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Analytical chemistry with biosolvents

Abstract

One of the current trends in green analytical chemistry is the introduction of green solvents, some of which are biobased. At the same time, the development of the biorefinery concept has allowed more biochemicals to be obtained with increased efficiency and from a wider range of feedstocks. The first examples of the use of biosolvents in analytical applications included extractions performed with alcohols, esters, and terpenes. However, many more applications of biosolvents in extractions of bioactive compounds from various plant materials have also been reported, which hints at a wider range of potential analytical applications of biosolvents. It should also be noted that the biobased solvents applied in analytical chemistry are not always green, as some of them are toxic towards aquatic organisms.

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Category:
Articles
Type:
artykuły w czasopismach
Published in:
ANALYTICAL AND BIOANALYTICAL CHEMISTRY no. 411, pages 4359 - 4364,
ISSN: 1618-2642
Language:
English
Publication year:
2019
Bibliographic description:
Tobiszewski M.: Analytical chemistry with biosolvents// ANALYTICAL AND BIOANALYTICAL CHEMISTRY -Vol. 411,iss. 19 (2019), s.4359-4364
DOI:
Digital Object Identifier (open in new tab) 10.1007/s00216-019-01732-2
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  1. Gałuszka A, Migaszewski Z, Namieśnik J. The 12 principles of green analytical chemistry and the SIGNIFICANCE mnemonic of green analytical practices. Trends Anal Chem. 2013;50:78-84. open in new tab
  2. Tobiszewski M, Namieśnik J, Pena-Pereira F. A derivatisation agent selection guide. Green Chem. 2017;19(24):5911-22. open in new tab
  3. Tobiszewski M, Tsakovski S, Simeonov V, Namieśnik J, Pena- Pereira F. A solvent selection guide based on chemometrics and multicriteria decision analysis. Green Chem. 2015;17(10):4773- 85. open in new tab
  4. Pena-Pereira F, Kloskowski A, Namieśnik J. Perspectives on the replacement of harmful organic solvents in analytical methodolo- gies: a framework toward the implementation of a generation of eco-friendly alternatives. Green Chem. 2015;17(7):3687-705. open in new tab
  5. Calvo-Flores FG, Monteagudo-Arrebola MJ, Dobado JA, Isac- García J. Green and bio-based solvents. Top Curr Chem. 2018;376(3):18. open in new tab
  6. Bubalo MC, Radošević K, Redovniković IR, Halambek J, Srček VG. A brief overview of the potential environmental hazards of ionic liquids. Ecotoxicol Environ Saf. 2014;99:1-12.
  7. Shishov A, Bulatov A, Locatelli M, Carradori S, Andruch V. Application of deep eutectic solvents in analytical chemistry. A review. Microchem J. 2017;135:33-8. open in new tab
  8. Espino M, de los Ángeles Fernández M, Gomez FJ, Silva MF. Natural designer solvents for greening analytical chemistry. TrAC Trends Anal Chem. 2016;76:126-36. open in new tab
  9. Herrero M, del Pilar Sanchez-Camargo A, Cifuentes A, Ibanez E. Plants, seaweeds, microalgae and food by-products as natural sources of functional ingredients obtained using pressurized liquid extraction and supercritical fluid extraction. TrAC Trends Anal Chem. 2015;71:26-38. open in new tab
  10. Gu Y, Jérôme F. Bio-based solvents: an emerging generation of fluids for the design of eco-efficient processes in catalysis and or- ganic chemistry. Chem Soc Rev. 2013;42(24):9550-70. open in new tab
  11. Grudpan K, Hartwell SK, Lapanantnoppakhun S, McKelvie I. The case for the use of unrefined natural reagents in analytical chemistry-a green chemical perspective. Anal Methods. 2010;2(11):1651-61. open in new tab
  12. Vanholme B, Desmet T, Ronsse F, Rabaey K, Van Breusegem F, De Mey M, et al. Towards a carbon-negative sustainable bio-based economy. Front Plant Sci. 2013;4:174. open in new tab
  13. Cherubini F. The biorefinery concept: using biomass instead of oil for producing energy and chemicals. Energy Convers Manag. 2010;51(7):412-1421. open in new tab
  14. Satari B, Karimi K. Citrus processing wastes: environmental im- pacts, recent advances, and future perspectives in total valorization. Resour Conserv Recycl. 2018;129:153-67. open in new tab
  15. Vian M, Breil C, Vernes L, Chaabani E, Chemat F. Green solvents for sample preparation in analytical chemistry. Curr Opin Green Sus Chem. 2017;5:44-8. open in new tab
  16. Kurian JK, Nair GR, Hussain A, Raghavan GV. Feedstocks, logis- tics and pre-treatment processes for sustainable lignocellulosic biorefineries: a comprehensive review. Renew Sust Energ Rev. 2013;25:205-19.
  17. Clark J, Deswarte F, Farmer T. The integration of green chemistry into future biorefineries. Biofuels Bioprod Biorefin. 2009;3(1):72- 90.
  18. Pereira CS, Silva VM, Rodrigues AE. Ethyl lactate as a solvent: properties, applications and production processes-a review. Green Chem. 2011;13(10):2658-71. open in new tab
  19. Kua YL, Gan S, Morris A, Ng HK. Ethyl lactate as a potential green solvent to extract hydrophilic (polar) and lipophilic (non-polar) phytonutrients simultaneously from fruit and vegetable by-prod- ucts. Sustain Chem Pharm. 2016;4:21-31. open in new tab
  20. Veillet S, Tomao V, Ruiz K, Chemat F. Green procedure using limonene in the Dean-Stark apparatus for moisture determination in food products. Anal Chim Acta. 2010;674(1):49-52. open in new tab
  21. Virot M, Tomao V, Ginies C, Visinoni F, Chemat F. Green proce- dure with a green solvent for fats and oils' determination: microwave-integrated Soxhlet using limonene followed by micro- wave Clevenger distillation. J Chromatogr A. 2008;1196:147-52. open in new tab
  22. Virot M, Tomao V, Ginies C, Chemat F. Total lipid extraction of food using D -limonene as an alternative to n-hexane. Chromatographia. 2008;68(3-4):311-3. open in new tab
  23. Zgoła-Grześkowiak A, Grześkowiak T. Dispersive liquid-liquid microextraction. Trends Anal Chem. 2011;30(9):1382-99. open in new tab
  24. Prat D, Wells A, Hayler J, Sneddon H, McElroy CR, Abou-Shehada S, et al. CHEM21 selection guide of classical-and less classical- solvents. Green Chem. 2015;18(1):288-96. open in new tab
  25. Farajzadeh MA, Goushjuii L. Study of menthol as a green extract- ant in dispersive liquid-liquid microextraction; application in ex- traction of phthalate esters from pharmaceutical products. Anal Methods. 2013;5(8):1975-82. open in new tab
  26. Tobiszewski M, Zabrocka W, Bystrzanowska M. Diethyl carbonate as green extraction solvent for chlorophenols determination with dispersive liquid-liquid microextraction. Anal Methods. 2019;11: 844-50. https://doi.org/10.1039/C8AY02683A. open in new tab
  27. Zhou T, Xiao X, Li G, Cai ZW. Study of polyethylene glycol as a green solvent in the microwave-assisted extraction of flavone and coumarin compounds from medicinal plants. J Chromatogr A. 2011;1218(23):3608-15. open in new tab
  28. Vieira AA, Caldas SS, Escarrone ALV, de Oliveira Arias JL, Primel EG. Environmentally friendly procedure based on VA-MSPD for the determination of booster biocides in fish tissue. Food Chem. 2018;242:475-80. open in new tab
  29. Cascant MM, Breil C, Garrigues S, de la Guardia M, Fabiano- Tixier AS, Chemat F. A green analytical chemistry approach for lipid extraction: computation methods in the selection of green solvents as alternative to hexane. Anal Bioanal Chem. 2017;409(14):3527-39. open in new tab
  30. Villanueva Bermejo D, Angelov I, Vicente G, Stateva RP, Rodriguez García-Risco M, Reglero G, et al. Extraction of thymol from different varieties of thyme plants using green solvents. J Sci Food Agric. 2015;95(14):2901-7. open in new tab
  31. Pangborn AB, Giardello MA, Grubbs RH, Rosen RK, Timmers FJ. Safe and convenient procedure for solvent purification. Organometallics. 1996;15(5):1518-20. open in new tab
  32. Hamiche S, Bouzidi N, Daghbouche Y, Badis A, Garrigues S, de la Guardia M, et al. Eucalyptol-based green extraction of brown alga Zonaria tournefortii. Sustain Chem Pharm. 2018;10:97-102. open in new tab
  33. Sicaire AG, Vian M, Fine F, Joffre F, Carré P, Tostain S, et al. Alternative bio-based solvents for extraction of fat and oils: solu- bility prediction, global yield, extraction kinetics, chemical compo- sition and cost of manufacturing. Int J Mol Sci. 2015;16(4):8430- 53. open in new tab
  34. de Jesus SS, Ferreira GF, Fregolente LV, Maciel Filho R. Laboratory extraction of microalgal lipids using sugarcane bagasse derived green solvents. Algal Res. 2018;35:292-300. open in new tab
  35. Breil C, Abert Vian M, Zemb T, Kunz W, Chemat F. BBligh and Dyer^and Folch methods for solid-liquid-liquid extraction of lipids from microorganisms. Comprehension of solvatation mecha- nisms and towards substitution with alternative solvents. Int J Mol Sci. 2017;18(4):708. open in new tab
  36. Tobiszewski M, Namieśnik J, Pena-Pereira F. Environmental risk- based ranking of solvents using the combination of a multimedia model and multi-criteria decision analysis. Green Chem. 2017;19(4):1034-42. open in new tab
  37. Häckl K, Kunz W. Some aspects of green solvents. C R Chim. 2018;21(6):572-80. open in new tab
  38. Jessop PG, Jessop DA, Fu D, Phan L. Solvatochromic parameters for solvents of interest in green chemistry. Green Chem. 2012;14(5):1245-59. open in new tab
  39. Jessop PG. Fundamental properties and practical applications of ionic liquids: concluding remarks. Faraday Discuss. 2017;206: 587-601. open in new tab
  40. Jin S, Byrne F, McElroy CR, Sherwood J, Clark JH, Hunt AJ. Challenges in the development of bio-based solvents: a case study on methyl (2,2-dimethyl-1,3-dioxolan-4-yl)methyl carbonate as an alternative aprotic solvent. Faraday Discuss. 2017;202:157-73. open in new tab
  41. Montazeri M, Zaimes GG, Khanna V, Eckelman MJ. Meta-analysis of life cycle energy and greenhouse gas emissions for priority biobased chemicals. ACS Sustain Chem Eng. 2016;4(12):6443-54. open in new tab
  42. Paggiola G, Stempvoort SV, Bustamante J, Barbero JMV, Hunt AJ, Clark JH. Can bio-based chemicals meet demand? Global and re- gional case-study around citrus waste-derived limonene as a solvent for cleaning applications. Biofuels Bioprod Biorefin. 2016;10(6): 686-98. open in new tab
  43. Levet A, Bordes C, Clément Y, Mignon P, Morell C, Chermette H, et al. Acute aquatic toxicity of organic solvents modeled by QSARs. J Mol Model. 2016;22(12):288. open in new tab
  44. Publisher's note Springer Nature remains neutral with regard to jurisdic- tional claims in published maps and institutional affiliations. open in new tab
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