Rapid on-site/in-situ detection of heavy metal ions in environmental water using a structure-switching DNA optical biosensor

Long, Feng; Zhu, Anna; Shi, Hanchang; Wang, Hongchen; Liu, Jingquan

doi:10.1038/srep02308

Cited by 126 publications

(64 citation statements)

References 30 publications

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“…Compared to traditional inorganic reagents, the more complex biological molecules allow for reagents with greater selectivity and less interference. Sensors with enzymes that can detect ppb levels of lead, uranium, copper, mercury, zinc, and cadmium have been developed [17][18][19]. In particular, DNA-based sensors have gained increasing attention due to the fact that some metal ions selectively bind to some bases to form stable metal-mediated DNA duplexes [20,21].…”

Section: Techniques For Onsite and Discrete Measurements Of Lead Levelsmentioning

confidence: 99%

Ion-Selective Electrodes for Detection of Lead (II) in Drinking Water: A Mini-Review

2018

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Despite the fact that the adverse health effects due to the intake of lead have been well studied and widely recognized, lead contamination in drinking water has been reoccurring worldwide, with some incidents escalating into a public drinking water crisis. As lead contamination is often related to lead-based pipes close to or inside homes, it is not realistic, at least in the near term, to remove and replace all lead connection pipes and lead-based plumbing. Effective monitoring of lead concentration at consumers' water taps remains critical for providing consumers with first-hand information and preventing potential wide-spread lead contamination in drinking water. This review paper examines the existing common technologies for laboratory testing and on-site measuring of lead concentrations. As the conventional analytical techniques for lead detection require using expensive instruments, as well as a high time for sample preparation and a skilled operator, an emphasis is placed on reviewing ion-selective electrode (ISE) technology due to its superior performance, low cost, ease of use, and its promising potential to be miniaturized and integrated into standalone sensing units. In a holistic way, this paper reviews and discusses the background, different types of ISEs are reviewed and discussed, namely liquid-contact ISEs and solid-contact ISEs. Along with the potential opportunities for further research, the limitations and unique challenges of ISEs for lead detection are also discussed in detail.

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Section: Techniques For Onsite and Discrete Measurements Of Lead Levelsmentioning

confidence: 99%

Ion-Selective Electrodes for Detection of Lead (II) in Drinking Water: A Mini-Review

2018

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“…A combination of a chemostat-like microfluidic platform and microbial biosensors facilitates molecular analyte detection on a chip (Kim et al, 2015). For the rapid detection of heavy metal ions, a DNA optical biosensor combined with evanescent wave analysis can enable in-situ detection (Long et al, 2013).…”

Section: Biosensors For Heavy Metals Detectionmentioning

confidence: 99%

Biosensors and their Applications in Food Safety: A Review

Yasmin¹,

Ahmed²,

Cho³

2016

Journal of Biosystems Engineering

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Background: Foodborne pathogens are a growing concern with respect to human illnesses and death. There is an increasing demand for improvements in global food safety. However, it is a challenge to detect and identify these harmful organisms in a rapid, responsive, suitable, and effective way. Results: Rapid developments in biosensor designs have contributed to the detection of foodborne pathogens and other microorganisms. Biosensors can automate this process and have the potential to enable fast analyses that are cost and time-effective. Various biosensor techniques are available that can identify foodborne pathogens and other health hazards. Conclusions: In this review, biosensor technology is briefly discussed, followed by a summary of foodborne pathogen detection using various transduction systems that exhibit specificity for particular foodborne pathogens. In addition, the recent application of biosensor technology to detect pesticides and heavy metals is briefly addressed.

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“…All these methods have their own limitations and are time consuming and convoluted. To overcome these limitations, there is urgent need to fabricate amperometric sensor which is a rapid technique, provide the accurate information, portable and cost effective analytical method 11 . For a definitive electrochemical biosensor there is need of a suitable receptor in the recognition layer, the receptor is a molecule that binds the marked object [12][13][14][15][16][17] .…”

Section: Introductionmentioning

confidence: 99%

Fabrication of Novel Amperometric Sensor for the Detection of Zinc Metal as an Environment Pollutant

2018

Chem Sci Trans

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Abstract:We have fabricated graphite, carbon nanotube (CNT) and conducting polymer (polyaniline) based electrochemical sensor for the detection of zinc metal as an environment pollutant. The electrochemical performance of amperometric sensor was tested by cyclic voltammetry, amperometry and linear sweep voltammetry experiments. The developed amperometric sensor displays good electrochemical activity towards the detection of zinc present in the environment. Storage and stability conditions were also tested. Fabricated non-enzymatic amperometric sensor was successfully used for the precise, sensitive and specific detection of zinc metal present as an environment pollutant.

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Rapid on-site/in-situ detection of heavy metal ions in environmental water using a structure-switching DNA optical biosensor

Cited by 126 publications

References 30 publications

Ion-Selective Electrodes for Detection of Lead (II) in Drinking Water: A Mini-Review

Ion-Selective Electrodes for Detection of Lead (II) in Drinking Water: A Mini-Review

Biosensors and their Applications in Food Safety: A Review

Fabrication of Novel Amperometric Sensor for the Detection of Zinc Metal as an Environment Pollutant

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