Recent advances in luminescent metal-organic frameworks (L-MOFs) as sustainable materials for sensing of potentially toxic environmental ubiquitous explosive contaminants

Recent advances in luminescent metal-organic frameworks (L-MOFs) as sustainable materials for sensing of potentially toxic environmental ubiquitous explosive contaminants

Although, the explosive materials are crucial for homeland safety and defense systems, they impose severe side effects on the environment and human health. The residues or byproducts of these hazardous materials can contaminate the environment and implies acute chronic effects on humans as well as a...

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Veröffentlicht in:Sustainable Materials and Technologies 2024-12, Vol.42, p.e01155, Article e01155
Hauptverfasser: Asad, Muhammad, Anwar, Muhammad Imran, Miao, Baoji, Abbas, Ansar, Majeed, Saadat, Mir, Irshad Ahmad, Rabbani, Muhammad Saqib, Hussain, Sameer, Xu, Sankui, Al-Tahan, Mohammed A., Shao, Chuxiao, Wang, Shuanghu, Younas, Ayesha
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Sprache:eng
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Chemical sensing
Environmental monitoring
fluorescence
Fluorescent probes
forensic sciences
human health
Metal-organic frameworks (MOFs)
nitrates
Nitro-explosives
nitroalkanes
nitroaromatic compounds
pollution
toxicity
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container_issue
container_start_page e01155
container_title Sustainable Materials and Technologies
container_volume 42
creator Asad, Muhammad
Anwar, Muhammad Imran
Miao, Baoji
Abbas, Ansar
Majeed, Saadat
Mir, Irshad Ahmad
Rabbani, Muhammad Saqib
Hussain, Sameer
Xu, Sankui
Al-Tahan, Mohammed A.
Shao, Chuxiao
Wang, Shuanghu
Younas, Ayesha
description Although, the explosive materials are crucial for homeland safety and defense systems, they impose severe side effects on the environment and human health. The residues or byproducts of these hazardous materials can contaminate the environment and implies acute chronic effects on humans as well as animals. Hence, the ultrasensitive, low cost and convenient detection of widely used explosive compounds is highly desirable considering environmental pollution and increasing human health issues. Owing to their numerous features, luminescent metal-organic frameworks (L-MOFs) have gained much attention during the past few decades in the field of sensing with focus on national security, environmental monitoring, and forensic science. In this review, we have systematically described the detection of six kinds of widely used hazardous explosive compounds (nitroaromatics, nitramines, nitroalkanes, nitrate esters, peroxides and acid salts) using luminescent MOFs as the primary sensing material. The origin of fluorescence in MOFs, factors affecting the fluorescence, synthetic methods as well as various sensing mechanisms involved during the detection are discussed. Besides, most of the MOF based fluorescent probes reported in past decade for the detection of various explosive chemicals through diverse coordination interactions are summarized in tabular forms. Finally, the existing challenges and future prospects in the relevant research area are also discussed. [Display omitted] •MOFs have emerged as a pioneering class of luminescent material in the field of sensing.•The fluorescent probes based on MOFs for the detection of six kinds of widely used explosive compounds are summarized.•The origin of luminescence in MOFs, synthetic method and various sensing mechanisms are also discussed.•The current challenges and future prospects in the respective research area are also discussed.
doi_str_mv 10.1016/j.susmat.2024.e01155
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subjects Chemical sensing
Environmental monitoring
fluorescence
Fluorescent probes
forensic sciences
human health
Metal-organic frameworks (MOFs)
nitrates
Nitro-explosives
nitroalkanes
nitroaromatic compounds
pollution
toxicity
title Recent advances in luminescent metal-organic frameworks (L-MOFs) as sustainable materials for sensing of potentially toxic environmental ubiquitous explosive contaminants
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