Abrar A. Abidi scite author profile

Abrar A. Abidi

4Publications

40Citation Statements Received

44Citation Statements Given

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Affiliations

McGill University, Brunel University London

Publications

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Transverse dielectrophoretic-based DNA nanoscale confinement

Mahshid

Abidi

et al. 2018

Sci Rep

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Confinement of single molecules within nanoscale environments is crucial in a range of fields, including biomedicine, genomics, and biophysics. Here, we present a method that can concentrate, confine, and linearly stretch DNA molecules within a single optical field of view using dielectrophoretic (DEP) force. The method can convert an open surface into one confining DNA molecules without a requirement for bonding, hydrodynamic or mechanical components. We use a transverse DEP field between a top coverslip and a bottom substrate, both of which are coated with a transparent conductive material. Both layers are attached using double-sided tape, defining the chamber. The nanofeatures lie at the “floor” and do not require any bonding. With the application of an alternating (AC) electric field (2 Vp-p) between the top and bottom electrodes, a DEP field gradient is established and used to concentrate, confine and linearly extend DNA in nanogrooves as small as 100-nm in width. We also demonstrate reversible loading/unloading of DNA molecules into nanogrooves and nanopits by switching frequency (between 10 kHz to 100 kHz). The technology presented in this paper provides a new method for single-molecule trapping and analysis.

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Observations of local defects caused by electrical conduction through thin sandwich structures of AgSiO/BaOAg

Rakhshani

Hogarth

Abidi

1976

Journal of Non-Crystalline Solids

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Intricate Genetic Programs Controlling Dormancy in Mycobacterium tuberculosis

Peterson¹,

Abidi²,

Arrieta-Ortiz³

et al. 2021

Cell Reports

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Electron emission and related properties of amorphous thin films of mixed barium and silicon oxides

Abidi

Hogarth

1974

Thin Solid Films

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Abrar A. Abidi

Transverse dielectrophoretic-based DNA nanoscale confinement

Observations of local defects caused by electrical conduction through thin sandwich structures of AgSiO/BaOAg

Intricate Genetic Programs Controlling Dormancy in Mycobacterium tuberculosis

Electron emission and related properties of amorphous thin films of mixed barium and silicon oxides

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