Y. Mazhdi scite author profile

Various efforts have been made to detect minimum amounts of any toxic materials in water or the neurotoxic effect of venom (Odontobuthus Doriae Scorpion) in the human’s blood serum nerve by high-sensitivity, accurate, and low-cost sensors in order to enhance life style. Therefore, the present study was done to investigate reliability of two-dimensional plasmonic structure and circular dichroism (CD) in toxic samples in order to measure and determine venom concentrations and its neurotoxic effect on humans҆ blood serum Neurotransmitter analytes. Our results confirmed dependency of CD signal to neurotoxic effect of venom concentrations and good sensitivity of this sensor with the help of achiral plasmonic structure.

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Glucose Sensor Based on Ellipsometry and Circular Dichroism in Achiral Plasmonic Structure

Mazhdi¹,

Hamidi²,

Belotelov³

et al. 2021

Preprint

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Various efforts have been made to detect minimum value of glucose in any medium like water or body buffer solutions with high-sensitivity, accurate, and low-cost sensors in order to enhance life style. Therefore, the present study was done to investigate reliability of two-dimensional plasmonic structure by circular dichroism (CD) and ellipsometry tools in different concentrations of glucose. Our results confirmed a dependency of the CD signal on glucose concentrations and also a very good sensitivity based on the phase difference between each polarization in ellipsometry parameters with the help of an achiral plasmonic structure.

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Y. Mazhdi

Glucose sensor based on ellipsometry and circular dichroism in achiral plasmonic structure

Detection of scorpion venom by optical circular dichroism method

Glucose Sensor Based on Ellipsometry and Circular Dichroism in Achiral Plasmonic Structure

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