Molecular recognition for anion detection: Progress and environmental significance

Harsha Narkhede; Archana Tupe; Manoj Kumbhare; Ajaykumar Surana; Kanchan Khedkar

doi:10.1016/j.ipha.2025.07.001

Intelligent Pharmacy ›› 2025, Vol. 3 ›› Issue (6) :387 -400. DOI: 10.1016/j.ipha.2025.07.001

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Molecular recognition for anion detection: Progress and environmental significance

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Abstract

Supramolecular chemistry is the name given to the subfields of chemistry that deal with complex frameworks made up of a certain number of molecules. The host and visitor or guest involved in molecular recognition demonstrate molecular complementarity. Significant attention has been generated in the new year for the precise identification and detection of anion species using artificial sensors. Due to the fact that anion play a significant role in the climate or environment. Consideration of the type of non-covalent interaction used to complex the anion guest has allowed for the helpful classification of anion receptors. Calculation and simplicity are necessary for the plane of certain hosts for anion. Anion is important to the environment. Different detecting techniques have been discussed.

Keywords

Anion recognition / Colorimetry detection / Eutrophication / Molecular recognition / Supramolecular chemistry

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Harsha Narkhede, Archana Tupe, Manoj Kumbhare, Ajaykumar Surana, Kanchan Khedkar. Molecular recognition for anion detection: Progress and environmental significance. Intelligent Pharmacy, 2025, 3(6): 387-400 DOI:10.1016/j.ipha.2025.07.001

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References

Publishing order | Descend order by publishing year | Descend order by cited within

[1]	Evans NH , Beer PD . Advances in Anion Supramolecular Chemistry: From Recognition to Chemical Applications Angewandte. 2014: 2- 41.

[2]	Beer PD , Gale PA . Anion Recognition and Sensing:The State of the Art and Future Perspectives. 1996.

[3]	Shao J , Lin H , Lin H kuan . A Simple and Efficient Colorimetric Anion Sensor Based on a Thiourea Group in DMSO and DMSO-Water and its real-life Application. 75. 2008: 1015- 1020.

[4]	Gale PA , Busschaert N , Haynes CJE , Karagiannidis LE , Kirby IL . Anion receptor chemistry:highlights from 2011 and 2012. Chem Soc Rev. 2014; 43 (1): 205- 241.

[5]	J marie Lehn . Supramol Chem. 1986.

[6]	Jean-Marie Lehn . Supramolecular Chemistry: Concepts and Perspectives. 281 Pages.

[7]	Schneider H jörg . Binding Mechanisms in Supramolecular Complexes Angewandte. 2009: 3924- 3977.

[8]	Kumar D , Sharma D , Singh G , et al. Lipoidal soft hybrid biocarriers of supramolecular construction for drug delivery, 2012 Jan 1[cited 2025 May 23]. Int Sch Res Notices. 2012; (1): 474830.

[9]	Albrecht M . Supramolecular Chemistry-General Principles and Selected Examples from Anion Recognition and Metallosupramolecular Chemistry. 2007: 951- 966.

[10]	Baum G . ICATJONS Self-Assembly of a Circular Double Helicate. 1996: 1838- 1840.

[11]	Kurth DG . Metallo-Supramolecular Modules as a Paradigm for Materials Science*. 014103.

[12]	Bielawski C , Chen Y shek , Zhang P , Prest P jean , Moore JS . A Modular Approach to Constructing multi-site Receptors for Isophthalic Acid. 1998: 1313- 1314.

[13]	Thermodynamic O , General C , Raman A , Biological CS , Conformational S . Host-Guest Chemistry.

[14]	Meccano M . High yielding template-directed syntheses of[2] rotaxanes. Eur J Org Chem. 1998: 2565- 2571.

[15]	Review T . Electrochromic Materials Using Mechanically Interlocked Molecules. 2008.

[16]	Anderson S , Anderson HL , Bashall A , Mcpartlin M , Sanders JKM . Assembly and Crystal Structure of a Photoactive Array of Five Porphyrins " " Communlcatlons. 1995: 1096- 1099.

[17]	Schneider HJ . Applications of Supramolecular Chemistry. 2012.

[18]	Gale Philip A SWJ . In: Wiley, ed. Supramolecular Chemistry:From Molecules to Nanomaterials. 2012th ed. John Wiley & Sons C; 2012: 3978.

[19]	Society R . Books Catalogue 2016 Royal Society of Chemistry Book Series and Subject Sets. 2016.

[20]	Joyce LA , Shabbir SH , Anslyn EV . The uses of supramolecular chemistry in synthetic methodology development:examples of anion and neutral molecular recognition. Chem Soc Rev. 2010; 39 (10): 3621- 3632.

[21]	Choudhury R , Gupta S , Ramamurthy V . Deep-Cavity Cavitand Octa Acid as a Hydrogen Donor:Photofunctionalization with Nitrenes Generated from Azidoadamantanes. 2013.

[22]	Webber MJ , Appel EA , Meijer EW , Langer R . Supramolecular biomaterials. Nat Publ Group. 2016; 15 (1): 13- 26.

[23]	Rodríguez-vázquez N , Fuertes A , Amorín M , Granja JR . Bioinspired Artifi Cial Sodium and Potassium Ion Channels. 2016: 485- 556.

[24]	Bertrand N , Gauthier MA , Bouvet C , et al. New pharmaceutical applications for macromolecular binders. J Contr Release. 2011; 155 (2): 200- 210.

[25]	en.wikipedia.org/wiki/Supramolecular_chemistry#Data_storage_and_processing.

[26]	Lockett MR , Lange H , Breiten B , et al. Angewandte the Binding of Benzoarylsulfonamide Ligands to Human Carbonic Anhydrase is Insensitive to Formal Fluorination of the Ligand. 2013: 7714- 7717.

[27]	Brotin T , pierre Dutasta J . Cryptophanes and Their Complexes S Present and Future. 2009: 88- 130.

[28]	Kumar D , Sharma D , Singh G , Singh M , Rathore MS . Lipoidal soft hybrid biocarriers of supramolecular construction for drug delivery. ISRN Pharm. 2012; 2012: 1- 14.

[29]	Steed JW , Atwood JL . John Wiley & Sons.; 2009.

[30]	Zohoori FV , Duckworth RM . Fluoride:Intake and Metabolism, Therapeutic and Toxicological Consequences. Molecular, Genetic, and Nutritional Aspects of Major and Trace Minerals. Elsevier Inc.; 2017: 539- 550.

[31]	Thompson LJ . Fluoride. 3rd ed. Veterinary Toxicology. Elsevier Inc.; 2018: 429- 432.

[32]	Id HC , Yang ZK , Yip D , et al. One-Time Nitrogen Fertilization Shifts Switchgrass Soil Microbiomes Within a Context of Larger Spatial and Temporal Variation. 2019: 1- 23. research article.

[33]	Dinesh Puri . MEDICAL BIOCHEMISTRY. Third Edit. Elsevier Ltd; 2016: 735.

[34]	Malhotra VK . Biochemistry for Students. 12th ed. Jaypee Brothers, Medical Publishers (P) Ltd.; 2012: 420.

[35]	John H . Block. Inorganic, Medicinal and Pharmaceutical Chemistry. 1st ed. Verghese publishing house; 1986.

[36]	Laue W . Nitrates and Nitrites. 2000.

[37]	Maxwell CR , Spangenberg RJ , Hoek JB , Silberstein SD , Oshinsky ML . Acetate causes alcohol hangover headache in rats. PLoS One. 2010; 5 (12).

[38]	PBB. Work of the Statistical Commission pertaining to the 2030 Agenda for Sustainable Development. Global indicator framework for the Sustainable Development Goals and targets of the 2030 Agenda for Sustainable Development. 2017; 11371 (July): 4- 25.

[39]	Harvey. Lippincott's illustrated reviews. Pharmacology. 2011:608, 5th South Asian. Wolters Kluwer \| Lippincott Williams and Wilkins.

[40]	Chatterjee T . Tathagata chatterjee. Monocytes. In: Boyd's Text Book of Pathology. 10th ed. 2013. vols. 1, 2013.

[41]	Łukasik N . Wagner-wysiecka E. Recognition and Sensing of Anions.

[42]	Pandurangan K , Kitchen JA , Gunnlaugsson T . Tetrahedro n letters colorimetric ‘naked eye' sensing of anions using a thiosemicarbazide receptor: a case study of recognition through hydrogen bonding versus deprotonation. Tetrahedron Lett. 2013; 54 (22): 2770- 2775.

[43]	Busschaert N , Caltagirone C , Rossom W Van , Gale PA . Applications of Supramolecular Anion Recognition. 2015.

[44]	Wenzel M , Weigand JJ . Recent advances in anion recognition. J Inclusion Phenom Macrocycl Chem. 2017; 89 (3-4): 247- 251.

[45]	Naik P . Essentials of Biochemistry. Jaypee Brothers, Medical Publishers (P) Ltd.; 2016: 470.

[46]	Martins G , Silva WR , Nunes D , et al. Analytica Chimica Acta Novel Approaches for Colorimetric Measurements in Analytical Chemistry E A Review~O Fl a. 2020 (xxxx).

[47]	Awada A , Awada A . Scholarship at Uwindsor Methods Development for the Fluorescent Determination of Inorganic Phosphate and Phospho-Proteins. 2020.

[48]	Carstea EM , Bridgeman J , Baker A , Reynolds DM . Fluorescence spectroscopy for wastewater monitoring: a review. Water Res. 2016; 95: 205- 219.

[49]	Nakar A , Schmilovitch Z , Vaizel-ohayon D , Kroupitski Y , Borisover M , Saldinger SS . Quantification of bacteria in water using PLS analysis of emission spectra of fluorescence and excitation-emission matrices. Water Res. 2019: 115197.

[50]	Tognarelli JM , Dawood M , Shariff MIF , et al. Magnetic resonance spectroscopy: principles and techniques:lessons for clinicians. J Clin Experiment Hepatol. 2015; 5 (4): 320- 328.

[51]	Akæslæg Meinrath . Computer-Intensive SÆAIIIÆ. Application of cause-and-effect Analysis to Potentiometric Titration. 2005: 1652- 1661.

[52]	Yoder C . Yoder, claude (January 8, 2017). "Gravimetric Analysis". wiredchemist.com. Archived from the Original on January 7, 2017. 2017. Retrieved January 8, 2017.

[53]	Fuels P , Growth A . Nutrients:phosphorus, nitrogen sources. Impact Water Quality. 2008; (May).

[54]	Busschaert N , Caltagirone C , Van Rossom W , Gale PA . Applications of supramolecular anion recognition. Chem Rev. 2015; 115 (15): 8038- 8155.

[55]

Pinyorospathum C , Rattanarat P , Chaiyo S , Siangproh W . Sensors and actuators B: Chemical colorimetric sensor for determination of phosphate ions using antiaggregation of 2-mercaptoethanesulfonate-modi fi ed silver nanoplates and europium ions. Sensor Actuator B Chem. 2019; 290 (March): 226- 232.

[56]	Zeitoun R , Biswas A . Review-Potentiometric Determination of Phosphate Using Cobalt: A Review Review-Potentiometric Determination of Phosphate Using Cobalt: A Review. 2020.

[57]	Heidari-bafroui H , Ribeiro B , Charbaji A , Anagnostopoulos C . Portable infrared lightbox for improving the detection limits of paper-based phosphate devices. Measurement. 2020: 108607. August.

[58]	Salem JK , Draz MA . Selective colorimetric nano-sensing solution for the determination of phosphate ion in drinking water samples determination of phosphate ion in drinking water samples. Int J Environ Anal Chem. 2020; 00 (00): 1- 10.

[59]	Winkler D , Banke S , Kurz P . Fluorimetric detection of phosphates in water using a disassembly approach: a comparison of FeIII-, ZnII-, MnII-and MnIII-salen complexes. Zeitschrift fur Anorganische und Allgemeine Chemie. 2020; 646 (13): 933- 939.

[60]	Becker ED . Chemical shifts. High Resol NMR. 1969; 2 (V): 59- 85.

[61]	Hou X , James Kirkpatrick R , Yu P , Moore D , Kim Y . 15N NMR study of nitrate ion structure and dynamics in hydrotalcite-like compounds. Am Mineral. 2000; 85 (1): 173- 180.

[62]	Kingsley) RKH (Robin, Mann BE. NMR and the Periodic Table. London; New York. Academic Press; 1978:459.

[63]	en.wikipedia.org/wiki/Nitrate.

[64]	Moorcroft MJ , Davis J , Compton RG . Detection and Determination of Nitrate and Nitrite: A Review. 54. 2001: 785- 803.

[65]	Svoboda O , Slavíček P . Is nitrate anion photodissociation mediated by singlet-triplet absorption? J Phys Chem Lett. 2014; 5 (11): 1958- 1962.

[66]	Matei A , Racoviteanu G . Review of the technologies for nitrates removal from water intended for human consumption. IOP Conf Ser Earth Environ Sci. 2021; 664 (1).

[67]	Panchagnula S . Estimation of nitrates in water sample by colorimetry and potentiometry-a. Compar Study. 2016; 3 (2): 226- 227.

[68]	Szekely E . Communications in soil science and plant analysis A rapid colorimetric method for analysis of nitrate nitrogen by reduction to nitrite. 2016; 3624 (February).

[69]	Chapin FS . Principles of Terrestrial Ecosystem Ecology. 2011. new york.

[70]	Reichardt W , York S new , Verlag GF , Freiburg U . Einfiihrung in Die Methoden Der Gewassermikrobiologie. 1978.

[71]	Schindler DW , Vallentyne JR . Bowl THEA. David W. Schindler & John R. Vallentyne. 2008.

[72]	Morgane LM , G odoux Chantal , Alain M , Yves S , Alain L , Gilles P . Archimer eutrophication: a new wine in an old bottle. 2019; 651 (February): 1- 11.

[73]	Clair N . Sawyer. Basic concepts of eutrophication. Water Poll Con Feder. Vol. 38.

[74]	onlinesciencenotes.com/eutrophication-causes-effects-and-controlling-measures.

[75]	Smil V . P HOSPHORUS IN THE E NVIRONMENT: Natural Flows and Human Interferences. 2000: 53- 88.

[76]	Moss B . The Norfolk broadland:experiments in the restoration of a complex wetland. Biol Rev. 1983; 58 (4): 521- 561.

[77]	Wetzel R . Limnology. 3rd Editio. 2001.

[78]	Christian DS , P A . Piggot. Provided by the author(s) and university college Dublin library in accordance with publisher policies. Please cite the published version when available. Psychol Sport Exerc. 2015; 16 (1): 3- 14.

[79]	Whiteside MC . The Mythical Concept of Eutrophication. 1973.

[80]	Callisto M , Molozzi J . Eutrophication of Lakes. 2014.

[81]	en.wikipedia.org/wiki/Eutrophication.

[82]	Smil V . Enriching the Earth. The MIT Press; 2004.

[83]	Lewu FB , Volova Tatiana , Sabu Thomas RKR . Controlled Release Fertilizers for Sustainable Agriculture. Charlotte cockle; 2014.

[84]	Greenwood Ae NN . Chemistry of the Elements. 1997: 1364.

[85]	Route N . Production. 2000; (7).

[86]	Mbow C , Rosenzweig C , Barioni LG , et al. Food Security, Chapter 5. Special Report on Climate Change and Land. IPCC. Intergovernmental Panel on Climate Change; 2019. August.