methane and methyl parathion

methane has been researched along with methyl parathion in 12 studies

Research

Studies (12)

TimeframeStudies, this research(%)All Research%
pre-19900 (0.00)18.7374
1990's0 (0.00)18.2507
2000's1 (8.33)29.6817
2010's9 (75.00)24.3611
2020's2 (16.67)2.80

Authors

AuthorsStudies
Radecka, H; Radecki, J; Viswanathan, S1
Chen, W; Du, D; Li, H; Lin, Y; Liu, D; Zhang, W1
Shi, G; Yu, D; Yu, Y; Zeng, Y; Zhou, T1
Kajiura, H; Li, Y; Shi, G; Yang, Q; Yu, D; Zhang, D; Zhao, W; Zhou, T1
Liu, Y; Niu, W; Yang, S1
Bao, J; Chen, J; Chen, W; Dong, Q; Galil, KHAE; Hou, C; Huo, D; Lei, Y; Ma, X; Yang, M1
He, XJ; Ma, LY; Miao, SS; Wu, MS; Yang, H1
Chen, SM; Chen, TW; Govindasamy, M; Mani, V; Sundramoorthy, AK1
Du, F; Fung, YS1
Kumar, THV; Sundramoorthy, AK1
Hong, L; Liu, K; Pan, M; Wang, S; Wang, Z; Xie, X; Yang, J1
Gissawong, N; Mukdasai, K; Mukdasai, S; Nanan, S; Srijaranai, S; Teshima, N; Uppachai, P1

Other Studies

12 other study(ies) available for methane and methyl parathion

ArticleYear
Electrochemical biosensor for pesticides based on acetylcholinesterase immobilized on polyaniline deposited on vertically assembled carbon nanotubes wrapped with ssDNA.
    Biosensors & bioelectronics, 2009, May-15, Volume: 24, Issue:9

    Topics: Acetylcholinesterase; Aniline Compounds; Biosensing Techniques; Calibration; Chlorpyrifos; DNA, Single-Stranded; Electrochemistry; Enzyme Inhibitors; Enzymes, Immobilized; Methyl Parathion; Microscopy, Atomic Force; Nanotubes, Carbon

2009
Covalent coupling of organophosphorus hydrolase loaded quantum dots to carbon nanotube/Au nanocomposite for enhanced detection of methyl parathion.
    Biosensors & bioelectronics, 2010, Feb-15, Volume: 25, Issue:6

    Topics: Biosensing Techniques; Electrochemistry; Electrodes; Enzymes, Immobilized; Equipment Design; Equipment Failure Analysis; Gold; Methyl Parathion; Nanotubes, Carbon; Phosphoric Monoester Hydrolases; Quantum Dots; Reproducibility of Results; Sensitivity and Specificity

2010
Differential pulse voltammetric determination of methyl parathion based on multiwalled carbon nanotubes-poly(acrylamide) nanocomposite film modified electrode.
    Journal of hazardous materials, 2012, May-30, Volume: 217-218

    Topics: Electrochemical Techniques; Electrodes; Methyl Parathion; Microscopy, Electron, Scanning; Nanotubes, Carbon; Spectroscopy, Fourier Transform Infrared; Thermogravimetry

2012
A molecularly imprinted polymer based on functionalized multiwalled carbon nanotubes for the electrochemical detection of parathion-methyl.
    The Analyst, 2012, Jun-07, Volume: 137, Issue:11

    Topics: Adsorption; Electrochemical Techniques; Electrodes; Hydrogen Bonding; Methyl Parathion; Molecular Imprinting; Nanotubes, Carbon; Polymers

2012
Simple, rapid and green one-step strategy to synthesis of graphene/carbon nanotubes/chitosan hybrid as solid-phase extraction for square-wave voltammetric detection of methyl parathion.
    Colloids and surfaces. B, Biointerfaces, 2013, Aug-01, Volume: 108

    Topics: Adsorption; Calibration; Chitosan; Electrodes; Electroplating; Graphite; Green Chemistry Technology; Insecticides; Limit of Detection; Methyl Parathion; Nanotubes, Carbon; Reproducibility of Results; Solid Phase Extraction

2013
ELP-OPH/BSA/TiO2 nanofibers/c-MWCNTs based biosensor for sensitive and selective determination of p-nitrophenyl substituted organophosphate pesticides in aqueous system.
    Biosensors & bioelectronics, 2016, Nov-15, Volume: 85

    Topics: Animals; Biosensing Techniques; Cattle; Elastin; Electrochemical Techniques; Escherichia coli; Gene Expression; Genetic Engineering; Lakes; Methyl Parathion; Nanofibers; Nanotubes, Carbon; Organophosphates; Parathion; Peptides; Pesticides; Phosphoric Monoester Hydrolases; Serum Albumin, Bovine; Titanium; Water Pollutants, Chemical

2016
Electrochemiluminescence biosensor for determination of organophosphorous pesticides based on bimetallic Pt-Au/multi-walled carbon nanotubes modified electrode.
    Talanta, 2016, Sep-01, Volume: 158

    Topics: Acetylcholinesterase; Alcohol Oxidoreductases; Benzothiazoles; Biosensing Techniques; Brassica; Chlorpyrifos; Cholinesterase Inhibitors; Electrochemical Techniques; Electrodes; Enzymes, Immobilized; Gold; Hydrogen Peroxide; Malathion; Methyl Parathion; Nanotubes, Carbon; Pesticides; Platinum

2016
Methyl parathion detection in vegetables and fruits using silver@graphene nanoribbons nanocomposite modified screen printed electrode.
    Scientific reports, 2017, 04-20, Volume: 7

    Topics: Biosensing Techniques; Fruit; Methyl Parathion; Nanocomposites; Nanotubes, Carbon; Vegetables

2017
Dual-opposite multi-walled carbon nanotube modified carbon fiber microelectrode for microfluidic chip-capillary electrophoresis determination of methyl parathion metabolites in human urine.
    Electrophoresis, 2018, Volume: 39, Issue:11

    Topics: Electrophoresis, Capillary; Humans; Methyl Parathion; Microelectrodes; Microfluidics; Nanotubes, Carbon

2018
Electrochemical biosensor for methyl parathion based on single-walled carbon nanotube/glutaraldehyde crosslinked acetylcholinesterase-wrapped bovine serum albumin nanocomposites.
    Analytica chimica acta, 2019, Oct-03, Volume: 1074

    Topics: Acetylcholinesterase; Animals; Biosensing Techniques; Carbon; Cattle; Cross-Linking Reagents; Electrochemical Techniques; Electrodes; Electrophorus; Enzymes, Immobilized; Food Contamination; Fragaria; Glutaral; Insecticides; Limit of Detection; Malus; Methyl Parathion; Nanocomposites; Nanotubes, Carbon; Reproducibility of Results; Serum Albumin, Bovine

2019
Electrochemical sensing platform for the detection of methyl parathion applying highly biocompatible non-covalent functionalized phosphonium-based ionic liquid@MWCNTs hybrid to immobilize hemoglobin.
    Biosensors & bioelectronics, 2022, Feb-01, Volume: 197

    Topics: Biosensing Techniques; Electrochemical Techniques; Hemoglobins; Ionic Liquids; Methyl Parathion; Nanotubes, Carbon; Reproducibility of Results

2022
Electrochemical detection of methyl parathion using calix[6]arene/bismuth ferrite/multiwall carbon nanotube-modified fluorine-doped tin oxide electrode.
    Mikrochimica acta, 2022, 11-23, Volume: 189, Issue:12

    Topics: Biosensing Techniques; Bismuth; Electrochemical Techniques; Electrodes; Fluorides; Fluorine; Methyl Parathion; Nanotubes, Carbon

2022