Rational design of a fluorescence-turn-on sensor array for phosphates in blood serum.
about
Artificial receptors for the recognition of phosphorylated moleculesLanthanide(III) complexes of bis-semicarbazone and bis-imine-substituted phenanthroline ligands: solid-state structures, photophysical properties, and anion sensing.Encapsulation of [X2(H2O)4]2- (X = F/Cl) clusters by pyridyl terminated tripodal amide receptor in aqueous medium: single crystal X-ray structural evidence.A reversible fluorescent-colorimetric imino-pyridyl bis-Schiff base sensor for expeditious detection of Al(3+) and HSO3(-) in aqueous media.Bis-amidopyrrolyl Receptors Based on Anthracene and Carbazole.A ligation-triggered DNAzyme cascade for amplified fluorescence detection of biological small molecules with zero-background signalTri- and pentacalix[4]pyrroles: synthesis, characterization and their use in the extraction of halide salts.A library-screening approach for developing a fluorescence sensing array for the detection of metal ions.Anion receptor chemistry: highlights from 2007.Fluorescent and colorimetric chemosensors for detection of nucleotides, FAD and NADH: highlighted research during 2004-2010.Polymers for anion recognition and sensing.An indirect approach for anion detection: the displacement strategy and its application.A supramolecular sensing platform for phosphate anions and an anthrax biomarker in a microfluidic device.A polyion complex sensor array for markerless and noninvasive identification of differentiated mesenchymal stem cells from human adipose tissue.AIE-doped poly(ionic liquid) photonic spheres: a single sphere-based customizable sensing platform for the discrimination of multi-analytes.Water-soluble triarylboron compound for ATP imaging in vivo using analyte-induced finite aggregation.An off-the-shelf sensing system for physiological phosphates.Nano-conjugate fluorescence probe for the discrimination of phosphate and pyrophosphate.Catching anions with coloured assemblies: binding of pH indicators by a giant-size polyammonium macrocycle for anion naked-eye recognition.Conjunction of Pyrrole and Amide Moieties: Highly Anion-Responsive π-Electronic Molecules Forming Ion-Free and Ion-Pairing Assemblies.Naphthalimide-Based Polyammonium Chemosensors for Anions: Study of Binding Properties and Sensing Mechanisms.A metal-free fluorescence turn-on molecular probe for detection of nucleoside triphosphates.A new ditopic ratiometric receptor for detecting zinc and fluoride ions in living cells.A Novel Cr(3+) Fluorescence Turn-On Probe Based on Rhodamine and Isatin Framework.A novel dual-switch fluorescent probe for Cr(III) ion based on PET-FRET processes.Leveraging material properties in fluorescence anion sensor arrays: a general approach.A rapid and efficient way to dynamic creation of cross-reactive sensor arrays based on ionic liquids.Medication Detection by a Combinatorial Fluorescent Molecular Sensor
P2860
Q27001011-1C167762-9E2A-472A-9B16-4C90F42DFD6DQ30577433-99FEDAF9-1512-4967-880F-77A0488714A4Q30702500-17E1E138-2379-42CD-A3DB-AA3517B074FBQ30977694-E94F0C2F-191C-486C-A8E6-AF6884E7F565Q33639462-B0C619C4-94A5-405B-AC72-55B3FC2FD85CQ33908500-74700097-24A1-4E3B-94B9-B7982523223CQ34124700-40643ECE-F385-44CE-BE7A-AB30306825A8Q36049673-142D97C0-247F-437F-8F56-72D615738794Q37377559-C200E836-87A4-4573-9F2B-1159A6CA9C80Q37845144-CBE3C026-4A2E-4D44-A63D-2BF2D620E631Q37950959-F1A7DCFF-0DEA-4FE6-AAD4-793F88B0230EQ38025229-BEB6BB2D-42A9-45B0-A18F-A2316E8CEBA4Q39674616-04096DBD-FC7F-423B-9120-5C453B0812E9Q41825306-DE4C5A88-F541-4989-A3D8-9A7C36399541Q42279076-A84E07B9-E394-42BA-9B72-5DBACE2C2625Q42801482-4DDA0A83-51AF-4AB9-B643-B9DDE9DFA42CQ45895911-D4527F02-1AEC-4F66-9914-446424EE676FQ46227713-A76CC893-2980-437B-8977-8A7A779F348BQ47281129-E44C0A4D-3177-48A6-98CB-B02AB00B6AE5Q48002627-AAC0DC40-4C08-4542-BF4A-564A17B74FA6Q48144337-EAA917F9-8C54-4217-9D2C-DFA1C3DA221BQ48180611-BC919992-C6CE-49AC-B0EF-F3FCD1E3C7E1Q50230707-C2075891-0118-42FC-AAE1-F10D333B60E5Q50283408-6619907D-1B0C-406D-9A55-B1725BCE03DAQ50455615-B5F4A681-2598-4D73-8779-95725A2EB502Q50480551-54FD02F2-ACB1-40DB-891A-BDC60CC5434AQ51796472-56DB42DD-2E8D-43F0-94D0-21F87F2D7F42Q56958648-5BDA7BBD-50E3-4048-9EF3-A643E0E1E667
P2860
Rational design of a fluorescence-turn-on sensor array for phosphates in blood serum.
description
2007 nî lūn-bûn
@nan
2007年の論文
@ja
2007年学术文章
@wuu
2007年学术文章
@zh
2007年学术文章
@zh-cn
2007年学术文章
@zh-hans
2007年学术文章
@zh-my
2007年学术文章
@zh-sg
2007年學術文章
@yue
2007年學術文章
@zh-hant
name
Rational design of a fluorescence-turn-on sensor array for phosphates in blood serum.
@en
Rational design of a fluorescence-turn-on sensor array for phosphates in blood serum.
@nl
type
label
Rational design of a fluorescence-turn-on sensor array for phosphates in blood serum.
@en
Rational design of a fluorescence-turn-on sensor array for phosphates in blood serum.
@nl
prefLabel
Rational design of a fluorescence-turn-on sensor array for phosphates in blood serum.
@en
Rational design of a fluorescence-turn-on sensor array for phosphates in blood serum.
@nl
P356
P1476
Rational design of a fluorescence-turn-on sensor array for phosphates in blood serum.
@en
P2093
Grigory V Zyryanov
P304
P356
10.1002/ANIE.200702611
P407
P577
2007-01-01T00:00:00Z