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Journal of Biomaterials and Nanobiotechnology

Journal of Biomaterials and Nanobiotechnology

Journal of Biomaterials and Nanobiotechnology

ISSN Print: 2158-7027
ISSN Online: 2158-7043
www.scirp.org/journal/jbnb
E-mail: jbnb@scirp.org
"Transparent Electrode Materials for Simultaneous Amperometric Detection of Exocytosis and Fluorescence Microscopy"
written by Kassandra Kisler, Brian N. Kim, Xin Liu, Khajak Berberian, Qinghua Fang, Cherian J. Mathai, Shubhra Gangopadhyay, Kevin D. Gillis, Manfred Lindau,
published by Journal of Biomaterials and Nanobiotechnology, Vol.3 No.2A, 2012
has been cited by the following article(s):
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[1] From FFN Dual Probe Screening to ITO Microdevice for Exocytosis Monitoring: Electrochemical and Fluorescence Requirements
, 2022
[2] High-Density Neurochemical Microelectrode Array to Monitor Neurotransmitter Secretion
2021
[3] On-Chip Cyclic Voltammetry Measurements Using a Compact 1024-Electrode CMOS IC
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[4] Quantifying neurotransmitter secretion at single-vesicle resolution using high-density complementary metal–oxide–semiconductor electrode array
2021
[5] Overview and outlook of the strategies devoted to electrofluorescence surveys: Application to single cell secretion analysis
2020
[6] Advanced real-time recordings of neuronal activity with tailored patch pipettes, diamond multi-electrode arrays and electrochromic voltage-sensitive dyes
2020
[7] Electrochemistry of Single-Vesicle Events
2020
[8] Étude de l'exocytose vésiculaire par détection couplée électrochimie-microsocopie de fluorescence
2020
[9] Microfabricated electrochemical sensing devices
2020
[10] Simultaneous monitoring of action potentials and neurotransmitter release from neuron-like PC12 cells
2020
[11] ELECTROCHEMICAL IMAGING OF EXOCYTOTIC FUSION EVENTS USING ELECTROCHEMICAL DETECTOR ARRAYS
Compendium of In Vivo Monitoring in Real-Time Molecular Neuroscience, 2019
[12] Recent development in amperometric measurements of vesicular exocytosis
2019
[13] This is an author version of the contribution published on
2019
[14] Surface Modified CMOS IC for Electrochemical Characterization of Living Cell Transmitter Release
2019
[15] Rapid 1024-Pixel Electrochemical Imaging at 10,000 Frames Per Second Using Monolithic CMOS Sensor and Multifunctional Data Acquisition System
2018
[16] Boron-Doped Diamond and Graphitic Multiarrays for Neurotransmitter Sensing
Label-Free Biosensing, 2018
[17] FEM-based design of optical transparent indium tin oxide multielectrode arrays for multiparametric, high sensitive cell based assays
Biosensors and Bioelectronics, 2018
[18] Electrodeposited Gold on Carbon-Fiber Microelectrodes for Enhancing Amperometric Detection of Dopamine Release from Pheochromocytoma Cells
Analytical Chemistry, 2018
[19] Clinical implications and electrochemical biosensing of monoamine neurotransmitters in body fluids, in vitro, in vivo, and ex vivo models
Biosensors and Bioelectronics, 2018
[20] Enhancing the Transparency of Highly Electroactive BNCD‐MEAs
physica status solidi (a), 2018
[21] Integrating electrochemical immunosensing and cell adhesion technologies for cancer cell detection and enumeration
Electrochimica Acta, 2018
[22] A matched-filter algorithm to detect amperometric spikes resulting from quantal secretion
Journal of Neuroscience Methods, 2018
[23] Vesicle impact electrochemical cytometry compared to amperometric exocytosis measurements
Current Opinion in Electrochemistry, 2017
[24] Electrotriggered Confined Self-assembly of Metal–Polyphenol Nanocoatings Using a Morphogenic Approach
Chemistry of Materials, 2017
[25] Electrochemical measurement of quantal exocytosis using microchips
Pflügers Archiv - European Journal of Physiology, 2017
[26] Surface-modified CMOS IC electrochemical sensor array targeting single chromaffin cells for highly parallel amperometry measurements
Pflügers Archiv - European Journal of Physiology, 2017
[27] A dual functional electroactive and fluorescent probe for coupled measurements of vesicular exocytosis with high spatial and temporal resolution
Angewandte Chemie, 2017
[28] All-carbon multi-electrode array for real-time in vitro measurements of oxidizable neurotransmitters
Scientific reports, 2016
[29] Diamond for neural interfacing: A review
Carbon, 2016
[30] Microelectrode arrays of diamond-insulated graphitic channels for real-time detection of exocytotic events from cultured chromaffin cells and slices of adrenal glands
Analytical Chemistry, 2016
[31] More transparency in bioanalysis of exocytosis: application of fluorescent false neurotransmitters in coupling methodology of electrochemistry with fluorescence …
Thesis, 2016
[32] Planar diamond-based multiarrays to monitor neurotransmitter release and action potential firing: new perspectives in cellular neuroscience
ACS Chemical Neuroscience, 2016
[33] Robust Functionalization of Large Microelectrode Arrays by Using Pulsed Potentiostatic Deposition
Sensors, 2016
[34] Realization of a diamond based high density multi electrode array by means of Deep Ion Beam Lithography
Nuclear Instruments and Methods in Physics Research Section B: Beam Interactions with Materials and Atoms, 2015
[35] Vesicular exocytosis and microdevices–microelectrode arrays
Analyst, 2015
[36] The definitive version is available at
2015
[37] 12 Recent Investigations of Single Living Cells with Ultramicroelectrodes
2015
[38] Nanoelectrochemistry
2015
[39] Applications biologiques du couplage de la microscopie de fluorescence et de l'électrochimie
2015
[40] Fully integrated CMOS microelectrode array for electrochemical measurements
2014
[41] Fully Integrated CMOS Microsystem for Electrochemical Measurements on 32× 32 Working Electrodes at 90 Frames Per Second
Analytical chemistry, 2014
[42] Heterogeneous distribution of exocytotic microdomains in adrenal chromaffin cells resolved by high‐density diamond ultramicroelectrode arrays
The Journal of physiology?, 2014
[43] Recent advances in Electrochemical Detection of Exocytosis
Electrochimica Acta, Elsevier, 2014
[44] 3D printed microfluidic devices with integrated versatile and reusable electrodes
Lab on a Chip, 2014
[45] Heterogeneous distribution of exocytotic microdomains in adrenal chromaffin cells resolved by high‐density diamond ultra‐microelectrode arrays
The Journal of physiology, 2014
[46] ETH Library
2014
[47] Microfabricated devices for direct measurements of quantal transmitter release from living cells
ProQuest Dissertations Publishing, 2013
[48] Integration of single-cell electropermeabilization together with electrochemical measurement of quantal exocytosis on microchips
2013
[49] Parallel recording of neurotransmitters release from chromaffin cells using a 10× 10 CMOS IC potentiostat array with on-chip working electrodes
Biosensors and Bioelectronics, Elsevier, 2013
[50] Parallel On-Chip Analysis of Single Vesicle Neurotransmitter Release
Analytical chemistry,ACS Publications, 2013
[51] Ultrafast detection and quantification of brain signaling molecules with carbon fiber microelectrodes
Analytical chemistry, 2012
[52] All-carbon multi-electrode array for real-time in vitromeasurements of oxidizable neurotransmitters
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