Relevant bibliographies by topics / Anodic stripping voltammtry

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  1. Journal articles
  2. Dissertations / Theses
  3. Books
  4. Book chapters
  5. Conference papers

Academic literature on the topic 'Anodic stripping voltammtry'

Author: Grafiati
Published: 4 June 2021
Last updated: 13 February 2022

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Journal articles on the topic "Anodic stripping voltammtry"

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Bertazzoli, R., M. Ballester Santos, and E. Bresciani. "Tinplate anodic stripping voltammetry." Electrochimica Acta 36, no. 9 (1991): 1501–3. http://dx.doi.org/10.1016/0013-4686(91)85340-d.

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Fernando, Angelo Ransirimal, and Byron Kratochvil. "Internal standards in differential pulse anodic stripping voltammetry." Canadian Journal of Chemistry 69, no. 4 (1991): 755–58. http://dx.doi.org/10.1139/v91-111.

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The use of lead and cadmium as internal standards for each other in anodic stripping analysis was investigated. Although accuracy was not affected, precision was significantly improved. The surface active agents Triton-X 100 and starch affected the sensitivity of the anodic stripping procedure for lead and cadmium, leading to error if a calibration curve is used. Data for application of the procedure to the analysis of the marine biological reference material LUTS-1 and soil reference materials SO-2, SO-3, and SO-4 are provided. Key words: internal standard, anodic stripping voltammetry, calib
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Mazerie, Isabelle, and Florence Geneste. "Coupling of Anodic Stripping Voltammetry with Sampled-Current Voltammetry on an Electrode Array: Application to Lead Detection." Sensors 20, no. 5 (2020): 1327. http://dx.doi.org/10.3390/s20051327.

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Electrochemical detection systems are very promising for pollution monitoring owing to their easy miniaturization and low cost. For this purpose, we have recently developed a new concept of device based on Electrodes Array for Sampled-Current Voltammetry (EASCV), which is compatible with miniaturization and portability. In this work, to improve the sensitivity of the analytical method, we added a preconcentration step before EASCV analysis, combining sampled-current voltammetry with anodic stripping voltammetry. Lead was chosen as analyte for this probe of concept owing to its high toxicity. T
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Vicentebeckett, VA. "The Underpotential Adsorption/Deposition and Stripping of Mercury on Gold in Dilute Sulfuric Acid." Australian Journal of Chemistry 42, no. 12 (1989): 2107. http://dx.doi.org/10.1071/ch9892107.

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The underpotential deposition of mercury on gold was studied by potentiostatic techniques at a rotating gold ring-disc electrode. Underpotential mercury deposition occurred at potentials more positive than 680 mV (against a dynamic hydrogen electrode). Anodic stripping voltammetry at the disc with ring collection showed that a monolayer coverage of underpotential mercury was equivalent to approximately 370pc/cm2. The stripping process yielded several anodic peaks and produced largely HgII, at least 16% of which remained adsorbed on the bare gold electrode. Potential-step experiments at the dis
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Irdhawati, Irdhawati, Liana Sari, and Ida Ayu Raka Astiti Asih. "TEKNIK VOLTAMETRI PELUCUTAN ANODIK GELOMBANG PERSEGI UNTUK PENENTUAN KADAR LOGAM Cu DALAM KANGKUNG AIR." Jurnal Kimia Riset 1, no. 2 (2016): 122. http://dx.doi.org/10.20473/jkr.v1i2.3094.

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ABSTRAK Analisis logam berat Cu(II) dilakukan dengan metode voltametri pelucutan anodik gelombang persegi. Penelitian ini bertujuan untuk mengetahui validitas metode voltametri pelucutan anodik yang digunakan dalam pengukuran kadar logam Cu(II) dalam sampel kangkung air di muara sungai Badung. Elektroda glassy carbon digunakan sebagai elektroda kerja, Ag/AgCl sebagai elektroda pembanding, dan kawat platina sebagai elektroda pembantu. Parameter yang dioptimasi meliputi waktu deposisi dan laju pindai dalam larutan standar Cu(II) 500 ppb. Validasi metode ditentukan dengan menentukan rentang konse
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Navrátil, Tomáš, Jiří Barek, and Miloslav Kopanica. "Anodic stripping voltammetry using graphite composite solid electrode." Collection of Czechoslovak Chemical Communications 74, no. 11-12 (2009): 1807–26. http://dx.doi.org/10.1135/cccc2009107.

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A graphite (carbon) composite solid electrode, prepared from graphite powder and epoxy resin, was used as a working electrode for anodic stripping voltammetry. The underpotential deposition effect, which appears at metallic electrodes, was clearly observed on this type of electrode as well. In the case of a simultaneous deposition of two metals on the surface of the composite solid electrode, the anodic dissolution of the metal, which is anodically dissolved at more negative potentials, is substantially influenced by the presence of the other deposited metal. This effect was exploited for the
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Bezerra dos Santos, Vagner, Elson Luiz Fava, Osmundo Dantas Pessoa-Neto, Silmara Rossana Bianchi, Ronaldo Censi Faria, and Orlando Fatibello-Filho. "A versatile and robust electrochemical flow cell with a boron-doped diamond electrode for simultaneous determination of Zn2+ and Pb2+ ions in water samples." Anal. Methods 6, no. 21 (2014): 8526–34. http://dx.doi.org/10.1039/c4ay01811g.

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Xue, Huifeng, Jinwen Zheng, Qiaoyun Chen, Qingshui Wang, Yao Lin, and Jianchui Chen. "Ag+-coordinated oligonucleotides on gold nanoparticles for anodic-stripping voltammetric immunoassay of cancer antigen 125 for cervical carcinoma." Analytical Methods 11, no. 23 (2019): 2976–82. http://dx.doi.org/10.1039/c9ay00875f.

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Motkosky, Norine, Angelo Ransirimal Fernando, and Byron Kratochvil. "Elemental analysis of the marine biological reference material LUTS-1 by instrumental neutron activation, graphite furnace atomic absorption spectroscopy, and anodic stripping voltammetry." Canadian Journal of Chemistry 68, no. 5 (1990): 735–40. http://dx.doi.org/10.1139/v90-116.

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Marine biological reference material LUTS-1, lobster heptopancreas, was analyzed for elemental homogeneity using graphite furnace atomic absorption, anodic stripping voltammetry, and neutron activation analysis. Analysis of samples taken from 12 bottles of LUTS-1 bottled on two different days showed no statistical differences at the 95% confidence level for within-bottle variance for a large number of elements. Differences were observed for between-day variances for aluminum, iron, cobalt, sodium, chlorine, bromine, and iodine, but not at a level sufficient to affect utility as a reference mat
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Ustinova, Elvira M., Eduard Gorchakov, and Alina V. Melkova. "Monitoring the Palladium Contents in the Tailings Using Stripping Voltammetry." Key Engineering Materials 712 (September 2016): 328–31. http://dx.doi.org/10.4028/www.scientific.net/kem.712.328.

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Anodic stripping voltammetry, a classical electroanalytical method has been optimized to analyze trace Pd (II) in tailings. The authors identified the registration conditions in the determination of the analytical signal Pd (II): the composition of background electrolyte and the electrolysis potential. The electroanalytical approaches with an unmodified carbon electrode were used. The use of stripping voltammetry applied to the assessment of the palladium content in geological objects was demonstrated.
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Dissertations / Theses on the topic "Anodic stripping voltammtry"

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Hadjichari, Andrew Michael, University of Western Sydney, and School of Civic Engineering and Environment. "Determination of heavy metals on macro- and micro-electrodes by adsorptive cathodic stripping voltammetry and anodic stripping voltammetry." THESIS_XXXX_CEE_Hadjichari_A.xml, 1999. http://handle.uws.edu.au:8081/1959.7/602.

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This thesis describes the application of macro, micro, ultra-microelectrodes and microelectrode arrays to the measurement of trace concentrations of nickel and cobalt in sediment and natural waters by adsorptive cathodic stripping voltammetric methods. In addition the measurement of tin by adsorptive cathodic stripping voltammetry in sediment and natural waters is discussed. Also, the application of macroelectrodes and microelectrode arrays to the measurement of lead, cadmium and zinc in sediment and natural waters by anodic stripping voltammetry is considered. In all cases the determination o
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Hadjichari, Andrew Michael. "Determination of heavy metals on macro- and micro-electrodes by adsorptive cathodic stripping voltammetry and anodic stripping voltammetry /." View thesis, 1999. http://library.uws.edu.au/adt-NUWS/public/adt-NUWS20030828.122855/index.html.

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Thesis (Ph. D) -- University of Western Sydney, Nepean, 1999.<br>A thesis presented for the degree of Doctor of Philosophy, Centre for Electrochemical Research and Analytical Technology, University of Western Sydney, Nepean. Includes bibliographical references.
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Gonçalves, Vivia Ruth Abrantes. "DETERMINAÇÃO SIMULTÂNEA DE METAIS EM ÁLCOOL COMBUSTÍVEL UTILIZANDO VOLTAMETRIA DE REDISSOLUÇÃO ANÓDICA EM MEIO ÁCIDO." Universidade Federal do Maranhão, 2008. http://tedebc.ufma.br:8080/jspui/handle/tede/891.

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Made available in DSpace on 2016-08-19T12:56:30Z (GMT). No. of bitstreams: 1 Vivia Ruth Abrantes Goncalves.pdf: 252235 bytes, checksum: 3bf6fe972171ed66057ab5014847e3d9 (MD5) Previous issue date: 2008-02-12<br>Conselho Nacional de Desenvolvimento Científico e Tecnológico<br>Brazil is pioneering in the use of ethanol as combustible. It is a renewable fuel that is contributing for to reduce the levels of CO2 emission in the atmosphere, but that present contaminant such as Zn, Cu, Cd, Fe, Cl, Ni, Co e Pb metals. The presence of heavy metals in fuel ethanol is obtained in different steps as pr
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Manwaring, Howard Stephen. "The application of neural networks to anodic stripping voltammetry to improve trace metal analysis." Thesis, University of Hertfordshire, 1995. http://hdl.handle.net/2299/14150.

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This thesis describes a novel application of an artificial neural network and links together the two diverse disciplines of electroanalytical chemistry and information sciences. The artificial neural network is used to process data obtained from a Differential Pulse Anodic Stripping (DPAS) electroanalytical scan and produces as an output, predictions of lead concentration in samples where the concentration is less than 100 parts per billion. A comparative study of several post analysis processing techniques is presented, both traditional and neural. Through this it is demonstrated that by usin
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Verbickas, Rolandas. "Investigation of heavy metal determination using electroanalytical stripping analysis." Doctoral thesis, Lithuanian Academic Libraries Network (LABT), 2014. http://vddb.library.lt/obj/LT-eLABa-0001:E.02~2014~D_20140123_101755-89330.

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In this work the gallium and bismuth film plating in situ and ex situ processes were investigated. The metal film plating conditions for determination of heavy metals in water samples were optimized. When depositing Bi films on glassy carbon electrode it was found, that the addition of Br-1 changes the BiFE morphology making it more uniform and forming crystalline aggregates. The reoxidation peak of Bi was shifted to more negative potentials showing the electrocatalytic effect of bromide for the bismuth film. The addition of the other metal ions to the deposition solutions caused changes in th
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Silwana, Bongiwe. "Graphene supported antimony nanoparticles on carbon electrodes for stripping analysis of environmental samples." University of the Western Cape, 2015. http://hdl.handle.net/11394/5141.

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>Magister Scientiae - MSc<br>Platinum Group Metals (PGMs), particularly palladium (Pd), platinum (Pt) and rhodium (Rh) have been identified as pollutants in the environment due to their increased use in catalytic converters and mining in South Africa (as well as worldwide). Joining the continuous efforts to alleviate this dilemma, a new electrochemical sensor based on a nanoparticle film transducer has been developed to assess the level of these metals in the environment. The main goal of this study was to exploit the capabilities of nanostructured material for the development and application
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Martin, Tayla. "Determination of Thallium and Indium with an Electrochemically-reduced Graphene Oxide-Carbon Paste Electrode by Anodic Stripping Voltammetry." University of the Western Cape, 2018. http://hdl.handle.net/11394/6433.

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Magister Scientiae - MSc (Chemistry)<br>In this study, graphene oxide was synthesized by oxidizing graphite using the modified Hummer's method. The graphene oxide was characterized by Raman Spectroscopy, Fourier Transform Infrared Spectroscopy, High Resolution Transmission Electron Microscopy, Scanning Electron Microscopy and X-Ray Diffraction for structural and morphological properties. The graphene oxide was electrochemically reduced on a carbon paste electrode followed by the in situ deposition of mercury thin films to achieve electrochemically reduced graphene oxide modified carbon paste m
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Wilson, Robert. "Spectroelectrochemical Sensing and Detection of Zinc in Serum by Anodic Stripping Voltammerty on a Bismuth Film Electrode." University of Cincinnati / OhioLINK, 2011. http://rave.ohiolink.edu/etdc/view?acc_num=ucin1307320210.

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Jahed, Mohammed Nazeem. "The application of differential pulse anodic stripping voltammetry for the determination of copper, lead, zinc and cadmium in airborne particulate matter." Thesis, [S.l. : s.n.], 1995. http://dk.cput.ac.za/cgi/viewcontent.cgi?article=1007&context=td_ptech.

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Pokpas, Keagan William. "Graphene-modified pencil graphite bismuth-film electrodes for the determination of heavy metals in water samples using anodic stripping voltammetry." University of the Western Cape, 2013. http://hdl.handle.net/11394/4829.

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>Magister Scientiae - MSc<br>Electrochemical platforms were developed based on pencil graphite electrodes (PGEs) modified with electrochemically deposited graphene (EG) sheets and Nafion-graphene (NG) nanocomposites in conjunction with an in situ plated bismuth-film (EG-PG-BiE and NG-PG-BiE). The EG- and NG-PG-BiEs were used as sensing platforms for determining Zn2+, Cd2+ and Pb2+ by square wave anodic stripping voltammetry (SWASV). EG sheets were deposited onto pencil graphite electrodes by cyclic voltammetric reduction from a graphene oxide (GO) solution, while a dip coating method was used
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Books on the topic "Anodic stripping voltammtry"

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J, Rossiter Walter, United States. Office of Healthy Homes and Lead Hazard Control, and National Institute of Standards and Technology (U.S.), eds. Ultrasonic extraction/anodic stripping voltammetry for determining lead in household paint: A laboratory evaluation. U.S. Dept. of Commerce, Technology Administration, National Institute of Standards and Technology, 2001.

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Book chapters on the topic "Anodic stripping voltammtry"

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Street, Jimmy J., and William M. Peterson. "Anodic Stripping Voltammetry and Differential Pulse Polarography." In Agronomy Monographs. American Society of Agronomy, Soil Science Society of America, 2015. http://dx.doi.org/10.2134/agronmonogr9.2.2ed.c7.

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Doyle, Matthew J., Kenneth R. Wehmeyer, William R. Heineman, and H. Brian Halsall. "Immunoassay by Differential Pulse Polarography and Anodic Stripping Voltammetry." In Electrochemical Sensors in Immunological Analysis. Springer US, 1987. http://dx.doi.org/10.1007/978-1-4899-1974-8_7.

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Neto, Maria M. P. M., and Amarilis De Varennes. "Determination of lead in white lupin by anodic stripping voltammetry." In Optimization of Plant Nutrition. Springer Netherlands, 1993. http://dx.doi.org/10.1007/978-94-017-2496-8_4.

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Nayak, M. S., and S. S. Dhaktode. "Simultaneous Determination of Copper, Cadmium, Lead and Zinc in Indian Snuff Samples by Differential Pulse Anodic Stripping Voltammetry (DPASV)." In Contemporary Electroanalytical Chemistry. Springer US, 1990. http://dx.doi.org/10.1007/978-1-4899-3704-9_52.

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Daniele, S. "VOLTAMMETRY | Anodic Stripping." In Encyclopedia of Analytical Science. Elsevier, 2005. http://dx.doi.org/10.1016/b0-12-369397-7/00648-8.

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Lodge, James P. "Anodic Stripping Voltammetry (ASV)." In Methods of Air Sampling and Analysis. Routledge, 2017. http://dx.doi.org/10.1201/9780203747407-34.

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Kumar, Sunil, and Abhay Nanda Srivastva. "Application of Carbon Nanomaterials Decorated Electrochemical Sensor for Analysis of Environmental Pollutants." In Analytical Chemistry - Advancement, Perspectives and Applications. IntechOpen, 2021. http://dx.doi.org/10.5772/intechopen.96538.

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Carbon nanomaterials (CNMs), especially carbon nanotubes and graphene, have been attracting tremendous attention in environmental analysis for rapid and cost effective detection of various analytes by electrochemical sensing. CNMs can increase the electrode effective area, enhance the electron transfer rate between the electrode and analytes, and/or act as catalysts to increase the efficiency of electrochemical reaction, detection, adsorption and removal are of great significance. Various carbon nanomaterials including carbon nanotubes, graphene, mesoporous carbon, carbon dots exhibited high adsorption and detection capacity. Carbon and its derivatives possess excellent electro catalytic properties for the modified sensors, electrochemical methods usually based on anodic stripping voltammetry at some modified carbon electrodes. Metal electrode detection sensitivity is enhanced through surface modification of working electrode (GCE). Heavy metals have the defined redox potential. A remarkable deal of efficiency with the electrochemical sensors can be succeeded by layering the surface of the working electrode with film of active electro-catalytic species. Usually, electro catalysts used for fabrication of sensors are surfactants, nano-materials, polymers, carbon-based materials, organic ligands and biomaterials.
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Núñez, C., and V. Arancibia. "Arsenic determination by anodic stripping voltammetry using graphene screen-printed electrode." In Arsenic in the Environment - Proceedings. CRC Press, 2016. http://dx.doi.org/10.1201/b20466-116.

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Lamas, Pedro José, M. Begoña González, and Agustin Costa. "Procedure 46 Determination of gold by anodic stripping voltammetry in tap water." In Electrochemical Sensor Analysis. Elsevier, 2007. http://dx.doi.org/10.1016/s0166-526x(06)49089-9.

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A., Jos, Enrique Barrado, Marisol Vega, Yolanda Castrillejo, and Jos L.F.C. "Sequential Injection Anodic Stripping Voltammetry at Tubular Gold Electrodes for Inorganic Arsenic Speciation." In Electrochemical Cells - New Advances in Fundamental Researches and Applications. InTech, 2012. http://dx.doi.org/10.5772/35159.

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Conference papers on the topic "Anodic stripping voltammtry"

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Usha Rani, K. R., Rajani Katiyar, C. Manjunatha, Nivedita P. Birajadar, Likhita Likhita, and Punith K. "Heavy Metal-Ion Detection in Soil Using Anodic Stripping Voltammetry." In 2020 International Conference for Emerging Technology (INCET). IEEE, 2020. http://dx.doi.org/10.1109/incet49848.2020.9154169.

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Wang, Li, Gaoshan Jing, Wenshuai Lu, and Tianhong Cui. "Highly selective sensor for trace asenite determination using anodic stripping voltammetry." In 2016 IEEE 29th International Conference on Micro Electro Mechanical Systems (MEMS). IEEE, 2016. http://dx.doi.org/10.1109/memsys.2016.7421776.

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Lama, Franco, and Jimmy Tarrillo. "Remote acquisition of lead in water using Anodic Stripping Voltammetry method." In 2018 IEEE XXV International Conference on Electronics, Electrical Engineering and Computing (INTERCON). IEEE, 2018. http://dx.doi.org/10.1109/intercon.2018.8526419.

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Hayat, Mohammad, Tribidasari A. Ivandini, Endang Saepudin, and Yasuaki Einaga. "Anodic stripping voltammetry of synthesized CdS nanoparticles at boron-doped diamond electrodes." In INTERNATIONAL SYMPOSIUM ON CURRENT PROGRESS IN MATHEMATICS AND SCIENCES 2015 (ISCPMS 2015): Proceedings of the 1st International Symposium on Current Progress in Mathematics and Sciences. Author(s), 2016. http://dx.doi.org/10.1063/1.4946955.

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Mcgaw, Elizabeth A., Prerna Sonthalia, and Greg M. Swain. "Diamond Thin-Film Electrodes for Monitoring Heavy Metal Ions in Water Supplies Using Anodic Stripping Voltammetry." In International Conference On Environmental Systems. SAE International, 2005. http://dx.doi.org/10.4271/2005-01-2888.

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Burrows, G., and G. W. B. Consulting. "228. Accreditation of an Alternate Testing Procedure for the Analysis of Lead by Anodic Stripping Voltammetry." In AIHce 1997 - Taking Responsibility...Building Tomorrow's Profession Papers. AIHA, 1999. http://dx.doi.org/10.3320/1.2765356.

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Rossiter, W., B. Toman, M. McKnight, I. Emenanjo, and M. Baghai Anaraki. "117. Further Investigations of Factors Affecting Ultrasonic Extraction/Anodic Stripping Voltammetry Analysis of Lead in Paint." In AIHce 2003. AIHA, 2003. http://dx.doi.org/10.3320/1.2757783.

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Rossiter, W., B. Toman, M. McKnight, I. Emenanjo, and M. Baghai Anaraki. "135. Ultrasonic Extraction/Anodic Stripping Voltammetry for Determining Lead in Dust: Summary of a Laboratory Study." In AIHce 2004. AIHA, 2004. http://dx.doi.org/10.3320/1.2758105.

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Yan, Jinlong, and Guixiang Quan. "Binding Constants of Lead by Humic and Fulvic Acids Studied by Anodic Stripping Square Wave Voltammetry." In 2008 International Workshop on Geoscience and Remote Sensing (ETT and GRS). IEEE, 2008. http://dx.doi.org/10.1109/ettandgrs.2008.82.

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Yuliani, T., E. Saepudin, and T. A. Ivandini. "Anodic stripping voltammetry of Ni(OH)2 nanoparticles in acid solution using boron-doped diamond electrodes." In PROCEEDINGS OF THE 3RD INTERNATIONAL SYMPOSIUM ON CURRENT PROGRESS IN MATHEMATICS AND SCIENCES 2017 (ISCPMS2017). Author(s), 2018. http://dx.doi.org/10.1063/1.5064093.

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