Page last updated: 2024-08-18

melamine and silver

melamine has been researched along with silver in 60 studies

Research

Studies (60)

TimeframeStudies, this research(%)All Research%
pre-19900 (0.00)18.7374
1990's0 (0.00)18.2507
2000's1 (1.67)29.6817
2010's47 (78.33)24.3611
2020's12 (20.00)2.80

Authors

AuthorsStudies
Beton, PH; Champness, NR; Fontes, GN; Goretzki, G; Perdigão, LM; Phillips, AG; Saywell, A; Staniec, PA1
Han, C; Li, H1
Jiang, Z; Liang, A; Zhou, L1
Cheng, J; Su, XO1
Qu, S; Tang, A; Wang, Z; Zhang, J; Zhang, L1
Chen, LM; Liu, YN1
Cai, Y; Ma, Y; Niu, H; Zhang, X1
Chatterjee, S; Nandi, AK1
Guo, J; Hu, J; Li, JM; Ma, WF; Wang, CC; Wei, C; You, LJ1
White, IM; Yu, WW1
Abell, J; Chen, J; Huang, YW; Zhao, Y1
White, IM; Yazdi, SH1
Dong, YM; Jiao, HJ; Li, ZJ; Wang, GL; Wu, XM; Zhu, XY1
Du, C; Fei, J; Gao, L; Li, J; Zhao, J1
Chen, X; Gao, J; Hu, Y; Li, S; Zhang, Y1
Man, SQ; Tang, JQ; Tian, C; Zeng, CY1
Chen, Y; Cheng, H; Huan, S; Kanda, P; Luo, W; Wang, S; Zhao, Y1
Liao, JD; Liu, BH; Sivashanmugan, K; Yao, CK1
Han, K; Miao, P; Sun, H; Tang, Y; Wang, B; Yin, J; Zhao, J1
Dong, PT; Wang, CG; Wang, JF; Wu, XZ; Xiao, R1
Chang, M; Chen, D; Ci, L; Wang, H; Yu, L1
Lee, CK; Lee, HK; Li, X; Ling, XY; Phang, IY1
Chen, L; Liu, X; Qiu, G; Wu, M; Xiao, C; Yu, Y1
Chen, F; Huang, J; Ma, D; Xu, K; Zhan, Y; Zhang, Q; Zhao, Y1
Lu, L; Sun, Q; Wang, F; Wang, Y; Xu, Z; Yu, H; Zhang, J; Zhang, W; Zhu, L1
Ding, R; Joshi, P; Zhang, P; Zhou, Y1
Feng, S; Hu, Y; Li, X; Lu, X; Sheng, W; Wang, S; Yuan, S; Zeng, H; Zhang, Y1
Hu, J; Li, J; Shen, A; Wang, L; Zhang, G1
Kumar, H; Kumar, N; Mann, B; Seth, R1
He, X; Huang, H; Jiang, X; Li, J; Qin, H; Wang, K; Xiao, Y; Zhang, Y; Zhu, X1
Hu, Y; Lu, X1
Li, M; Yao, Z; Zhao, Y; Zhu, W; Zhuang, H1
Liu, X; Luo, J; Tang, D; Xu, S; Zhang, R; Zhao, W; Zhu, Y1
Chen, X; Chu, C; Ge, S; Lin, H; Liu, G; Zhang, J1
Dong, X; Guo, J; Li, R; Wang, C; Wang, F; You, L1
Cao, Q; Che, R; Delaunay, JJ; Yu, J; Yuan, K1
Chai, YF; Chen, H; Li, D; Li, H; Lu, F; Lv, DY; Wu, MM; Zhu, QX1
Gorthi, SS; Kiruba Daniel, SCG; Varun, S1
Ahmed, S; Alam, MF; Laskar, AA; Shaida, MA; Younus, H1
Li, NB; Ling, Y; Liu, SG; Luo, HQ; Mo, S; Tang, L; Zhang, XF1
Dies, H; Docoslis, A; Escobedo, C; Siampani, M1
Rajput, JK1
Jiang, Z; Li, W; Shi, J; Tian, Y; Wu, Y; Zhao, Y1
Gao, Y; Jiang, L; Yang, N; Yin, P; You, T; Zhang, C1
Hwang, SH; Jeong, S; Kim, Y; Kwon, WY; Lee, M; Park, KS; Shin, J1
Li, L; Li, Y; Li, Z; Wang, T1
He, X; Li, L; Xiao, G; Yan, A1
Chen, QY; Huang, PZ; Mu, WY; Wang, W1
Dorraj, M; Ghoreyshi Kahangi, F; Heravi, MM; Sadjadi, S1
Kannegulla, A; Kong, X; Liu, S; Liu, Y; Sun, R; Wang, AX; Wang, R; Yu, Q1
Ahn, JO; Eun, H; Kalimuthu, K; Kim, HJ; Kim, Y; Kwon, WY; Lee, H; Lee, M; Lee, SH; Park, HG; Park, KS1
Docoslis, A; Raveendran, J1
Li, S; Wan, Y; Wang, H; Yin, M; Zhang, W; Zhang, Y; Zhao, X1
Ge, K; Hu, Y; Jiang, P; Li, G; Zheng, Y1
Basu, S; Dureja, S; Pattanayek, SK; Singh, A; Tiwari, M1
Chen, T; Chen, Y; Fu, X; Gao, Z; Hu, Z; Liu, Z; Su, B; Wan, H; Zhang, K1
Choengchan, N; Duangdeewong, C; Teerasong, S; Wattanasin, P1
Chen, C; Jiang, L; Li, Z; Liu, Y; Wang, H; Wu, Y; Zhou, Q1
Chu, Y; Han, L; Han, Y; He, Q; Qiu, J; Zhang, Y1
Arkin, K; Bei, Y; Che, W; Hao, J; Ma, X; Shang, Q; Zheng, Y1

Other Studies

60 other study(ies) available for melamine and silver

ArticleYear
Functionalized supramolecular nanoporous arrays for surface templating.
    Chemistry (Weinheim an der Bergstrasse, Germany), 2008, Volume: 14, Issue:25

    Topics: Macromolecular Substances; Molecular Structure; Nanostructures; Particle Size; Perylene; Porosity; Silicon; Silver; Surface Properties; Temperature; Triazines

2008
Visual detection of melamine in infant formula at 0.1 ppm level based on silver nanoparticles.
    The Analyst, 2010, Volume: 135, Issue:3

    Topics: Aniline Compounds; Colorimetry; Humans; Infant; Infant Formula; Limit of Detection; Metal Nanoparticles; Silver; Spectrophotometry, Ultraviolet; Time Factors; Triazines

2010
Resonance scattering detection of trace melamine using aptamer-modified nanosilver probe as catalyst without separation of its aggregations.
    Chemical communications (Cambridge, England), 2011, Mar-21, Volume: 47, Issue:11

    Topics: Aptamers, Nucleotide; Catalysis; Metal Nanoparticles; Silver; Spectrophotometry, Ultraviolet; Triazines

2011
[Rapid determination of melamine in pet food by surface enhanced Raman spectroscopy in combination with Ag nanoparticles].
    Guang pu xue yu guang pu fen xi = Guang pu, 2011, Volume: 31, Issue:1

    Topics: Animal Feed; Food Contamination; Nanoparticles; Silver; Spectrum Analysis, Raman; Triazines

2011
Quantitative surface enhanced Raman scattering detection based on the "sandwich" structure substrate.
    Spectrochimica acta. Part A, Molecular and biomolecular spectroscopy, 2011, Volume: 79, Issue:3

    Topics: Limit of Detection; Nanostructures; Rhodamines; Silver; Spectrum Analysis, Raman; Triazines

2011
Surface-enhanced Raman detection of melamine on silver-nanoparticle-decorated silver/carbon nanospheres: effect of metal ions.
    ACS applied materials & interfaces, 2011, Volume: 3, Issue:8

    Topics: Carbon; Ions; Nanoparticles; Particle Size; Silver; Spectrum Analysis, Raman; Triazines

2011
One-step synthesis of silver/dopamine nanoparticles and visual detection of melamine in raw milk.
    The Analyst, 2011, Oct-21, Volume: 136, Issue:20

    Topics: Animals; Cattle; Colorimetry; Dopamine; Metal Nanoparticles; Milk; Silver; Triazines

2011
Tuning of the morphology of a riboflavin-melamine equimolar supramolecular assembly by in situ silver nanoparticle formation.
    Chemical communications (Cambridge, England), 2011, Nov-07, Volume: 47, Issue:41

    Topics: Luminescence; Metal Nanoparticles; Microscopy, Electron, Scanning; Oxidation-Reduction; Resins, Synthetic; Riboflavin; Silver; Triazines

2011
Detecting trace melamine in solution by SERS using Ag nanoparticle coated poly(styrene-co-acrylic acid) nanospheres as novel active substrates.
    Langmuir : the ACS journal of surfaces and colloids, 2011, Dec-06, Volume: 27, Issue:23

    Topics: Acrylates; Metal Nanoparticles; Particle Size; Polystyrenes; Silver; Solutions; Spectrum Analysis, Raman; Surface Properties; Triazines

2011
A simple filter-based approach to surface enhanced Raman spectroscopy for trace chemical detection.
    The Analyst, 2012, Mar-07, Volume: 137, Issue:5

    Topics: Colloids; Filtration; Lasers; Limit of Detection; Malathion; Rhodamines; Silver; Spectrum Analysis, Raman; Surface Properties; Triazines

2012
On-chip ultra-thin layer chromatography and surface enhanced Raman spectroscopy.
    Lab on a chip, 2012, Sep-07, Volume: 12, Issue:17

    Topics: Chromatography, Thin Layer; Coloring Agents; Nanotubes; Rhodamines; Silver; Spectrum Analysis, Raman; Surface Properties; Triazines

2012
Optofluidic surface enhanced Raman spectroscopy microsystem for sensitive and repeatable on-site detection of chemical contaminants.
    Analytical chemistry, 2012, Sep-18, Volume: 84, Issue:18

    Topics: Food Contamination; Metal Nanoparticles; Microfluidic Analytical Techniques; Optical Fibers; Silver; Spectrum Analysis, Raman; Triazines; Water

2012
"Oxidative etching-aggregation" of silver nanoparticles by melamine and electron acceptors: an innovative route toward ultrasensitive and versatile functional colorimetric sensors.
    Analytica chimica acta, 2012, Oct-17, Volume: 747

    Topics: Animals; Cattle; Colorimetry; Ferric Compounds; Hydrogen Peroxide; Limit of Detection; Metal Nanoparticles; Milk; Nitrates; Ozone; Sensitivity and Specificity; Silver; Triazines; Water Pollutants, Chemical

2012
Responsive helical self-assembly of AgNO3 and melamine through asymmetric coordination for Ag nanochain synthesis.
    Small (Weinheim an der Bergstrasse, Germany), 2013, Apr-08, Volume: 9, Issue:7

    Topics: Metal Nanoparticles; Microscopy, Electron, Scanning; Microscopy, Electron, Transmission; Nanoparticles; Nanostructures; Silver; Triazines

2013
Interaction of melamine molecules with silver nanoparticles explored by surface-enhanced Raman scattering and density functional theory calculations.
    Applied spectroscopy, 2013, Volume: 67, Issue:5

    Topics: Food Contamination; Metal Nanoparticles; Molecular Dynamics Simulation; Quantum Theory; Reproducibility of Results; Silver; Spectrum Analysis, Raman; Surface Properties; Triazines

2013
[Alkaline silver colloid for surface enhanced Raman scattering and application to detection of melamine doped milk].
    Guang pu xue yu guang pu fen xi = Guang pu, 2013, Volume: 33, Issue:3

    Topics: Alkalies; Animals; Colloids; Food Contamination; Milk; Silver; Spectrum Analysis, Raman; Surface Properties; Triazines

2013
Silver deposited polystyrene (PS) microspheres for surface-enhanced Raman spectroscopic-encoding and rapid label-free detection of melamine in milk powder.
    Talanta, 2013, Sep-15, Volume: 113

    Topics: Animals; Food Contamination; Limit of Detection; Microspheres; Milk; Nanoparticles; Polystyrenes; Silver; Spectrum Analysis, Raman; Triazines

2013
Focused-ion-beam-fabricated Au nanorods coupled with Ag nanoparticles used as surface-enhanced Raman scattering-active substrate for analyzing trace melamine constituents in solution.
    Analytica chimica acta, 2013, Oct-24, Volume: 800

    Topics: Animals; Cattle; Gold; Ions; Metal Nanoparticles; Milk; Nanotubes; Particle Size; Silver; Solutions; Spectrum Analysis, Raman; Triazines; Water

2013
Melamine functionalized silver nanoparticles as the probe for electrochemical sensing of clenbuterol.
    ACS applied materials & interfaces, 2014, Jun-11, Volume: 6, Issue:11

    Topics: Animals; Clenbuterol; Limit of Detection; Metal Nanoparticles; Molecular Probes; Silver; Swine; Sympathomimetics; Triazines

2014
Performance-enhancing methods for Au film over nanosphere surface-enhanced Raman scattering substrate and melamine detection application.
    PloS one, 2014, Volume: 9, Issue:6

    Topics: Colloids; Gold; Metal Nanoparticles; Nanospheres; Rhodamines; Silver; Spectrophotometry, Ultraviolet; Spectrum Analysis, Raman; Triazines

2014
One-step, room temperature, colorimetric melamine sensing using an in-situ formation of silver nanoparticles through modified Tollens process.
    Spectrochimica acta. Part A, Molecular and biomolecular spectroscopy, 2015, Feb-25, Volume: 137

    Topics: Animals; Calibration; Colorimetry; Metal Nanoparticles; Milk; Reference Standards; Silver; Spectrophotometry, Ultraviolet; Temperature; Triazines

2015
Superhydrophobic-oleophobic Ag nanowire platform: an analyte-concentrating and quantitative aqueous and organic toxin surface-enhanced Raman scattering sensor.
    Analytical chemistry, 2014, Oct-21, Volume: 86, Issue:20

    Topics: Food Contamination; Food Technology; Hydrophobic and Hydrophilic Interactions; Nanowires; Naphthols; Organic Chemicals; Silver; Spectrum Analysis, Raman; Surface Properties; Triazines; Water

2014
Urchin-like LaVO₄/Au composite microspheres for surface-enhanced Raman scattering detection.
    Journal of colloid and interface science, 2015, Apr-01, Volume: 443

    Topics: Benzoic Acid; Gold; Iron; Lanthanum; Metal Nanoparticles; Microscopy, Electron, Scanning; Microspheres; Silver; Spectrum Analysis, Raman; Triazines; Vanadium Compounds; X-Ray Diffraction

2015
3D silver nanoparticles decorated zinc oxide/silicon heterostructured nanomace arrays as high-performance surface-enhanced Raman scattering substrates.
    ACS applied materials & interfaces, 2015, Mar-18, Volume: 7, Issue:10

    Topics: Adsorption; Light; Materials Testing; Metal Nanoparticles; Molecular Conformation; Particle Size; Reproducibility of Results; Rhodamines; Scattering, Radiation; Sensitivity and Specificity; Silicon; Silver; Spectrum Analysis, Raman; Surface Properties; Triazines; Zinc Oxide

2015
Triplex molecular beacons for sensitive recognition of melamine based on abasic-site-containing DNA and fluorescent silver nanoclusters.
    Chemical communications (Cambridge, England), 2015, May-07, Volume: 51, Issue:37

    Topics: Aptamers, Nucleotide; DNA; Fluorescent Dyes; Metal Nanoparticles; Silver; Triazines

2015
Quantitative surface-enhanced Raman measurements with embedded internal reference.
    Analytica chimica acta, 2015, May-18, Volume: 874

    Topics: Aniline Compounds; Animals; Gold; Limit of Detection; Metal Nanoparticles; Milk; Silver; Spectrum Analysis, Raman; Sulfhydryl Compounds; Tolonium Chloride; Triazines

2015
Rapid Detection of Melamine in Milk Using Immunological Separation and Surface Enhanced Raman Spectroscopy.
    Journal of food science, 2015, Volume: 80, Issue:6

    Topics: Animals; Antibodies; Food Contamination; Limit of Detection; Milk; Principal Component Analysis; Rabbits; Silver; Spectrum Analysis, Raman; Triazines

2015
Simultaneous enzymatic and SERS properties of bifunctional chitosan-modified popcorn-like Au-Ag nanoparticles for high sensitive detection of melamine in milk powder.
    Talanta, 2015, Aug-01, Volume: 140

    Topics: Animals; Chitosan; Food Analysis; Gold; Limit of Detection; Metal Nanoparticles; Milk; Peroxidase; Silver; Spectrum Analysis, Raman; Triazines

2015
Colorimetric determination of melamine in milk using unmodified silver nanoparticles.
    Spectrochimica acta. Part A, Molecular and biomolecular spectroscopy, 2016, Mar-05, Volume: 156

    Topics: Animals; Colorimetry; Food Contamination; Limit of Detection; Metal Nanoparticles; Milk; Silver; Spectrophotometry, Ultraviolet; Triazines

2016
A ratiometric nanosensor based on conjugated polyelectrolyte-stabilized AgNPs for ultrasensitive fluorescent and colorimetric sensing of melamine.
    Talanta, 2016, May-01, Volume: 151

    Topics: Animals; Biosensing Techniques; Colorimetry; Electrolytes; Fluorescent Dyes; Hydrogen-Ion Concentration; Metal Nanoparticles; Microscopy, Electron, Transmission; Milk; Polymers; Reproducibility of Results; Silver; Spectrometry, Fluorescence; Triazines

2016
Rapid Detection of Melamine in Tap Water and Milk Using Conjugated "One-Step" Molecularly Imprinted Polymers-Surface Enhanced Raman Spectroscopic Sensor.
    Journal of food science, 2016, Volume: 81, Issue:5

    Topics: Adsorption; Animals; Food Contamination; Limit of Detection; Methacrylates; Milk; Molecular Imprinting; Nanoparticles; Nitriles; Polymerization; Polymers; Reproducibility of Results; Silver; Spectrum Analysis, Raman; Triazines; Water

2016
SERS-based sensing technique for trace melamine detection - A new method exploring.
    Talanta, 2016, 06-01, Volume: 153

    Topics: Animals; Milk; Silver; Spectrum Analysis, Raman; Triazines

2016
Molecularly imprinted nanohybrids based on dopamine-modified poly(γ-glutamic acid) for electrochemical sensing of melamine.
    Biosensors & bioelectronics, 2016, Nov-15, Volume: 85

    Topics: Animals; Biosensing Techniques; Dopamine; Electrochemical Techniques; Food Analysis; Limit of Detection; Milk; Molecular Imprinting; Nanoparticles; Polyglutamic Acid; Silver; Triazines

2016
Enzyme-free colorimetric determination of EV71 virus using a 3D-MnO
    Nanoscale, 2016, Sep-15, Volume: 8, Issue:36

    Topics: Colorimetry; Enterovirus A, Human; Limit of Detection; Manganese Compounds; Metal Nanoparticles; Oxides; Silver; Sulfhydryl Compounds; Triazines

2016
Micron-sized surface enhanced Raman scattering reporter/fluorescence probe encoded colloidal microspheres for sensitive DNA detection.
    Journal of colloid and interface science, 2017, Feb-15, Volume: 488

    Topics: Colloids; DNA; DNA Probes; Fluorescent Dyes; Humans; Metal Nanoparticles; Microspheres; Silver; Spectrometry, Fluorescence; Spectrum Analysis, Raman; Triazines

2017
Ultrafast self-assembly of silver nanostructures on carbon-coated copper grids for surface-enhanced Raman scattering detection of trace melamine.
    Journal of colloid and interface science, 2017, Mar-15, Volume: 490

    Topics: Animals; Carbon; Copper; Food Contamination; Limit of Detection; Metal Nanoparticles; Milk; Nanostructures; Silver; Spectrum Analysis, Raman; Triazines

2017
Chromatographic separation and detection of contaminants from whole milk powder using a chitosan-modified silver nanoparticles surface-enhanced Raman scattering device.
    Food chemistry, 2017, Jun-01, Volume: 224

    Topics: Animals; Chitosan; Chromatography; Food Contamination; Guanidines; Limit of Detection; Metal Nanoparticles; Milk; Powders; Silver; Solutions; Spectrum Analysis, Raman; Triazines

2017
Rapid sensing of melamine in milk by interference green synthesis of silver nanoparticles.
    Materials science & engineering. C, Materials for biological applications, 2017, May-01, Volume: 74

    Topics: Animals; Chromatography, High Pressure Liquid; Food Contamination; Green Chemistry Technology; Limit of Detection; Metal Nanoparticles; Microscopy, Electron, Transmission; Milk; Silver; Spectrophotometry, Ultraviolet; Triazines

2017
Colorimetric method for the detection of melamine using in-situ formed silver nanoparticles via tannic acid.
    Spectrochimica acta. Part A, Molecular and biomolecular spectroscopy, 2017, Aug-05, Volume: 183

    Topics: Animals; Colorimetry; Food Contamination; Limit of Detection; Metal Nanoparticles; Milk; Silver; Tannins; Triazines

2017
A Sensitive "Turn-On" Fluorescent Sensor for Melamine Based on FRET Effect between Polydopamine-Glutathione Nanoparticles and Ag Nanoparticles.
    Journal of agricultural and food chemistry, 2018, Mar-07, Volume: 66, Issue:9

    Topics: Animals; Cattle; Fluorescence; Fluorescence Resonance Energy Transfer; Food Contamination; Glutathione; Indoles; Limit of Detection; Metal Nanoparticles; Milk; Polymers; Silver; Triazines

2018
Direct Detection of Toxic Contaminants in Minimally Processed Food Products Using Dendritic Surface-Enhanced Raman Scattering Substrates.
    Sensors (Basel, Switzerland), 2018, Aug-19, Volume: 18, Issue:8

    Topics: Animals; Food Contamination; Fruit and Vegetable Juices; Humans; Limit of Detection; Malus; Metal Nanoparticles; Milk; Silver; Spectrum Analysis, Raman; Thiram; Triazines

2018
Bio-polyphenols promoted green synthesis of silver nanoparticles for facile and ultra-sensitive colorimetric detection of melamine in milk.
    Biosensors & bioelectronics, 2018, Nov-30, Volume: 120

    Topics: Animals; Biosensing Techniques; China; Colorimetry; Food Analysis; Green Chemistry Technology; Limit of Detection; Metal Nanoparticles; Milk; Polyphenols; Silver; Triazines

2018
Plant polyphenol-inspired nano-engineering topological and chemical structures of commercial sponge surface for oils/organic solvents clean-up and recovery.
    Chemosphere, 2019, Volume: 218

    Topics: Environmental Restoration and Remediation; Hydrophobic and Hydrophilic Interactions; Microscopy, Electron, Scanning; Nanoparticles; Nanostructures; Nanotechnology; Petroleum Pollution; Photoelectron Spectroscopy; Plant Oils; Polyphenols; Silicon Dioxide; Silver; Solvents; Tannins; Triazines; Water

2019
Hydrophobic paper-based SERS platform for direct-droplet quantitative determination of melamine.
    Food chemistry, 2019, Jul-30, Volume: 287

    Topics: Animals; Food Analysis; Food Contamination; Hydrophobic and Hydrophilic Interactions; Limit of Detection; Metal Nanoparticles; Milk; Paper; Pesticides; Reproducibility of Results; Rosaniline Dyes; Silver; Spectrum Analysis, Raman; Thiram; Triazines

2019
Fluorescence, turn-on detection of melamine based on its dual functions as fluorescence enhancer of DNA-AgNCs and Hg(II)-scavenger.
    Artificial cells, nanomedicine, and biotechnology, 2019, Volume: 47, Issue:1

    Topics: Animals; Biosensing Techniques; DNA; Fluorescence; Fluorescent Dyes; Food Contamination; Limit of Detection; Mercury; Metal Nanoparticles; Milk; Silver; Triazines

2019
Aquamarine blue emitting silver nanoparticles as fluorescent sensor for melamine detection.
    Spectrochimica acta. Part A, Molecular and biomolecular spectroscopy, 2019, Jun-15, Volume: 217

    Topics: Animals; Biosensing Techniques; Coloring Agents; Fluorescent Dyes; Humans; Limit of Detection; Metal Nanoparticles; Milk; Silver; Spectrometry, Fluorescence; Triazines

2019
Direct detection of melamine in infant formula milk powder solution based on SERS effect of silver film over nanospheres.
    Spectrochimica acta. Part A, Molecular and biomolecular spectroscopy, 2019, Dec-05, Volume: 223

    Topics: Computer Simulation; Electricity; Humans; Infant Formula; Infant, Newborn; Models, Molecular; Nanospheres; Silver; Solutions; Spectrum Analysis, Raman; Triazines

2019
Determination of melamine and melamine-Cu(II) complexes in milk using a DNA-Ag hydrocolloid as the sensor.
    Food chemistry, 2020, May-01, Volume: 311

    Topics: Animals; Coordination Complexes; Copper; DNA; Food Contamination; Humans; Limit of Detection; Milk; Silver; Spectrophotometry; Triazines

2020
Ag Nanoparticles Stabilized on Cyclodextrin Polymer Decorated with Multi-Nitrogen Atom Containing Polymer: An Efficient Catalyst for the Synthesis of Xanthenes.
    Molecules (Basel, Switzerland), 2020, Jan-07, Volume: 25, Issue:2

    Topics: Catalysis; Cellulose; Cuscuta; Cyclodextrins; Metal Nanoparticles; Nitrogen; Plant Extracts; Polymers; Silver; Triazines; Xanthenes

2020
Simultaneous colorimetric and surface-enhanced Raman scattering detection of melamine from milk.
    Spectrochimica acta. Part A, Molecular and biomolecular spectroscopy, 2020, Apr-15, Volume: 231

    Topics: Animals; Colloids; Colorimetry; Food Analysis; Food Contamination; Limit of Detection; Metal Nanoparticles; Milk; Silver; Spectrum Analysis, Raman; Triazines

2020
Melamine-promoted formation of bright and stable DNA-silver nanoclusters and their antimicrobial properties.
    Journal of materials chemistry. B, 2019, 04-21, Volume: 7, Issue:15

    Topics: Anti-Bacterial Agents; DNA; Escherichia coli; Metal Nanoparticles; Silver; Staphylococcus aureus; Triazines

2019
Portable surface-enhanced Raman scattering analysis performed with microelectrode-templated silver nanodendrites.
    The Analyst, 2020, Jul-07, Volume: 145, Issue:13

    Topics: Cocaine; Food Contamination; Fruit and Vegetable Juices; Limit of Detection; Malus; Metal Nanoparticles; Microelectrodes; Pesticides; Principal Component Analysis; Rhodamines; Silver; Spectrum Analysis, Raman; Support Vector Machine; Thiram; Triazines

2020
Carbon nitride-doped melamine-silver adsorbents with peroxidase-like catalysis and visible-light photocatalysis: Colorimetric detection and detoxification removal of total mercury.
    Journal of hazardous materials, 2021, 04-15, Volume: 408

    Topics: Catalysis; Colorimetry; Hydrogen Peroxide; Mercury; Nitriles; Peroxidase; Peroxidases; Silver; Triazines

2021
Aptamer/derivatization-based surface-enhanced Raman scattering membrane assembly for selective analysis of melamine and formaldehyde in migration of melamine kitchenware.
    Talanta, 2021, Dec-01, Volume: 235

    Topics: Formaldehyde; Metal Nanoparticles; Reproducibility of Results; Silicon Dioxide; Silver; Spectrum Analysis, Raman; Triazines

2021
Au nanoparticles decorated ZnO/ZnFe
    Talanta, 2022, Jan-01, Volume: 236

    Topics: Gold; Humans; Metal Nanoparticles; Nanocomposites; Silver; Triazines; Zinc Oxide

2022
Mussel-Inspired Ag NPs Immobilized on Melamine Sponge for Reduction of 4-Nitrophenol, Antibacterial Applications and Its Superhydrophobic Derivative for Oil-Water Separation.
    ACS applied materials & interfaces, 2021, Oct-27, Volume: 13, Issue:42

    Topics: Animals; Anti-Bacterial Agents; Biomimetic Materials; Bivalvia; Gram-Negative Bacteria; Gram-Positive Bacteria; Hydrophobic and Hydrophilic Interactions; Metal Nanoparticles; Microbial Sensitivity Tests; Nitrophenols; Oils; Oxidation-Reduction; Silver; Triazines; Water; Water Purification

2021
Direct determination of ethanol in alcoholic beverages based on its anti-aggregation of melamine-silver nanoparticle assembly.
    Talanta, 2022, Dec-01, Volume: 250

    Topics: Alcoholic Beverages; Animals; Citric Acid; Colorimetry; Ethanol; Metal Nanoparticles; Milk; Silver; Triazines

2022
Reliable strategy of sensitive fluorescent nanoprobe for sensing silver nanoparticles using specific carbon dots derived from mercaptoacetic acid and melamine.
    Chemosphere, 2022, Volume: 308, Issue:Pt 2

    Topics: Carbon; Coloring Agents; Environmental Pollutants; Fluorescent Dyes; Limit of Detection; Metal Nanoparticles; Nitrogen; Quantum Dots; Silver; Sulfur; Thioglycolates; Triazines

2022
A self-assembly hydrophobic oCDs/Ag nanoparticles SERS sensor for ultrasensitive melamine detection in milk.
    Food chemistry, 2023, Feb-15, Volume: 402

    Topics: Animals; Carbon; Cetylpyridinium; Chlorides; Limit of Detection; Metal Nanoparticles; Milk; Reducing Agents; Reproducibility of Results; Silver; Spectrum Analysis, Raman

2023
H
    Food chemistry, 2023, Mar-01, Volume: 403

    Topics: Animals; Carbon; Fluorescent Dyes; Hydrogen Peroxide; Ionic Liquids; Limit of Detection; Metal Nanoparticles; Milk; Silver; Triazines; Zea mays

2023