Maria Iftesum scite author profile

Liquid interfaces facilitate the organization of nanometer‐scale biomaterials with plasmonic properties suitable for molecular diagnostics. Using hierarchical assemblage of 2D hafnium disulfide nanoplatelets and zero‐dimensional spherical gold nanoparticles, the design of a multifunctional material is reported. When the target analyte is present, the nanocomposites’ self‐assembling pattern changes, altering their plasmonic response. Using monkeypox virus (MPXV) as an example, the findings reveal that adding genomic DNA to the nanocomposite surface increases the agglomeration between gold nanoparticles and decreases the π‐stacking distance between hafnium disulfide nanoplatelets. Further, this self‐assembled nanomaterial is found to have minimal cross‐reactivity toward other pathogens and a limit of detection of 7.6 pg µL−1 (i.e., 3.57 × 104 copies µL−1) toward MPXV. Overall, this study helped to gain a better understanding of the genomic organization of MPXV to chemically design and develop targeted nucleotides. The study has been validated by UV–vis spectroscopy, X‐ray diffraction, scanning transmission electron microscopy, surface‐enhanced Raman microscopy and electromagnetic simulation studies. To the best knowledge, this is the first study in literature reporting selective molecular detection of MPXV within a few minutes and without the use of any high‐end instrumental techniques like polymerase chain reactions.

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New technologies and reagents in lateral flow assay (LFA) designs for enhancing accuracy and sensitivity

Dey¹,

Iftesum²,

Devireddy³

et al. 2023

Anal. Methods

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Maria Iftesum

Nucleotide‐Driven Molecular Sensing of Monkeypox Virus Through Hierarchical Self‐Assembly of 2D Hafnium Disulfide Nanoplatelets and Gold Nanospheres

New technologies and reagents in lateral flow assay (LFA) designs for enhancing accuracy and sensitivity

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