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aluminosilicate nanocomposite  (Genosensor)

 
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    Genosensor aluminosilicate nanocomposite
    Aluminosilicate Nanocomposite, supplied by Genosensor, used in various techniques. Bioz Stars score: 90/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
    https://www.bioz.com/result/aluminosilicate nanocomposite/product/Genosensor
    Average 90 stars, based on 1 article reviews
    aluminosilicate nanocomposite - by Bioz Stars, 2026-04
    90/100 stars

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    Schematic illustration of surface functionalization. Conducted on bare silicon substrate was from deposition of aluminosilicate nanocomposites modified with APTES to immobilization of DNA probe and targets, generating high performance genosensor. Figure insets are displaying the surface morphology.

    Journal: Scientific Reports

    Article Title: Aluminosilicate Nanocomposite on Genosensor: A Prospective Voltammetry Platform for Epidermal Growth Factor Receptor Mutant Analysis in Non-small Cell Lung Cancer

    doi: 10.1038/s41598-019-53573-9

    Figure Lengend Snippet: Schematic illustration of surface functionalization. Conducted on bare silicon substrate was from deposition of aluminosilicate nanocomposites modified with APTES to immobilization of DNA probe and targets, generating high performance genosensor. Figure insets are displaying the surface morphology.

    Article Snippet: Figure shows the image of genosensor modified with aluminosilicate nanocomposite under 3D nanoprofilometer.

    Techniques: Modification

    ( a ) Design and characterization of genosensor. The basic design and the generated genosensor are shown on the left. ( b ) Image of genosensor captured under a scanning electron microscope at 500 µM, showing the fingers of the aluminium electrode and the gaps between the electrodes. ( c ) HPM image of fabricated genosensor. ( d ) 3D image of fabricated genosensor before depositing aluminosilicate nanocomposites (inset figure shows front view) using 3D Profilometer. ( e ) Joss fly ash used to synthesize aluminosilicate nanocomposites. ( f ) Aluminosilicate extracted from joss fly ash ( g ) FETEM image of the nanocomposites. ( h ) Uniformly dispersed spherical shape of aluminosilicate nanocomposites under FESEM analysis. ( i ) Image of genosensor under HPM after deposition of nanocomposites. ( j ) 3D image of aluminosilicate nanocomposite modified genosensor illustrates the nanocomposites only attach on the SiO 2 gap without disrupting the aluminium electrodes.

    Journal: Scientific Reports

    Article Title: Aluminosilicate Nanocomposite on Genosensor: A Prospective Voltammetry Platform for Epidermal Growth Factor Receptor Mutant Analysis in Non-small Cell Lung Cancer

    doi: 10.1038/s41598-019-53573-9

    Figure Lengend Snippet: ( a ) Design and characterization of genosensor. The basic design and the generated genosensor are shown on the left. ( b ) Image of genosensor captured under a scanning electron microscope at 500 µM, showing the fingers of the aluminium electrode and the gaps between the electrodes. ( c ) HPM image of fabricated genosensor. ( d ) 3D image of fabricated genosensor before depositing aluminosilicate nanocomposites (inset figure shows front view) using 3D Profilometer. ( e ) Joss fly ash used to synthesize aluminosilicate nanocomposites. ( f ) Aluminosilicate extracted from joss fly ash ( g ) FETEM image of the nanocomposites. ( h ) Uniformly dispersed spherical shape of aluminosilicate nanocomposites under FESEM analysis. ( i ) Image of genosensor under HPM after deposition of nanocomposites. ( j ) 3D image of aluminosilicate nanocomposite modified genosensor illustrates the nanocomposites only attach on the SiO 2 gap without disrupting the aluminium electrodes.

    Article Snippet: Figure shows the image of genosensor modified with aluminosilicate nanocomposite under 3D nanoprofilometer.

    Techniques: Generated, Microscopy, Modification

    Voltammetry signal amplified by genosensor. DNA probe was allowed hybridizing with ( a ) mutant type, ( b ) wild type and ( c ) non-complementary strand. ( d ) The graph shows current-voltage (I-V) characteristics generated by genosensor without aluminosilicate nanocomposite for surface enhancement when it was investigated against the mutant strand.

    Journal: Scientific Reports

    Article Title: Aluminosilicate Nanocomposite on Genosensor: A Prospective Voltammetry Platform for Epidermal Growth Factor Receptor Mutant Analysis in Non-small Cell Lung Cancer

    doi: 10.1038/s41598-019-53573-9

    Figure Lengend Snippet: Voltammetry signal amplified by genosensor. DNA probe was allowed hybridizing with ( a ) mutant type, ( b ) wild type and ( c ) non-complementary strand. ( d ) The graph shows current-voltage (I-V) characteristics generated by genosensor without aluminosilicate nanocomposite for surface enhancement when it was investigated against the mutant strand.

    Article Snippet: Figure shows the image of genosensor modified with aluminosilicate nanocomposite under 3D nanoprofilometer.

    Techniques: Amplification, Mutagenesis, Generated