Khatun A. Jannath scite author profile

Lactate is one of the major biomarkers to assess the physical fitness of human in clinical or sports medicine. The proper and well‐timed lactate determination can avoid some exigent conditions including hemorrhage, respiratory distress, sepsis, and hypoxia. Therefore, rapid, facile, selective, and reliable detection of lactate have gained appreciation lately. Among the various lactate detection methods, electrochemical method is the most rapid, convenient, and sensitive technique. Specifically, nanomaterial‐based nonenzymatic electrochemical lactate sensors are much desirable to solve the demerits and stability issues of enzymatic lactate sensors. Numerous materials including metal and metal oxide nanoparticles, metal–organic frameworks, molecularly imprinted polymers, and carbons were used as electrocatalysts to achieve highly sensitive lactate sensors. This present review mainly focuses on the recent developments of these materials for enzyme‐free lactate oxidation and the future prospective of electrode modification catalysts for lactate sensors.

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Separation detection of saccharides in whole blood using an electrodynamic microfluidic channel sensor with AuCo dendrite-anchored conductive polymer

Hossain¹,

Kim²,

Jannath³

et al. 2023

Sensors and Actuators B: Chemical

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Catalytic SrMoO₄ nanoparticles and conducting polymer composite sensor for monitoring of K⁺-induced dopamine release from neuronal cells

et al. 2022

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Khatun A. Jannath

Heteroatoms doped carbon decorated with tiny amount Pt nanoparticles as a bifunctional catalyst for hydrogen and chlorine generation from seawater

Fe3N decorated S/N doped carbon derived from a coordinated polymer as a bifunctional electrocatalyst for oxygen reduction and catecholamines oxidation

A review on the recent advancements in nanomaterials for nonenzymatic lactate sensing

Separation detection of saccharides in whole blood using an electrodynamic microfluidic channel sensor with AuCo dendrite-anchored conductive polymer

Catalytic SrMoO₄ nanoparticles and conducting polymer composite sensor for monitoring of K⁺-induced dopamine release from neuronal cells

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Khatun A. Jannath

Heteroatoms doped carbon decorated with tiny amount Pt nanoparticles as a bifunctional catalyst for hydrogen and chlorine generation from seawater

Fe3N decorated S/N doped carbon derived from a coordinated polymer as a bifunctional electrocatalyst for oxygen reduction and catecholamines oxidation

A review on the recent advancements in nanomaterials for nonenzymatic lactate sensing

Separation detection of saccharides in whole blood using an electrodynamic microfluidic channel sensor with AuCo dendrite-anchored conductive polymer

Catalytic SrMoO4 nanoparticles and conducting polymer composite sensor for monitoring of K+-induced dopamine release from neuronal cells

Contact Info

Product

Resources

About

Catalytic SrMoO₄ nanoparticles and conducting polymer composite sensor for monitoring of K⁺-induced dopamine release from neuronal cells