A new trend in rhodamine-based chemosensors: application of spirolactam ring-opening to sensing ions.
about
Mapping of heavy metal ion sorption to cell-extracellular polymeric substance-mineral aggregates by using metal-selective fluorescent probes and confocal laser scanning microscopy5-Arylvinyl-2,2'-bipyridyls: Bright "push-pull" dyes as components in fluorescent indicators for zinc ions.In situ imaging of metals in cells and tissuesThe Mechanisms and Biomedical Applications of an NIR BODIPY-Based Switchable Fluorescent Probe.Discrimination of fluorescence light-up effects induced by pH and metal ion chelation on a spirocyclic derivative of rhodamine B.Three colorimetric and off-on fluorescent chemosensors for Fe3+ in aqueous media.Ratiometric sensing of fluoride and acetate anions based on a BODIPY-azaindole platform and its application to living cell imaging.Rhodamine based dual probes for selective detection of mercury and fluoride ions in water using two mutually independent sensing pathways.Two new rhodamine-based fluorescent chemosensors for Fe3+ in aqueous solution.Highly sensitive and selective colorimetric and off-on fluorescent reversible chemosensors for Al³⁺ based on the rhodamine fluorophore.AIEgens for dark through-bond energy transfer: design, synthesis, theoretical study and application in ratiometric Hg2+ sensingA rhodamine-based off-on fluorescent chemosensor for selectively sensing Cu(II) in aqueous solution.Rhodamine hydrazone derivatives as Hg2+ selective fluorescent and colorimetric chemosensors and their applications to bioimaging and microfluidic system.Rhodamine-based probes for metal ion-induced chromo-/fluorogenic dual signaling and their selectivity towards Hg(II) ion.Investigating rhodamine B-labeled peptoids: scopes and limitations of its applications.Ratiometric and intensity-based zinc sensors built on rhodol and rhodamine platforms.Visible-near-infrared and fluorescent copper sensors based on julolidine conjugates: selective detection and fluorescence imaging in living cells.Small-molecule labeling of live cell surfaces for three-dimensional super-resolution microscopyDirect observation of aluminium ions produced via pulsed laser ablation in liquid: a 'turn-on' fluorescence study.Turn-on fluorescent chemosensor for Zn(II) via ring opening of rhodamine spirolactam and their live cell imaging.Cell permeable fluorescent receptor for detection of H2PO4(-) in aqueous solvent.Development of fluorescent probes for bioimaging applicationsSynthesis of a Cu²⁺-selective probe derived from rhodamine and its application in cell imaging.Spiroguanidine rhodamines as fluorogenic probes for lysophosphatidic acid.One single molecule as a multifunctional fluorescent probe for ratiometric sensing of Fe3+, Cr3+ and colorimetric sensing of Cu2+.Ultrasensitive, rapid, and selective detection of mercury using graphene assisted laser desorption/ionization mass spectrometry.Small molecule-based ratiometric fluorescence probes for cations, anions, and biomoleculesEffects of single and double bonds in linkers on colorimetric and fluorescent sensing properties of polyving akohol grafting rhodamine hydrazides.Coumarin-decorated Schiff base hydrolysis as an efficient driving force for the fluorescence detection of water in organic solvents.Tricolor emission of a fluorescent heteroditopic ligand over a concentration gradient of zinc(II) ions.A Unique Sensitive and Highly Selective Fluorescent Naphthodiaza-Crown Macrocyclic Ligand Chemosensor for Hg2+ in Water.Rational molecular design enhancing the photonic performance of red-emitting perylene bisimide dyes.Nickel-Catalyzed Arylation of Heteroaryl-containing Diarylmethanes: Exceptional Reactivity of the Ni(NIXANTPHOS)-based Catalyst.Molecular imaging of labile iron(II) pools in living cells with a turn-on fluorescent probe.Recent Advances in Silicon Nanomaterial-Based Fluorescent Sensors.Fluorescent and luminescent probes for detection of reactive oxygen and nitrogen species.Steroid/triterpenoid functional molecules based on "click chemistry".Spectroscopic probes with changeable π-conjugated systems.Reaction-based small-molecule fluorescent probes for chemoselective bioimagingNear-infrared phosphorescence: materials and applications.
P2860
Q27009983-DAF32D47-F317-482D-A948-AA0502E9BFA1Q27309122-72BC6EF5-9FF0-4FA0-A269-5CF31AF34F47Q28662002-80EBF352-5863-49F7-ADD9-D97278DC268FQ30360893-7992ACF0-640B-4B8D-BEC5-3D88D630FE4DQ30585135-57228EF6-C873-495F-8B91-227A6E534B83Q30596696-3C57E8CA-48D9-4738-8001-A811DC179B33Q30698017-AC1F03B0-08F0-42A2-AF9E-D74307BF69AFQ30785748-E15CDB71-0BC5-443A-AA5E-381CE33AA6CBQ30793583-DE682786-2E56-4856-A589-7E3B4FB74BBCQ30937779-6477995A-24A1-4833-95B3-B7A3A2786DEBQ33583752-C4BA6F58-346F-40A9-B250-CE1F9C9AEA65Q33636481-4489CF69-E5DE-46E1-8B84-EFA27AF477D1Q33794926-6ACF38D0-6D1A-468A-A66E-958D722919A5Q33876552-6A76DCF0-E5E7-4225-86A1-700A1B010CBBQ34105320-931ADD70-560C-422E-8A7F-D0B9508DF077Q34205900-14238338-A3A5-47DB-962E-C1FDC545A38FQ34212398-973E8768-0A49-4DB9-ABE2-8D6E7048E95CQ34330655-4BD745B2-4D9E-46B8-BDA9-544D5B17F16DQ34453584-802E5460-E15D-4CF8-9418-3F642FC9F026Q34462537-B7500F88-05DD-4898-A048-B0AF0048CA44Q34560177-E72E78BB-77DA-4BBB-9415-F1C261B6CE3FQ34567951-AC377547-A16D-4645-8235-6D82AD4CF344Q34786938-7059FFB6-DF0D-4C7F-9CC0-E91C4C03CC6FQ35061819-D043CC25-36C0-47D6-93F2-8FD23D01E815Q35080803-0E51D0DE-623E-4318-83E6-30310A548A3FQ35109760-9617AF13-EFB3-4F99-8896-6D342C83E5EDQ35287935-1CD8AAED-8044-4D39-81FF-EA435DB4B1C3Q35570232-6C630976-A74F-4EB6-AE33-6AFF70D66730Q36059084-942EBB66-3B99-4376-9EC5-5FC8BA549AD7Q36280205-BECE4049-BDBB-4148-994B-FB2DF991627BQ36353022-339C4AA8-F165-4537-AF09-49E96BF61DECQ36368592-7B36BD48-4863-4C3B-8AD3-F9F47F55B00DQ36908251-F3A6B699-8C3A-424C-B14C-DF34CC21C678Q37336347-AC9C488D-E17E-4F92-9B7E-DED5A6FA1D74Q37679416-C475415A-C0B3-4E12-AB08-4ACA081FBC42Q37883132-8A301FCA-94E0-4CBC-BBF4-A146600C2C63Q37925686-19879B97-6D55-413C-9796-F5F42F0E9B14Q38025840-6EAED5CE-7392-4AEB-955C-F7974B9EA319Q38061840-2207C648-6836-4A46-917B-9AADA99DD00BQ38104999-9681ED88-F91A-418B-9306-AA1432ABCCE5
P2860
A new trend in rhodamine-based chemosensors: application of spirolactam ring-opening to sensing ions.
description
article científic
@ca
article scientifique
@fr
articolo scientifico
@it
artigo científico
@pt
bilimsel makale
@tr
scientific article published on 23 June 2008
@en
vedecký článok
@sk
vetenskaplig artikel
@sv
videnskabelig artikel
@da
vědecký článek
@cs
name
A new trend in rhodamine-based ...... ring-opening to sensing ions.
@en
A new trend in rhodamine-based ...... ring-opening to sensing ions.
@nl
type
label
A new trend in rhodamine-based ...... ring-opening to sensing ions.
@en
A new trend in rhodamine-based ...... ring-opening to sensing ions.
@nl
prefLabel
A new trend in rhodamine-based ...... ring-opening to sensing ions.
@en
A new trend in rhodamine-based ...... ring-opening to sensing ions.
@nl
P2093
P356
P1476
A new trend in rhodamine-based ...... ring-opening to sensing ions.
@en
P2093
Hyun Jung Kim
Jong Seung Kim
Juyoung Yoon
Min Hee Lee
P304
P356
10.1039/B802497A
P577
2008-06-23T00:00:00Z