Electrochemical environmental pollutant detection enabled by waste tangerine peel-derived biochar

Qu, Ke; Hu, Xiao; Li, Qianlan

doi:10.1016/j.diamond.2022.109617

Cited by 12 publications

(3 citation statements)

References 56 publications

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“…Instead, electrochemical sensors have emerged as a family of versatile approaches to determine a variety of analytes, including environmental pollutants, − bacteria, and biomarkers, , as electrochemical sensors usually feature fast response, high specificity, high sensitivity, portability, low-cost fabrication, and easier miniaturization. A number of electrochemical sensors have been developed for sensitive detection of glycoproteins .…”

Section: Introductionmentioning

confidence: 99%

Electrochemical Impedimetric Platform Based on Con A@MIL-101 for Glycoprotein Detection

Li,

2024

Langmuir

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An electrochemical impedimetric biosensing platform with lectin as a molecular recognition element has been established for the sensitive detection of glycoproteins, a class of important biomarkers in clinical diagnosis. One of the representative metal−organic framework materials, MIL-101(Cr)-NH 2 , was utilized as the supporting matrix, and its amino groups served as the anchors to immobilize the lectins of concanavalin A (Con A), constituting Con A@MIL-101(Cr)-NH 2 for the determination of invertase (INV) as a model glycoprotein. The Con A concentration, immobilization time, and incubation time with INV were optimized. Under the optimal conditions, the degree of impedance increase was linearly proportional to the logarithm of INV concentration between 1.0 × 10 −16 and 1.0 × 10 −11 M, affording a limit of detection as low as 3.98 × 10 −18 M. Good specificity, stability, reproducibility, and repeatability were demonstrated for the fabricated biosensing platform. Moreover, real mouse serum samples were spiked with different concentrations of INV. Excellent recoveries were obtained, which demonstrated the biosensing platform's capability of analyzing glycoproteins within a complex matrix.

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Section: Introductionmentioning

confidence: 99%

Electrochemical Impedimetric Platform Based on Con A@MIL-101 for Glycoprotein Detection

Li,

2024

Langmuir

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“…This may elevate the problems associated with resource scarcity, climate warming, and environmental pollution. Therefore, it is important to develop environmentally friendly surface modification materials for electrodes to achieve “carbon peaking” and “carbon neutrality” globally 8–10 …”

Section: Introductionmentioning

confidence: 99%

“…Therefore, it is important to develop environmentally friendly surface modification materials for electrodes to achieve "carbon peaking" and "carbon neutrality" globally. [8][9][10] Biochar is a multifunctional environmental material that undergoes cracking under high-temperature and anaerobic conditions and can be converted into longterm stable carbon biochar from organic wastes such as agricultural wastes, animal wastes, and municipal wastes. The use of biochar has shown outstanding results in outstanding improvements in soil quality and the adsorption of environmental pollutants.…”

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confidence: 99%

Nitrogen‐doped biochar as an efficient sensing material for the electrochemical detection of heavy metal ion Pb²⁺ and Cd²⁺

Yang

Xin

Jiang

et al. 2023

Asia-Pacific J Chem Eng

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The sensitive detection of heavy metal ions with high toxicity and mobility is extremely important for environmental monitoring. In this study, nitrogen‐doped biochar (N‐BC) was synthesized using waste mushroom bran as a raw material, and nitrogen atoms were successfully doped onto the surface of the biochar via a facile process using an activation‐carbonation strategy. The functional groups on the surface of the biochar were enriched via doping, and the roughness of the biochar surface was significantly improved. Experimental results showed that N‐BC was an efficient sensing material for electroanalysis; therefore, it was used to construct a novel electrochemical sensing platform. The electrochemical response of the biochar‐modified working electrodes was effectively improved for the detection of heavy metals. Under optimized deposition potential, enrichment time, and pH, the N‐BC‐based sensing platform could detect Pb2+ and Cd2+ separately as well as simultaneously, indicating its significant potential for electrochemical sensing.

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One‐pot hydrothermal biochar obtained from malt bagasse waste as an electrode‐modifying material towards the stripping voltammetric sensing of lead

Dias da Silva,

Silva,

da Silva

et al. 2024

Electroanalysis

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Electrochemical environmental pollutant detection enabled by waste tangerine peel-derived biochar

Cited by 12 publications

References 56 publications

Electrochemical Impedimetric Platform Based on Con A@MIL-101 for Glycoprotein Detection

Electrochemical Impedimetric Platform Based on Con A@MIL-101 for Glycoprotein Detection

Nitrogen‐doped biochar as an efficient sensing material for the electrochemical detection of heavy metal ion Pb²⁺ and Cd²⁺

One‐pot hydrothermal biochar obtained from malt bagasse waste as an electrode‐modifying material towards the stripping voltammetric sensing of lead

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Electrochemical environmental pollutant detection enabled by waste tangerine peel-derived biochar

Cited by 12 publications

References 56 publications

Electrochemical Impedimetric Platform Based on Con A@MIL-101 for Glycoprotein Detection

Electrochemical Impedimetric Platform Based on Con A@MIL-101 for Glycoprotein Detection

Nitrogen‐doped biochar as an efficient sensing material for the electrochemical detection of heavy metal ion Pb2+ and Cd2+

One‐pot hydrothermal biochar obtained from malt bagasse waste as an electrode‐modifying material towards the stripping voltammetric sensing of lead

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Product

Resources

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Nitrogen‐doped biochar as an efficient sensing material for the electrochemical detection of heavy metal ion Pb²⁺ and Cd²⁺