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Critical Reviews in Analytical Chemistry Volume 28, 1998 - Issue 3
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Original Articles

Lead Analysis: Past and Present

Alanah Fitch Department of Chemistry, Loyola University Chicago, 6525 N. Sheridan Road, Chicago, Illinois 60626
Pages 267-345 | Published online: 03 Jun 2010

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Salim Ullah, Qurat ul ain Zahra, Mojtaba Mansoorianfar, Zahid Hussain, Ismat Ullah, Wenjing Li, Edward Kamya, Shah Mehmood, Renjun Pei & Jine Wang. (2022) Heavy Metal Ions Detection Using Nanomaterials-Based Aptasensors. Critical Reviews in Analytical Chemistry 0:0, pages 1-17.
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Elmorsy Khaled, Manal S. Kamel & H.N.A. Hassan. (2015) Novel Multi Walled Carbon Nanotubes /Crown Ether Based Disposable Sensors for Determination of Lead in Water Samples. Analytical Chemistry Letters 5:6, pages 329-337.
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Takashi Hayashita, Dai Qing, Richard A. Bartsch, Sadik Elshani, Robert E. Hanes & Norio Teramae. (2005) Lead Ion Selective Signal Amplification by a Supramolecular Podand Fluoroionophore/Surfactant Complex Sensor in Water. Supramolecular Chemistry 17:1-2, pages 141-146.
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Melissa M. Strait. (2004) Metals in the Pine River: An Undergraduate Field Research Experience. Spectroscopy Letters 37:3, pages 289-300.
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Articles from other publishers (28)

Yagmur Nur Cetinkaya, Onur Bulut, Huseyin Avni Oktem & M. Deniz Yilmaz. (2023) Fluorescent silica nanoparticles as nano-chemosensors for the sequential detection of Pb2+ ions and bacterial-spore biomarker dipicolinic acid (DPA) in aqueous solution. Spectrochimica Acta Part A: Molecular and Biomolecular Spectroscopy 303, pages 123222.
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Rehab O. El-Attar, Reda M. Abdelhameed & Elmorsy Khaled. (2023) Synthesis and Applications of Crown Ether-Linked Metal–Organic Framework Composite-Based Sensors for Stripping Voltammetric Determination of Lead. Arabian Journal for Science and Engineering.
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Anna N. Berlina, Nadezhda S. Komova, Anatoly V. Zherdev & Boris B. Dzantiev. (2021) Combination of phenylboronic acid and oligocytosine for selective and specific detection of lead(ii) by lateral flow test strip. Analytica Chimica Acta 1155, pages 338318.
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Hoang Nguyen, Ibrahim Misbah & Wei-Chuan Shih. (2020) Smartphone Nano-Colorimetry for On-Demand Multiplex Lead and Mercury Detection and Quantitation in Drinking Water. IEEE Sensors Journal 20:12, pages 6685-6691.
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Hoang Nguyen, Yulung Sung, Kelly O’Shaughnessy, Xiaonan Shan & Wei-Chuan Shih. (2018) Smartphone Nanocolorimetry for On-Demand Lead Detection and Quantitation in Drinking Water. Analytical Chemistry 90:19, pages 11517-11522.
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Tahir Rasheed, Muhammad Bilal, Faran Nabeel, Hafiz M.N. Iqbal, Chuanlong Li & Yongfeng Zhou. (2018) Fluorescent sensor based models for the detection of environmentally-related toxic heavy metals. Science of The Total Environment 615, pages 476-485.
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Keletso Orapeleng, Richard Wills & Andrew Cruden. (2017) Developing Electrolyte for a Soluble Lead Redox Flow Battery by Reprocessing Spent Lead Acid Battery Electrodes. Batteries 3:2, pages 15.
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Yu Ding, Weiping Zhu, Yufang Xu & Xuhong Qian. (2015) A small molecular fluorescent sensor functionalized silica microsphere for detection and removal of mercury, cadmium, and lead ions in aqueous solutions. Sensors and Actuators B: Chemical 220, pages 762-771.
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Samuel M. Rosolina, James Q. Chambers, Carlos W. Lee & Zi-Ling Xue. (2015) Direct determination of cadmium and lead in pharmaceutical ingredients using anodic stripping voltammetry in aqueous and DMSO/water solutions. Analytica Chimica Acta 893, pages 25-33.
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Mehdi Karimi, Alireza Badiei & Ghodsi Mohammadi Ziarani. (2015) A single hybrid optical sensor based on nanoporous silica type SBA-15 for detection of Pb 2+ and I − in aqueous media . RSC Advances 5:46, pages 36530-36539.
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Debasis Karak, Arnab Banerjee, Sisir Lohar, Animesh Sahana, Subhra Kanti Mukhopadhyay, Sushanta. S. Adhikari & Debasis Das. (2013) Xanthone based Pb 2+ selective turn on fluorescent probe for living cell staining . Anal. Methods 5:1, pages 169-172.
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Jeffrey Yan & Erik M. Indra. (2012) Colorimetric Method for Determining Pb 2+ Ions in Water Enhanced with Non-Precious-Metal Nanoparticles . Analytical Chemistry 84:14, pages 6122-6127.
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Erendra Manandhar & Karl J. Wallace. (2012) Host–guest chemistry of pyrene-based molecular receptors. Inorganica Chimica Acta 381, pages 15-43.
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Ha Na Kim, Wen Xiu Ren, Jong Seung Kim & Juyoung Yoon. (2012) Fluorescent and colorimetric sensors for detection of lead, cadmium, and mercury ions. Chem. Soc. Rev. 41:8, pages 3210-3244.
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Tanyu Cheng, Tao Wang, Weiping Zhu, Yangyang Yang, Bubing Zeng, Yufang Xu & Xuhong Qian. (2011) Modulating the selectivity of near-IR fluorescent probes toward various metal ions by judicious choice of aqueous buffer solutions. Chemical Communications 47:13, pages 3915.
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Jianqiang Wang, Sheng Chu, Fei Kong, Leilei Luo, Ying Wang & Zhigang Zou. (2010) Designing a smart fluorescence chemosensor within the tailored channel of mesoporous material for sensitively monitoring toxic heavy metal ions Pb(II). Sensors and Actuators B: Chemical 150:1, pages 25-35.
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Lijun Ma, Yue Li, Lei Li, Yuqing Wu, Rene Buchet & Yihong Ding. (2009) Clarification of the binding model of lead(II) with a highly sensitive and selective fluoroionophore sensor by spectroscopic and structural study. Spectrochimica Acta Part A: Molecular and Biomolecular Spectroscopy 72:2, pages 306-311.
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Karuvath Yoosaf, Binil Itty Ipe, Cherumuttathu H. Suresh & K. George Thomas. (2007) In Situ Synthesis of Metal Nanoparticles and Selective Naked-Eye Detection of Lead Ions from Aqueous Media. The Journal of Physical Chemistry C 111:34, pages 12839-12847.
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Li-Jun Ma & Yuqing Wu. (2007) FTIR Spectroscopic Study on the Interaction between a Fluoroionophore and Metal Ions. Analytical Sciences 23:7, pages 799-802.
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Yukiko Takahashi, Takashi Hayashita & Toshishige M. Suzuki. (2007) Test Strips for Lead(II) Based on a Unique Color Change of PVC-film Containing O-Donor Macrocycles and an Anionic Dye. Analytical Sciences 23:2, pages 147-150.
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Henryk Matusiewicz & Magdalena Krawczyk. (2006) Determination of cadmium and lead in reference materials by volatile species generation with in situ trapping flame atomic absorption spectrometry. Microchemical Journal 83:1, pages 17-23.
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Li-Jun Ma, Yi-Fu Liu & Yuqing Wu. (2006) A tryptophan-containing fluoroionophore sensor with high sensitivity to and selectivity for lead ion in water. Chemical Communications:25, pages 2702.
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Takashi Hayashita, Akiyo Yamauchi, Ai-Jun Tong, Jong Chan Lee, Bradley D. Smith & Norio Teramae. (2004) Design of Supramolecular Cyclodextrin Complex Sensors for Ion and Molecule Recognition in Water. Journal of Inclusion Phenomena and Macrocyclic Chemistry 50:1-2, pages 87-94.
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Takashi Hayashita, Akiyo Yamauchi, Ai-Jun Tong, Jong Chan Lee, Bradley D. Smith & Norio Teramae. (2004) Design of Supramolecular Cyclodextrin Complex Sensors for Ion and Molecule Recognition in Water. Journal Of Inclusion Phenomena 50:1-2, pages 87-94.
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Lüu Jian‐Quan, He Xi‐Wen, Zeng Xian‐Shun, Zhang Hai‐Li & Zhang Zheng‐Zhi. (2010) Anodic Stripping Voltammetric Determination of Lead (II) Using Glassy Carbon Electrode Modified with Novel Calix[4]arene. Chinese Journal of Chemistry 21:6, pages 687-692.
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Takashi Hayashita, Dai Qing, Masakazu Minagawa, Jong Chan Lee, Chang Hoe Ku & Norio Teramae. (2003) Highly selective recognition of lead ion in water by a podand fluoroionophore/γ-cyclodextrin complex sensor. Chem. Commun.:17, pages 2160-2161.
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Masakazu MINAGAWA, Takashi HAYASHITA, Qing DAI, Richard A. BARTSCH & Norio TERAMAE. (2002) Design of a podand fluoroionophore and its recognition function for lead ion.ポダンド型蛍光プローブの設計と鉛イオン認識機能. BUNSEKI KAGAKU 51:9, pages 681-687.
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Kevin C Honeychurch, John P Hart & David C Cowell. (2001) Voltammetric studies of lead at a 1-(2-pyridylazo)-2-naphthol modified screen-printed carbon electrode and its trace determination in water by stripping voltammetry. Analytica Chimica Acta 431:1, pages 89-99.
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