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科研机构
湖南大学 [17]
内容类型
期刊论文 [17]
发表日期
2019 [4]
2018 [2]
2016 [2]
2014 [4]
2013 [1]
2010 [1]
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专题:湖南大学
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Engineering Self-Calibrating Nanoprobes with Two-Photon-Activated Fluorescence Resonance Energy Transfer for Ratiometric Imaging of Biological Selenocysteine
期刊论文
ACS Applied Materials & Interfaces, 2019, 卷号: Vol.11 No.19, 页码: 17722-17729
作者:
Zhang, DL
;
Hu, MM
;
Yuan, X
;
Wu, YX
;
Hu, XX
收藏
  |  
浏览/下载:16/0
  |  
提交时间:2019/12/13
Nanotechnology
selenocysteine
two-photon
FRET
ratiometric fluorescence
Engineering Self-Calibrating Nanoprobes with Two-Photon-Activated Fluorescence Resonance Energy Transfer for Ratiometric Imaging of Biological Selenocysteine
期刊论文
ACS Applied Materials & Interfaces, 2019, 卷号: Vol.11 No.19, 页码: 17722-17729
作者:
Dailiang Zhang
;
Miaomiao Hu
;
Xi Yuan
;
Yongxiang Wu
;
Xiaoxiao Hu
收藏
  |  
浏览/下载:9/0
  |  
提交时间:2019/12/17
FRET
Nanotechnology
ratiometric fluorescence
selenocysteine
two-photon
Engineering Self-Calibrating Nanoprobes with Two-Photon-Activated Fluorescence Resonance Energy Transfer for Ratiometric Imaging of Biological Selenocysteine.
期刊论文
ACS applied materials & interfaces, 2019
作者:
Dailiang Zhang
;
Miaomiao Hu
;
Xi Yuan
;
Yongxiang Wu
;
Xiaoxiao Hu
收藏
  |  
浏览/下载:11/0
  |  
提交时间:2019/12/17
FRET
Nanotechnology
ratiometric fluorescence
selenocysteine
two-photon
Development of a High-Throughput Cul3-Keap1 Time-Resolved Fluorescence Resonance Energy Transfer Assay for Identifying Nrf2 Activators
期刊论文
SLAS DISCOVERY: Advancing Life Sciences R&D, 2019, 卷号: Vol.24 No.2, 页码: 175-189
作者:
Derek D. Poore
;
Glenn Hofmann
;
Lawrence A. Wolfe III
;
Hongwei Qi
;
Ming Jiang
收藏
  |  
浏览/下载:5/0
  |  
提交时间:2019/12/13
high-throughput
screening
TR-FRET
assay
development
compound
screening
An effective signal amplifying strategy for copper sensing by using in situ fluorescent proteins as energy donor of FRET
期刊论文
Sensors and Actuators, B: Chemical, 2018, 卷号: Vol.259, 页码: 633-641
作者:
Zhang, Q.
;
Zhao, D.
;
Zhang, C.
;
Liu, J.
;
An, Z.
收藏
  |  
浏览/下载:2/0
  |  
提交时间:2019/12/26
Copper
cluster
Fluorescence
resonance
energy
transfer
Fluorescent
proteins
Reactive
sensors
Signal
amplifying
Urine
An effective signal amplifying strategy for copper (II) sensing by using in situ fluorescent proteins as energy donor of FRET
期刊论文
Sensors and Actuators B: Chemical, 2018, 卷号: Vol.259, 页码: 633-641
作者:
Zhang, QC
;
Zhao, DD
;
Zhang, CW
;
Liu, JH
;
An, ZF
收藏
  |  
浏览/下载:3/0
  |  
提交时间:2019/12/26
Fluorescence
resonance
energy
transfer
Fluorescent
proteins
Reactive
sensors
Copper
cluster
Signal
amplifying
Urine
Design and fabrication of fluorescence resonance energy transfer-mediated fluorescent polymer nanoparticles for ratiometric sensing of lysosomal pH
期刊论文
J Colloid Interface Sci, 2016, 卷号: Vol.484, 页码: 298-307
作者:
Chen, J
;
Tang, Y
;
Wang, H
;
Zhang, PS
;
Li, Y
收藏
  |  
浏览/下载:3/0
  |  
提交时间:2019/12/31
Polymer nanoparticle
FRET
Ratiometric
Lysosomal pH
Design and fabrication of fluorescence resonance energy transfer-mediated fluorescent polymer nanoparticles for ratiometric sensing of lysosomal pH
期刊论文
Journal of Colloid and Interface Science, 2016, 卷号: Vol.484, 页码: 298-307
作者:
Chen, J.
;
Tang, Y.
;
Wang, H.
;
Zhang, P.
;
Li, Y.
收藏
  |  
浏览/下载:1/0
  |  
提交时间:2019/12/31
FRET
Lysosomal
pH
Polymer
nanoparticle
Ratiometric
Fluorescence immunoassay of octachlorostyrene based on For̈rster resonance energy transfer between CdTe quantum dots and rhodamine B
期刊论文
Biosensors and Bioelectronics, 2014, 卷号: Vol.60, 页码: 52-56
作者:
Wang, X.
;
Sheng, P.
;
Zhou, L.
;
Tong, X.
;
Shi, L.
收藏
  |  
浏览/下载:2/0
  |  
提交时间:2019/12/31
CdTe
QDs
FRET
Immunoassay
Octachlorostyrene
Nanomaterial-based tools for protein kinase bioanalysis.
期刊论文
Trends in Analytical Chemistry, 2014, 卷号: Vol.58, 页码: 40-53
作者:
Liu, Xin
;
Li, Yong
;
Xu, Xiahong
;
Li, Pei
;
Nie, Zhou
收藏
  |  
浏览/下载:4/0
  |  
提交时间:2019/12/31
3,3′,5,5′-tetramethylbenzidine (TMB)
Adenosine-5′-diphosphate (ADP)
Adenosine-5′-triphosphate (ATP)
Carbonnanotube (CNT)
Carboxypeptidase Y (CPY)
Conjugated polymer nanoparticle (CPN)
Differential pulse voltammetry (DPV)
Electrochemiluminescence (ECL)
Fluorescein isothiocyanate (FITC)
Fluorescence resonance-energy transfer (FRET)
Gold nanoparticle (AuNP)
Gold nanorod (AuNR)
Graphene oxide (GO)
Graphene quantum dot (GQD)
Half-maximal inhibitory concentration (IC50)
Horseradish peroxidase (HRP)
Indium-tin oxide (ITO)
Isobutylmethylxanthine (IBMX)
Leukocyte-specific protein tyrosine kinase (LCK)
Magnetic nanoparticle (MNP)
Matrix-assisted laser desorption/ionization time-of-flight mass spectrometry (MALDI-TOF MS)
Multi-walled carbon nanotube (MWCNT)
Nanoparticle (NP)
Near infrared (NIR)
Poly(aspartic acid) (PAA)
Polyelectrolyte poly(ethyleneimine) (PEI)
Polyion-induced complex (PIC)
Poly[(9,9-bis(3′-N,N-bis(2″-carboxyethyl)amino)propyl)fluorenylene phenylene] (PFPaa)
Protein kinase A (PKA)
Protein kinase C (PKC)
Quantum dot (QD)
Quartz-crystal microbalance (QCM)
Resonance light scattering (RLS)
Ru(II) encapsulated phosphorylate-terminated silica nanoparticle (R-PSiNP)
Silver nanoparticle (AgNP)
Square wave voltammetry (SWV)
Src homology 2 (SH2)
Surface-enhanced Raman spectroscopy (SERS)
Surface-plasmon resonance (SPR)
Tetraethyl rhodamine isothiocyanate (TRITC)
Tetramethyl rhodamine (TAMRA)
TiO2-coated Fe3O4/SiO2 magnetic microsphere (TMSP)
Tris-(2.2′-bipyridyl) ruthenium (TBR)
Ultraviolet-visible (UV-vis)
Zr4+-functionalized mesoporous SiO2 microsphere (ZrMM)
Zr4+-immobilized nitrilotriacetic acid-coated magnetic nanoparticle (Zr-NTA MNP)
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