8C-B9FE-01880C168961Q53663306-D4153B2C-2C7C-421F-BE3C-40091DD2FF4FQ55642775-B00EA180-44C5-4A62-A79F-96F152EFB1DDQ58385182-FB22EF0F-6DD1-4A31-A37A-D9E2CBF263A6
P2860
Photoactive Ruthenium Nitrosyls: Effects of Light and Potential Application as NO Donors.
description
2008 nî lūn-bûn
@nan
2008 թուականի Հոկտեմբերին հրատարակուած գիտական յօդուած
@hyw
2008 թվականի հոտեմբերին 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
Photoactive Ruthenium Nitrosyls: Effects of Light and Potential Application as NO Donors.
@ast
Photoactive Ruthenium Nitrosyls: Effects of Light and Potential Application as NO Donors.
@en
Photoactive Ruthenium Nitrosyls: Effects of Light and Potential Application as NO Donors.
@nl
type
label
Photoactive Ruthenium Nitrosyls: Effects of Light and Potential Application as NO Donors.
@ast
Photoactive Ruthenium Nitrosyls: Effects of Light and Potential Application as NO Donors.
@en
Photoactive Ruthenium Nitrosyls: Effects of Light and Potential Application as NO Donors.
@nl
prefLabel
Photoactive Ruthenium Nitrosyls: Effects of Light and Potential Application as NO Donors.
@ast
Photoactive Ruthenium Nitrosyls: Effects of Light and Potential Application as NO Donors.
@en
Photoactive Ruthenium Nitrosyls: Effects of Light and Potential Application as NO Donors.
@nl
P2860
P1476
Photoactive Ruthenium Nitrosyls: Effects of Light and Potential Application as NO Donors.
@en
P2093
Michael J Rose
Pradip K Mascharak
P2860
P304
P356
10.1016/J.CCR.2007.11.011
P577
2008-10-01T00:00:00Z