Michaël David scite author profile

Michaël David

5Publications

42Citation Statements Received

56Citation Statements Given

How they've been cited

How they cite others

121

Affiliations

Federal University of Technology Minna, University of Technology Malaysia, Université de Lorraine

Publications

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Progress in Ozone Sensors Performance: A Review

et al. 2015

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There has been a surge in ozone gas relevance in agriculture, environment and in the industry. This has resulted in increased research activities in areas involving ozone gas generation, application, safety and sensing. In this manuscript we present reviews of selected recent works (2011–2015) on ozone gas sensors based on absorption spectroscopy. Issues addressed include sensors applications versus requirements; sensors performance versus limitations and cost of sensors. Outstanding research issues are also outlined. While the review is mainly biased towards sensing of ozone using conventional absorption spectroscopy, other methods such as photo acoustic, photo reductive, photo stimulated, metal oxides, electrochemical, chemical, solid state and resistive ozone sensors were also considered in light of their performance criteria. Generally, it was observed that new applications of ozone gas lead to new sensing research challenges. Several sensing parameters were repeatedly investigated and improved upon over the years. Some of these parameters include: selectivity, sensitivity, speed of response, cost of sensor, lower detection limit and portability.

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Breast Cancer:Tumor Detection in Mammogram Images Using Modified AlexNet Deep Convolution Neural Network

Omonigho

David

Adejo

et al. 2020

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Materials Communicating with the BIM: Aims and First Results of the McBIM Project

Derigent¹,

David²,

Wan³

et al. 2019

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LiFi: The Solution to Radio Frequency Saturation

Jatau

David

Zubair

2020

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Alternative wavelength for linearity preservation of Beer–Lambert Law in ozone concentration measurement

Marcus

David

Yaacob

et al. 2015

Micro & Optical Tech Letters

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Beer–Lambert law deviation is often observed. Here, we propose alternative wavelength 279.95 nm for ozone concentration measurement between 357 and 971 μL L−1 to preserve linearity. Sensor loses linearity below transmittance 0.2165, as sensor approaches saturation. We recommend measurement of ozone concentration above transmittance of 0.2165 for strong linear relation. © 2015 Wiley Periodicals, Inc. Microwave Opt Technol Lett 57:1013–1016, 2015

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Michaël David

Progress in Ozone Sensors Performance: A Review

Breast Cancer:Tumor Detection in Mammogram Images Using Modified AlexNet Deep Convolution Neural Network

Materials Communicating with the BIM: Aims and First Results of the McBIM Project

LiFi: The Solution to Radio Frequency Saturation

Alternative wavelength for linearity preservation of Beer–Lambert Law in ozone concentration measurement

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