Role of Metal–Organic Framework (MOF) for Pesticide Sensing

Chansi,; Bhardwaj, Rashi; Hadwani, Karan; Basu, Tinku

doi:10.1007/978-3-319-97852-9_4

Cited by 7 publications

(2 citation statements)

References 58 publications

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“…This sensor achieved a wide detection range of 4−100 ng L −1 (Figure 6E). 116 Song et al fabricated an electrochemical sensing platform for the detection of OPPs using MOF-derived MnO 2 /Mn 3 O 4 and Ti 3 C 2 MXene/AuNPs. The sensor exhibited a linear range for methamidophos from 10 −12 to 10 −6 M and an exceptionally low LOD of 1.34 × 10 −13 M (Figure 6F).…”

Section: Enzyme-mimicking Catalystsmentioning

confidence: 99%

Metal–Organic Framework-Enabled Sustainable Agrotechnologies: An Overview of Fundamentals and Agricultural Applications

Cui,

Li,

Tsyusko

et al. 2024

J. Agric. Food Chem.

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With aggravated abiotic and biotic stresses from increasing climate change, metal−organic frameworks (MOFs) have emerged as versatile toolboxes for developing environmentally friendly agrotechnologies aligned with agricultural practices and safety. Herein, we have explored MOF-based agrotechnologies, focusing on their intrinsic properties, such as structural and catalytic characteristics. Briefly, MOFs possess a sponge-like porous structure that can be easily stimulated by the external environment, facilitating the controlled release of agrochemicals, thus enabling precise delivery of agrochemicals. Additionally, MOFs offer the ability to remove or degrade certain pollutants by capturing them within their pores, facilitating the development of MOF-based remediation technologies for agricultural environments. Furthermore, the metal−organic hybrid nature of MOFs grants them abundant catalytic activities, encompassing photocatalysis, enzyme-mimicking catalysis, and electrocatalysis, allowing for the integration of MOFs into degradation and sensing agrotechnologies. Finally, the future challenges that MOFs face in agrotechnologies were proposed to promote the development of sustainable agriculture practices.

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Section: Enzyme-mimicking Catalystsmentioning

confidence: 99%

Metal–Organic Framework-Enabled Sustainable Agrotechnologies: An Overview of Fundamentals and Agricultural Applications

Cui,

Li,

Tsyusko

et al. 2024

J. Agric. Food Chem.

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“…Nanocomposites can react to these internal factors or external stimuli, such as temperature, magnetic field, and light. A comprehensive review of the existing literature has confirmed the substantial advantages of these intelligent nanoconjugates due to their ability to adapt during the drug transfer process [30,31]. Effectively addressing a substantial portion of obstacles in drug delivery can be achieved through the utilization of stimuli-activated metal-organic frameworks (MOFs).…”

Section: Introductionmentioning

confidence: 99%

A Comprehensive Review on Metal–Organic Frameworks for Stimuli-responsive-based Drug Delivery: Recent Advances and Future Trends

Patil,

Patel,

Shah

et al. 2024

Nano Biomedicine and Engineering

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Cancer treatment has witnessed the emergence of innovative stimuli-responsive nanotherapeutics aiming to overcome limitations associated with traditional drug delivery systems. Metal-organic frameworks (MOFs), a subset of inorganic nanomaterials, are known for their porous structures and versatile applications in integrated cancer diagnosis and therapy. Their noteworthy features include customizable porosity, diverse chemical configurations, adjustable sizes and shapes, and the potential for surface functionalization. The study delved into conventional cancer therapies, provided an overview of MOFs, and discussed various MOF synthesis approaches. Furthermore, this review explored the development of stimuli-responsive MOFs to enhance targeted drug delivery and bioimaging, improving the overall efficacy of cancer treatment, and investigated the applications of stimuli-responsive multifunctional MOFs in nanostructures activated by factors influencing precise drug delivery and bioimaging in cancers. pH, light, ions, temperature, magnetic field, redox reactions, and ATP contribute to the precise control of drug delivery and bioimaging processes. Designed multifunctional MOFs exhibit characteristic changes in response to external and internal stimuli, proving advantageous for drug release and bioimaging. Surface-modified MOFs with responsive features demonstrate excellent biocompatibility with noncancerous cells, efficient drug-loading capabilities, and nanocarrier-mediated targeted drug delivery to cancerous cells. Therefore, the innovative strategy of inorganic nanoscale MOFs with responsive properties holds significant promise for targeted therapeutic drug delivery and imaging across diverse malignancies. The growing interest in stimuli-activated MOFs will open new opportunities in cancer theragnostic applications.

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Nanostructured Platforms Integrated to Biosensors: Recent Applications in Agriculture

Palacios

Hoffmann

Regiart

et al. 2021

Concepts and Strategies in Plant Sciences

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Role of Metal–Organic Framework (MOF) for Pesticide Sensing

Cited by 7 publications

References 58 publications

Metal–Organic Framework-Enabled Sustainable Agrotechnologies: An Overview of Fundamentals and Agricultural Applications

Metal–Organic Framework-Enabled Sustainable Agrotechnologies: An Overview of Fundamentals and Agricultural Applications

A Comprehensive Review on Metal–Organic Frameworks for Stimuli-responsive-based Drug Delivery: Recent Advances and Future Trends

Nanostructured Platforms Integrated to Biosensors: Recent Applications in Agriculture

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