A dual-potential electrochemiluminescence ratiometric sensor for sensitive detection of dopamine based on graphene-CdTe quantum dots and self-enhanced Ru(II) complex.
暂无分享,去创建一个
[1] Hongyuan Chen,et al. Ratiometric fluorescence, electrochemiluminescence, and photoelectrochemical chemo/biosensing based on semiconductor quantum dots. , 2016, Nanoscale.
[2] Q. Wei,et al. Cubic Cu2O nanoframes with a unique edge-truncated structure and a good electrocatalytic activity for immunosensor application. , 2016, Biosensors & bioelectronics.
[3] Jing‐Juan Xu,et al. A ratiometric electrochemiluminescence detection for cancer cells using g-C3N4 nanosheets and Ag-PAMAM-luminol nanocomposites. , 2016, Biosensors & bioelectronics.
[4] H. Ju,et al. Ratiometric electrochemiluminescent strategy regulated by electrocatalysis of palladium nanocluster for immunosensing. , 2016, Biosensors & bioelectronics.
[5] H. Ju,et al. Silole-Containing Polymer Nanodot: An Aqueous Low-Potential Electrochemiluminescence Emitter for Biosensing. , 2016, Analytical chemistry.
[6] Y. Chai,et al. Sandwiched Electrochemiluminescent Peptide Biosensor for the Detection of Prognostic Indicator in Early-Stage Cancer Based on Hollow, Magnetic, and Self-Enhanced Nanosheets. , 2015, Small.
[7] Jianding Qiu,et al. A dual-potential electrochemiluminescence ratiometric approach based on graphene quantum dots and luminol for highly sensitive detection of protein kinase activity. , 2015, Chemical communications.
[8] Y. Chai,et al. Electrochemiluminescence Resonance Energy Transfer System: Mechanism and Application in Ratiometric Aptasensor for Lead Ion. , 2015, Analytical chemistry.
[9] Y. Chai,et al. An electrochemiluminescence biosensor for dopamine based on the recognition of fullerene-derivative and the quenching of cuprous oxide nanocrystals , 2015 .
[10] Y. Chai,et al. Signal-off Electrochemiluminescence Biosensor Based on Phi29 DNA Polymerase Mediated Strand Displacement Amplification for MicroRNA Detection. , 2015, Analytical chemistry.
[11] R. Yuan,et al. Electrochemiluminescence sensor for dopamine with a dual molecular recognition strategy based on graphite-like carbon nitride nanosheets/3,4,9,10-perylenetetracarboxylic acid hybrids , 2015 .
[12] A. Mukherjee,et al. Cu₂O Nanoparticles Anchored on Amine-Functionalized Graphite Nanosheet: A Potential Reusable Catalyst. , 2015, Langmuir : the ACS journal of surfaces and colloids.
[13] Q. Ma,et al. A novel signal-off electrochemiluminescence biosensor for the determination of glucose based on double nanoparticles. , 2015, Biosensors & bioelectronics.
[14] Wensheng Yang,et al. Electrogenerated chemiluminescence behavior of peptide nanovesicle and its application in sensing dopamine. , 2015, Biosensors & bioelectronics.
[15] Y. Chai,et al. Ultrasensitive electrochemiluminescent detection of cardiac troponin I based on a self-enhanced Ru(II) complex. , 2014, Talanta.
[16] Hongyuan Chen,et al. A highly sensitive ratiometric electrochemiluminescent biosensor for microRNA detection based on cyclic enzyme amplification and resonance energy transfer. , 2014, Chemical communications.
[17] Ruo Yuan,et al. A super intramolecular self-enhanced electrochemiluminescence immunosensor based on polymer chains grafted on palladium nanocages. , 2014, Nanoscale.
[18] H. Ju,et al. Design and biosensing of Mg²⁺-dependent DNAzyme-triggered ratiometric electrochemiluminescence. , 2014, Analytical chemistry.
[19] Hongyuan Chen,et al. Signal-on dual-potential electrochemiluminescence based on luminol-gold bifunctional nanoparticles for telomerase detection. , 2014, Analytical chemistry.
[20] Jianrong Chen,et al. Facile synthesis of monodisperse porous Cu2O nanospheres on reduced graphene oxide for non-enzymatic amperometric glucose sensing , 2014 .
[21] H. Ju,et al. Stepwise chemical reaction strategy for highly sensitive electrochemiluminescent detection of dopamine. , 2013, Analytical chemistry.
[22] Jing‐Juan Xu,et al. Electrochemiluminescence ratiometry: a new approach to DNA biosensing. , 2013, Analytical chemistry.
[23] Ping Yu,et al. A non-oxidative electrochemical approach to online measurements of dopamine release through laccase-catalyzed oxidation and intramolecular cyclization of dopamine. , 2010, Biosensors & bioelectronics.
[24] Min Xu,et al. Facile synthesis and application of highly luminescent CdTe quantum dots with an electrogenerated precursor. , 2008, Chemical communications.
[25] Yong Wang,et al. One‐Pot Synthesis and Hierarchical Assembly of Hollow Cu2O Microspheres with Nanocrystals‐Composed Porous Multishell and Their Gas‐Sensing Properties , 2007 .
[26] Fu Chen,et al. Simultaneous Determination of Epinephrine, Noradrenaline and Dopamine in Human Serum Samples by High Performance Liquid Chromatography with Chemiluminescence Detection , 2007 .
[27] E. Wang,et al. One-pot synthesis of CdTe nanocrystals and shape control of luminescent CdTe-cystine nanocomposites. , 2006, Small.
[28] Qing Peng,et al. Nearly Monodisperse Cu2O and CuO Nanospheres: Preparation and Applications for Sensitive Gas Sensors , 2006 .
[29] C. Murphy,et al. Controlling the size of Cu2O nanocubes from 200 to 25 nm , 2004 .
[30] D. Langer,et al. Electronic Core Levels of theIIB−VIACompounds , 1971 .