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References (84)
-
R. Scholz, A. Roy, F. Brand, D. Hellums, Andrea Ulrich (2014)
Sustainable Phosphorus Management: A Global Transdisciplinary RoadmapSustainable Phosphorus Management
-
JA Barnett (2003)
510Yeast, 20
-
Guangyao Zhao, Fozia, Haibo Wen, Zhongmin Dai, Yanho Nie, Jianrong Jiang, Xu Xu, Ming Ying, Zhangli Hu, Hong Xu (2022)
Preparation of a Phosphate Ion-Selective Electrode Using One-Step Process Optimized with Response Surface Method and its Application in Real Sample DetectionsElectrocatalysis, 13
-
C. Alewell, B. Ringeval, C. Ballabio, D. Robinson, Panos Panagos, P. Borrelli (2020)
Global phosphorus shortage will be aggravated by soil erosionNature Communications, 11
-
C. Forano, Hani Farhat, C. Mousty (2018)
Recent trends in electrochemical detection of phosphate in actual watersCurrent Opinion in Electrochemistry
-
Jinxuan Zhang, Yixuan Bian, Di Liu, Zhiwei Zhu, Y. Shao, Meixian Li (2019)
Detection of Phosphate in Human Blood Based on a Catalytic Hydrogen Wave at a Molybdenum Phosphide Modified Electrode.Analytical chemistry
-
Xue Ding, M. Behbahani, C. Gruden, Youngwoo Seo (2015)
Characterization and evaluation of phosphate microsensors to monitor internal phosphorus loading in Lake Erie sediments.Journal of environmental management, 160
-
R. Scholz, A. Roy, D. Hellums (2014)
Sustainable Phosphorus Management: A Transdisciplinary Challenge -
Elmehdi Moumen, L. Bazzi, S. Hankari (2022)
Metal-organic frameworks and their composites for the adsorption and sensing of phosphateCoordination Chemistry Reviews
-
C. Barus, I. Romanytsia, N. Striebig, V. Garçon (2016)
Toward an in situ phosphate sensor in seawater using Square Wave Voltammetry.Talanta, 160
-
Alisha Prasad, Sushant Sahu, Sara Stofela, A. Chaichi, S. Hasan, W. Bam, K. Maiti, K. McPeak, G. Liu, M. Gartia (2021)
Printed Electrode for Measuring Phosphate in Environmental WaterACS Omega, 6
-
C. Warwick, A. Guerreiro, A. Soares (2013)
Sensing and analysis of soluble phosphates in environmental samples: a review.Biosensors & bioelectronics, 41
-
M. Gales, E. Julian, R. Kroner (1966)
Method for Quantitative Determination of Total Phosphorus in WaterJournal American Water Works Association, 58
-
A. Fadiran, S. Dlamini, A. Mavuso (2008)
A comparative study of the phosphate levels in some surface and ground water bodiesof SwazilandBulletin of The Chemical Society of Ethiopia, 22
-
Cihan Topcu, B. Caglar, Ahmet Onder, F. Coldur, Sema Çağlar, Eda Guner, Osman Çubuk, A. Tabak (2018)
Structural characterization of chitosan-smectite nanocomposite and its application in the development of a novel potentiometric monohydrogen phosphate-selective sensorMaterials Research Bulletin, 98
-
MB Emelko (2016)
1168Glob. Chang. Biol., 22
-
Z. Zou, Jungyoup Han, A. Jang, P. Bishop, C. Ahn (2007)
A disposable on-chip phosphate sensor with planar cobalt microelectrodes on polymer substrate.Biosensors & bioelectronics, 22 9-10
-
Hong Wei, Dawei Pan, Zhengwen Zhou, Haitao Han, R. Zhu (2021)
On-site electrochemical determination of phosphate with high sensitivity and anti-interference ability in turbid coastal waters.Ecotoxicology and environmental safety, 221
-
D. Hardie, Fiona Ross, S. Hawley (2012)
AMPK: a nutrient and energy sensor that maintains energy homeostasisNature Reviews Molecular Cell Biology, 13
-
M. Butusov, A. Jernelöv (2013)
Phosphorus: An Element that could have been called LuciferPhosphorus
-
Seyda Korkut, S. Göl, M. Kilic (2020)
Poly(pyrrole‐ co ‐pyrrole‐2‐carboxylic acid)/Pyruvate Oxidase Based Biosensor for Phosphate: Determination of the Potential, and Application in StreamsElectroanalysis
-
L. Campanella, M. Cordatore, F. Mazzei, M. Tomassetti (1990)
Determination of inorganic phosphate in drug formulations and biological fluids using a plant tissue electrode.Journal of pharmaceutical and biomedical analysis, 8 8-12
-
Vinay Patel, P. Kruse, P. Selvaganapathy (2022)
Review—Solid State Sensors for Phosphate Detection in Environmental and Medical DiagnosticsJournal of The Electrochemical Society
-
Unni Sivasankaran, L. Reinke, S. Anand, Kamila Malecka, K. Kumar, H. Radecka, S. Kubik, J. Radecki (2020)
Ultrasensitive electrochemical sensing of phosphate in water mediated by a dipicolylamine-zinc(II) complexSensors and Actuators B-chemical, 321
-
S. Vimalraj (2020)
Alkaline Phosphatase: Structure, Expression and its Function in Bone Mineralization.Gene
-
A. Whittaker (1978)
Carbon: A New View of Its High-Temperature BehaviorScience, 200
-
L. Shaver (2008)
Determination of Phosphates by the Gravimetric Quimociac Technique.Journal of Chemical Education, 85
-
S. Cinti, D. Talarico, G. Palleschi, D. Moscone, F. Arduini (2016)
Novel reagentless paper-based screen-printed electrochemical sensor to detect phosphate.Analytica chimica acta, 919
-
Kazunori IkebukuroA, Ryoko Nishida, Hiroyuki Yamamoto, Y. Arikawa, Hideaki Nakamura, Masayasu Suzuki, I. Kubo, T. Takeuchi, I. Karube (1996)
A novel biosensor system for the determination of phosphateJournal of Biotechnology, 48
-
M Tonelli (2005)
2627Circ. J., 112
-
M. Calvo, J. Uribarri (2013)
Contributions to Total Phosphorus Intake: All Sources ConsideredSeminars in Dialysis, 26
-
Y. Berner, M. Shike (1988)
Consequences of phosphate imbalance.Annual review of nutrition, 8
-
RG Gerritse (1984)
159J. Agric. Sci., 102
-
B. Grizzetti, F. Bouraoui, Alberto Aloe (2012)
Changes of nitrogen and phosphorus loads to European seasGlobal Change Biology, 18
-
ME Gales Jr (1966)
1363J. Am. WATER Work. Assoc., 58
-
Jingwen Xu, Zhida Gao, Xinran Dou, Yanyan Song (2021)
Needle-like Co3O4 nanoarrays as a dual-responsive amperometric sensor for enzyme-free detection of glucose and phosphate anionJournal of Electroanalytical Chemistry, 897
-
F. Shimizu, Anielli Pasqualeti, Caroline Nicoliche, A. Gobbi, Murilo Santhiago, R. Lima (2021)
Alcohol-Triggered Capillarity through Porous Pyrolyzed Paper-Based Electrodes Enables Ultrasensitive Electrochemical Detection of Phosphate.ACS sensors
-
M Peacock (2021)
4Calcif. Tissue Int., 108
-
Athanasios Kolliopoulos, Dimitrios Kampouris, C. Banks (2015)
Rapid and portable electrochemical quantification of phosphorus.Analytical chemistry, 87 8
-
Kebin Xu, Y. Li, Min Li (2021)
Potentiometric Phosphate Ion Sensor Based on Electrochemical Modified Tungsten ElectrodeACS Omega, 6
-
B Grizzetti (2012)
776Glob. Chang. Biol., 18
-
DS Baldwin (2013)
439J. Environ. Chem., 10
-
M. Peacock (2020)
Phosphate Metabolism in Health and DiseaseCalcified Tissue International, 108
-
N. Manjubaashini, Percy Sephra, K. Nehru, M. Sivakumar, T. Thangadurai (2019)
Electrochemical determination of ATP at rhodamine6G capped gold nanoparticles modified carbon felt electrode at pH 7.2Sensors and Actuators B: Chemical
-
Xiaochen Wang, Xiangmeng Ma, J. Church, Sunkook Jung, Y. Son, W. Lee, H. Cho (2017)
ZnO nanoflakes as a template for in-situ electrodeposition of nanostructured cobalt electrodes as amperometric phosphate sensorsMaterials Letters, 192
-
I. Kubo (2002)
Potentiometric phosphate-sensing system utilizing phosphate-binding proteinAnalytical and Bioanalytical Chemistry, 372
-
M. Rahman, Deog‐Su Park, Seung-Cheol Chang, C. McNeil, Y. Shim (2006)
The biosensor based on the pyruvate oxidase modified conducting polymer for phosphate ions determinations.Biosensors & bioelectronics, 21 7
-
Lynette Alvarado-Ramírez, M. Rostro-Alanís, J. Rodríguez-Rodríguez, J. Sosa-Hernández, Elda Melchor-Martínez, Hafiz Iqbal, R. Parra-Saldívar (2021)
Enzyme (Single and Multiple) and Nanozyme Biosensors: Recent Developments and Their Novel Applications in the Water-Food-Health NexusBiosensors, 11
-
M. Mazloum‐Ardakani, Najva Sadri, V. Eslami (2020)
Detection of Dexamethasone Sodium Phosphate in Blood Plasma: Application of Hematite in Electrochemical SensorsElectroanalysis, 32
-
Yanjie Zhang, P. Cremer (2006)
Interactions between macromolecules and ions: The Hofmeister series.Current opinion in chemical biology, 10 6
-
C Alewell (2020)
2Nat. Commun., 11
-
K. Föllmi (1996)
The phosphorus cycle, phosphogenesis and marine phosphate-rich depositsEarth-Science Reviews, 40
-
A. Sathasivan, S. Ohgaki, K. Yamamoto, N. Kamiko (1997)
Role of inorganic phosphorus in controlling regrowth in water distribution systemWater Science and Technology, 35
-
Solmaz Khoshniat, A. Bourgine, M. Julien, P. Weiss, J. Guicheux, L. Beck (2010)
The emergence of phosphate as a specific signaling molecule in bone and other cell types in mammalsCellular and Molecular Life Sciences, 68
-
R. Meruva, M. Meyerhoff (1996)
Mixed potential response mechanism of cobalt electrodes toward inorganic phosphate.Analytical chemistry, 68 13
-
B. Kharisov, O. Kharissova (2019)
Carbon Allotropes: Metal-Complex Chemistry, Properties and ApplicationsCarbon Allotropes: Metal-Complex Chemistry, Properties and Applications
-
S Vimalraj (2020)
7Gene, 754
-
F Krafft (1969)
660Angew. Chem. Int. Ed. Engl., 8
-
NC Hansen (2002)
408J. Soil Water Conserv., 57
-
M Butusov (2013)
v -
R. Rauti, Mattia Musto, S. Bosi, M. Prato, L. Ballerini (2019)
Properties and behavior of carbon nanomaterials when interfacing neuronal cells: How far have we come?Carbon
-
Zuliang Chen, R. Marco, P. Alexander (1997)
Flow-injection Potentiometric Detection of Phosphates Using a Metallic Cobalt Wire Ion-selective ElectrodeAnalytical Communications, 34
-
C. Bagnis, S. Karie, G. Deray, M. Essig (2008)
Hypophosphataemia: An Easy Strategy for Diagnosis and Treatment in HIV PatientsAntiviral Therapy, 14
-
(1954)
THE WORLD HEALTH ORGANIZATIONMedical Journal of Australia, 2
-
Kebin Xu, Binyu Wu, Junliang Wan, Y. Li, Min Li (2022)
A potentiometric phosphate ion sensor based on electrochemically modified nickel electrodeElectrochimica Acta
-
J. Pettifor (2008)
What’s new in hypophosphataemic rickets?European Journal of Pediatrics, 167
-
N. Conrath, B. Gründig, S. Hüwel, K. Cammann (1995)
A novel enzyme sensor for the determination of inorganic phosphateAnalytica Chimica Acta, 309
-
KB Föllmi (1996)
57Earth Sci. Rev., 40
-
Gabriel Kopiec, K. Starzec, J. Kochana, Troy Kinnunen-Skidmore, W. Schuhmann, W. Campbell, A. Ruff, N. Plumeré (2018)
Bioelectrocatalytic and electrochemical cascade for phosphate sensing with up to 6 electrons per analyte molecule.Biosensors & bioelectronics, 117
-
S. Ikeno, T. Haruyama (2005)
Biological phosphate ester sensing using an artificial enzyme PMP complexSensors and Actuators B-chemical, 108
-
A Sathasivan (1997)
37Water Sci. Technol., 35
-
F. Schubert, R. Renneberg, F. Scheller, L. Kirstein (1984)
Plant tissue hybrid electrode for determination of phosphate and fluorideAnalytical Chemistry, 56
-
G. Siebielec, Aleksandra Ukalska-Jaruga, P. Kidd (2018)
Bioavailability of Trace Elements in Soils Amended with High- Phosphate MaterialsPhosphate in Soils
-
Kebin Xu, Y. Kitazumi, K. Kano, O. Shirai (2018)
Phosphate ion sensor using a cobalt phosphate coated cobalt electrodeElectrochimica Acta
-
H. Komaba, M. Fukagawa (2016)
Phosphate-a poison for humans?Kidney international, 90 4
-
F. Krafft (1969)
Phosphorus. From elemental light to chemical element.Angewandte Chemie, 8 9
-
SO Engblom (1998)
981Biosens. Bioelectron., 13
-
RW Scholz (2014)
1 -
S Levitus (1993)
246Prog. Oceanogr., 31
-
L. Gilbert, A. Jenkins, S. Browning, J. Hart (2011)
Development of an amperometric, screen-printed, single-enzyme phosphate ion biosensor and its application to the analysis of biomedical and environmental samplesSensors and Actuators B-chemical, 160
-
M. Emelko, M. Stone, U. Siliņš, D. Allin, A. Collins, C. Williams, A. Martens, K. Bladon (2016)
Sediment‐phosphorus dynamics can shift aquatic ecology and cause downstream legacy effects after wildfire in large river systemsGlobal Change Biology, 22
-
Yinhuai Li, Taoqing Jiang, Xiaodong Yu, Huizhong Yang (2016)
Phosphate Sensor Using MolybdenumJournal of The Electrochemical Society, 163
-
Dan Zheng, D. Seferos, D. Giljohann, Pinal Patel, C. Mirkin (2009)
Aptamer nano-flares for molecular detection in living cells.Nano letters, 9 9
-
D. Xiao, Hongyan Yuan, Jun Li, R. Yu (1995)
Surface-modified cobalt-based sensor as a phosphate-sensitive electrodeAnalytical Chemistry, 67
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- Springer Journals
- Copyright
- Copyright © The Author(s), under exclusive licence to The Japan Society for Analytical Chemistry 2022. Springer Nature or its licensor (e.g. a society or other partner) holds exclusive rights to this article under a publishing agreement with the author(s) or other rightsholder(s); author self-archiving of the accepted manuscript version of this article is solely governed by the terms of such publishing agreement and applicable law.
- ISSN
- 0910-6340
- eISSN
- 1348-2246
- DOI
- 10.1007/s44211-022-00228-x
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Abstract
The determination of phosphate ions in biological testing is critical for environmental safety. A reliable and accurate method is required to measure the true phosphate ion concentrations; in this regard, the electrochemical method is preferable because of its simple operation, fast response, and high sensitivity. By compiling existing electroanalytical techniques, researchers can compare the advantages and disadvantages of each method. This review examines the progress and recent advances in electrochemical sensing strategies adapted for the determination of phosphate ions in the environmental and during biological monitoring. We first discuss the history of phosphorus and the development of methods to detect phosphates. The recognition elements of phosphate ion sensors for environmental applications include metal-based, nanomaterial-based, carbon-based, and enzymatic electrodes. Phosphate determination in biological samples, such as blood serum, drugs, and other biological fluids, such as urine and saliva, as well as phosphate esters, is also discussed. The final part of our review addresses the current challenges that phosphate sensing technology faces and illustrates future opportunities for more reliable phosphate detection.Graphical abstract[graphic not available: see fulltext]
Journal
Analytical Sciences – Springer Journals
Published: May 1, 2023
Keywords: Phosphate ion; Electrochemistry; Sensor; Environmental; Biological