2019
DOI: 10.3390/s19153437
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Monitoring of Chemical Risk Factors for Sudden Infant Death Syndrome (SIDS) by Hydroxyapatite-Graphene-MWCNT Composite-Based Sensors

Abstract: Sensing properties of chemical sensors based on ternary hydroxyapatite-graphene-multiwalled carbon nanotube (HA-GN-MWCNT) nanocomposite in the detection of chemical substances representing risk factors for sudden infant death syndrome (SIDS), have been evaluated. Characterization data of the synthesized composite have shown that the graphene-MWCNT network serves as a matrix to uniformly disperse the hydroxyapatite nanoparticles and provide suitable electrical properties required for developing novel electroche… Show more

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Cited by 9 publications
(4 citation statements)
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References 38 publications
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“…By monitoring the reduction signal of the bio‐catalytically generated quinone species at −0.2 V, the constructed biosensor was used to identify phenolic chemicals (vs. saturated calomel electrode). Sudhan et al (2019) utilized the tannery HAp‐graphene multiwalled carbon nanotube's sensing capability to detect a chemical that represents risk factors for sudden infant death syndrome (SIDS). This sensor helps in estimating the risk factors associated with SIDS.…”
Section: Fabrication Of Biosensors Using Biomaterialsmentioning
confidence: 99%
“…By monitoring the reduction signal of the bio‐catalytically generated quinone species at −0.2 V, the constructed biosensor was used to identify phenolic chemicals (vs. saturated calomel electrode). Sudhan et al (2019) utilized the tannery HAp‐graphene multiwalled carbon nanotube's sensing capability to detect a chemical that represents risk factors for sudden infant death syndrome (SIDS). This sensor helps in estimating the risk factors associated with SIDS.…”
Section: Fabrication Of Biosensors Using Biomaterialsmentioning
confidence: 99%
“…Conversely, chemoresistors employing carbon nanomaterials (graphene and carbon nanotubes) have been suggested as an alternative to detect low concentrations of some air pollutants at ppb to ppm levels. These nanomaterials present favourable electronic properties and can be easily modified or functionalised to reach remarkable sensitivity and acceptable selectivity towards air pollutants [ 31 , 32 , 33 ]. In addition, carbon nanomaterial chemoresistors can be operated slightly above or even at room temperature, which allows reducing power consumption in portable solutions, leading to low-power devices [ 32 , 34 ].…”
Section: Introductionmentioning
confidence: 99%
“…However, its relatively poor electrical conductivity usually demands the addition of conductive supportive matrix (like graphene) to enhance the charge transfer rate. Graphene, as a two-dimensional carbonaceous material, is the most accredited in the field of electrochemical sensors due to its strong interaction and increased contact area which greatly promote the electrocatalyst stability and give a high electrical conductivity [22]. Recently, much research has been focused on coupling of MnO 2 with graphene to form hybrid material with enhanced performance as compared to their individual counterparts.…”
Section: Introductionmentioning
confidence: 99%