Hesham Omran scite author profile

A prototypical metal-organic framework (MOF), a 2D periodic porous structure based on the assembly of copper ions and benzene dicarboxylate (bdc) ligands (Cu(bdc)·xH2O), was grown successfully as a thin film on interdigitated electrodes (IDEs). IDEs have been used for achieving planar CMOS-compatible low-cost capacitive sensing structures for the detection of humidity and volatile organic compounds (VOCs). Accordingly, the resultant IDEs coated with the Cu(bdc)·xH2O thin film was evaluated, for the first time, as a capacitive sensor for gas sensing applications. A fully automated setup, using LabVIEW interfaces to experiment conduction and data acquisition, was developed in order to measure the associated gas sensing performance.

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Systematic design and optimization of operational transconductance amplifier using gm/ID design methodology

Sabry¹,

Omran

Dessouky

2018

Microelectronics Journal

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An integrated energy-efficient capacitive sensor digital interface circuit

Omran

Arsalan

Salama

2014

Sensors and Actuators A: Physical

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CitationOmran H, Arsalan M, Salama KN (2014) AbstractIn this paper, we propose an energy-efficient 13-bit capacitive sensor interface circuit. The proposed design fully relies on successive approximation algorithm, which eliminates the need for oversampling and digital decimation filtering, and thus low-power consumption is achieved. The proposed architecture employs a charge amplifier stage to acheive parasitic insensitive operation and fine absolute resolution. Moreover, the output code is not affected by offset voltages or charge injection. The successive approximation algorithm is implemented in the capacitance-domain using a coarse-fine programmable capacitor array, which allows digitizing wide capacitance range in compact area. Analysis for the maximum achievable resolution due to mismatch is provided. The proposed design is insensitive to any reference voltage or current which translates to low temperature sensitivity. The operation of a prototype fabricated in a standard CMOS technology is experimentally verified using both on-chip and off-chip capacitive sensors. Compared to similar prior work, the fabricated prototype achieves and excellent energy efficiency of 34 pJ/step.

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A family of memristor‐based reactance‐less oscillators

Zidan

Omran

Smith

et al. 2013

Circuit Theory & Apps

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SUMMARYIn this paper, we present for the first time a family of memristor-based reactance-less oscillators (MRLOs). The proposed oscillators require no reactive components, i.e., inductors or capacitors, rather, the "resistance-storage" property of memristor is exploited to generate the oscillation. Different types of MRLO family are presented and for each type, closed form expressions are derived for the oscillation condition, oscillation frequency, and range of oscillation. Derived equations are further verified using transient circuit simulations. A comparison between different MRLO types is also discussed. In addition, detailed fabrication steps of a memristor device and experimental results for the first MRLO physical realization are presented.

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A light responsive two-component supramolecular hydrogel: a sensitive platform for the fabrication of humidity sensors

et al. 2016

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The supramolecular assembly of anionic azobenzene dicarboxylate and cationic cetyltrimethylammonium bromide (CTAB) formed a stimuli responsive hydrogel with a critical gelation concentration (CGC) of 0.33 wt%. This self-sustainable two-component system was able to repair damage upon light irradiation. Moreover, it was successfully employed in the fabrication of highly sensitive humidity sensors for the first time.

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Hesham Omran

Insights on Capacitive Interdigitated Electrodes Coated with MOF Thin Films: Humidity and VOCs Sensing as a Case Study

Systematic design and optimization of operational transconductance amplifier using gm/ID design methodology

An integrated energy-efficient capacitive sensor digital interface circuit

A family of memristor‐based reactance‐less oscillators

A light responsive two-component supramolecular hydrogel: a sensitive platform for the fabrication of humidity sensors

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