Copper oxide integrated perylene diimide self-assembled graphitic pencil for robust non-enzymatic dopamine detection

Amara, Umay; Riaz, Sara; Akhtar, Naeem; Nasir, Muhammad; Hayat, Akhtar; Khalid, Muhammad; Yaqub, Muhammad; Nawaz, Mian Hasnain

doi:10.1039/d1ra03908c

Cited by 19 publications

(16 citation statements)

References 61 publications

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“…3(C), suggesting an adsorption-controlled process. 49 It could be ascribed to the fast electron kinetics of ions due to the active surface area of nickel-doped iron oxide nanoparticles. I p = 2.44 ν (mV s −1 ) − 13.03 ( R 2 = 0.973)…”

Section: Resultsmentioning

confidence: 99%

Nickel -doped iron oxide nanoparticle-conjugated porphyrin interface (porphyrin/Fe₂O₃@Ni) for the non-enzymatic detection of dopamine from lacrimal fluid

Amara¹,

Awais²,

Khalid³

et al. 2022

Dalton Trans.

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Section: Resultsmentioning

confidence: 99%

Nickel -doped iron oxide nanoparticle-conjugated porphyrin interface (porphyrin/Fe₂O₃@Ni) for the non-enzymatic detection of dopamine from lacrimal fluid

Amara¹,

Awais²,

Khalid³

et al. 2022

Dalton Trans.

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“…Meanwhile, the O-, N-and S-awarded DMT boosts the movement of ions and acts as an electron transport booster or mediator. Thus, the catalytically active layer CuOOH upon interaction with DA causes robust and smooth oxidation to dopamine-O-quinone and itself reduces to Cu(OH) 2 with (2+), 17,48,49 as shown in Fig. 4.…”

Section: (B) and Eqn (S4) †mentioning

confidence: 95%

Functionalized thiazolidone-decorated lanthanum-doped copper oxide: novel heterocyclic sea sponge morphology for the efficient detection of dopamine

et al. 2022

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“…Depending on many factors, such as choice of precursors, method of synthesis, the structure of an active electrode material can be customized in a way that more surface area can be exposed [53-55, [68]. For example, carbon with tailored structure can achieve high surface area by engineering its morphology [69][70][71][72] (Table 1). Such engineering of structures paved way for researchers to continuously study and evaluate hierarchical structures in a nanoscale level [73][74][75].…”

Section: Nature-inspired Structures: Synthesis Structural Formation A...mentioning

confidence: 99%

Animal- and Human-Inspired Nanostructures as Supercapacitor Electrode Materials: A Review

Hussain

Lamiel

Sahoo³

et al. 2022

Nano-Micro Lett.

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Human civilization has been relentlessly inspired by the nurturing lessons; nature is teaching us. From birds to airplanes and bullet trains, nature gave us a lot of perspective in aiding the progress and development of countless industries, inventions, transportation, and many more. Not only that nature inspired us in such technological advances but also, nature stimulated the advancement of micro- and nanostructures. Nature-inspired nanoarchitectures have been considered a favorable structure in electrode materials for a wide range of applications. It offers various positive attributes, especially in energy storage applications, such as the formation of hierarchical two-dimensional and three-dimensional interconnected networked structures that benefit the electrodes in terms of high surface area, high porosity and rich surface textural features, and eventually, delivering high capacity and outstanding overall material stability. In this review, we comprehensively assessed and compiled the recent advances in various nature-inspired based on animal- and human-inspired nanostructures used for supercapacitors. This comprehensive review will help researchers to accommodate nature-inspired nanostructures in industrializing energy storage and many other applications.

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Copper oxide integrated perylene diimide self-assembled graphitic pencil for robust non-enzymatic dopamine detection

Abstract: Exploring a robust, extremely sensitive, cost-effective and reliable assay platform for the precise analysis of dopamine (DA) has become a big challenge predominantly at the clinical level.

Cited by 19 publications

References 61 publications

Nickel -doped iron oxide nanoparticle-conjugated porphyrin interface (porphyrin/Fe₂O₃@Ni) for the non-enzymatic detection of dopamine from lacrimal fluid

Nickel -doped iron oxide nanoparticle-conjugated porphyrin interface (porphyrin/Fe₂O₃@Ni) for the non-enzymatic detection of dopamine from lacrimal fluid

Functionalized thiazolidone-decorated lanthanum-doped copper oxide: novel heterocyclic sea sponge morphology for the efficient detection of dopamine

Animal- and Human-Inspired Nanostructures as Supercapacitor Electrode Materials: A Review

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Copper oxide integrated perylene diimide self-assembled graphitic pencil for robust non-enzymatic dopamine detection

Abstract: Exploring a robust, extremely sensitive, cost-effective and reliable assay platform for the precise analysis of dopamine (DA) has become a big challenge predominantly at the clinical level.

Cited by 19 publications

References 61 publications

Nickel -doped iron oxide nanoparticle-conjugated porphyrin interface (porphyrin/Fe2O3@Ni) for the non-enzymatic detection of dopamine from lacrimal fluid

Nickel -doped iron oxide nanoparticle-conjugated porphyrin interface (porphyrin/Fe2O3@Ni) for the non-enzymatic detection of dopamine from lacrimal fluid

Functionalized thiazolidone-decorated lanthanum-doped copper oxide: novel heterocyclic sea sponge morphology for the efficient detection of dopamine

Animal- and Human-Inspired Nanostructures as Supercapacitor Electrode Materials: A Review

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Product

Resources

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Nickel -doped iron oxide nanoparticle-conjugated porphyrin interface (porphyrin/Fe₂O₃@Ni) for the non-enzymatic detection of dopamine from lacrimal fluid

Nickel -doped iron oxide nanoparticle-conjugated porphyrin interface (porphyrin/Fe₂O₃@Ni) for the non-enzymatic detection of dopamine from lacrimal fluid