Development and Application of Green or Sustainable Strategies in Analytical Chemistry
Analytical chemistry is bound to face growing challenges in the future, especially for the quantification of trace analytes in complex matrices. Although the development of increasingly sensitive and specific instrumental techniques has achieved remarkable results, sample preparation is still a fund...
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| Materialtyp: | Online |
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| Språk: | engelska |
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MDPI - Multidisciplinary Digital Publishing Institute
2023
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| Länkar: | ONIX_20230307_9783036566368_79 |
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| _version_ | 1869518537155936256 |
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| collection | Directory of Open Access Books |
| description | Analytical chemistry is bound to face growing challenges in the future, especially for the quantification of trace analytes in complex matrices. Although the development of increasingly sensitive and specific instrumental techniques has achieved remarkable results, sample preparation is still a fundamental step, often limiting the whole workflow. In the context spawned by the recent international environmental policies that are responsive to the rapport of human activities with the surrounding environment, chemistry cannot hesitate to give its contribution. Almost pioneeringly, in analytical chemistry, we have been talking for some time about “green analytical chemistry”, its guiding principles, and the development of eco-friendly analytical approaches. However, the new and still open challenge is advance not only in eco-compatibility but mainly in eco-sustainability, rooting the future of analytical chemistry in new perspective aimed at minimizing the environmental impact of the analytical process by placing environmental cost as a priority aim on par with analytical performance. This is the reprint of a Special Issue that includes contributions focused on the progress in analytical chemistry based on the arguments previously raised and discussed, with a particular reference to eco-compatibility and eco-sustainability. The contributions include the development of low environmental impact methods and/or techniques or their applications. |
| format | Online |
| id | doab-20.500.12854ir-98069 |
| institution | Directory of Open Access Books |
| language | eng |
| publishDate | 2023 |
| publishDateRange | 2023 |
| publishDateSort | 2023 |
| publisher | MDPI - Multidisciplinary Digital Publishing Institute |
| publisherStr | MDPI - Multidisciplinary Digital Publishing Institute |
| record_format | ojs |
| spelling | doab-20.500.12854ir-980692023-03-07T16:32:27Z Development and Application of Green or Sustainable Strategies in Analytical Chemistry Naccarato, Attilio dyes fatty acids microextraction magnetic ionic liquid sample preparation dispersive liquid–liquid microextraction single drop microextraction GC HPLC ionic liquids denitrogenation extraction pyridine quinoline aniline simulated oil adsorption gum Arabic magnetite nano-composite lead(II) mercury removal magnetic manganese cobalt iron spinel crosslinker phenolic acids vinylimidazole anion exchanger co-polymer solid-phase extraction sustainable analytical sample preparation indoor air quality fragrances indoor pollution endocrine disruptors analytical method GC-MS musks fragrances emerging contaminants α-isomethylionone halloysite nanotubes organosilyl-sulfonated halloysite nanotubes solid phase extraction pyrrolizidine alkaloids honey chlorzoxazone greener HPTLC paracetamol simultaneous detection validation AGREE traditional HPTLC vitamin D3 pulsed electric field bioactive compounds optimization mushrooms Agaricus bisporus phenyboronic-acid-functionalized Fe3O4 magnetic nanoparticles ortho-dihydroxy-containing compounds n/a Analytical chemistry is bound to face growing challenges in the future, especially for the quantification of trace analytes in complex matrices. Although the development of increasingly sensitive and specific instrumental techniques has achieved remarkable results, sample preparation is still a fundamental step, often limiting the whole workflow. In the context spawned by the recent international environmental policies that are responsive to the rapport of human activities with the surrounding environment, chemistry cannot hesitate to give its contribution. Almost pioneeringly, in analytical chemistry, we have been talking for some time about “green analytical chemistry”, its guiding principles, and the development of eco-friendly analytical approaches. However, the new and still open challenge is advance not only in eco-compatibility but mainly in eco-sustainability, rooting the future of analytical chemistry in new perspective aimed at minimizing the environmental impact of the analytical process by placing environmental cost as a priority aim on par with analytical performance. This is the reprint of a Special Issue that includes contributions focused on the progress in analytical chemistry based on the arguments previously raised and discussed, with a particular reference to eco-compatibility and eco-sustainability. The contributions include the development of low environmental impact methods and/or techniques or their applications. 2023-03-07T16:32:20Z 2023-03-07T16:32:20Z 2023 book ONIX_20230307_9783036566368_79 9783036566368 9783036566375 https://directory.doabooks.org/handle/20.500.12854/98069 eng image/jpeg Attribution 4.0 International https://mdpi.com/books/pdfview/book/6825 MDPI - Multidisciplinary Digital Publishing Institute 10.3390/books978-3-0365-6637-5 10.3390/books978-3-0365-6637-5 46cabcaa-dd94-4bfe-87b4-55023c1b36d0 9783036566368 9783036566375 208 Basel open access |
| spellingShingle | dyes fatty acids microextraction magnetic ionic liquid sample preparation dispersive liquid–liquid microextraction single drop microextraction GC HPLC ionic liquids denitrogenation extraction pyridine quinoline aniline simulated oil adsorption gum Arabic magnetite nano-composite lead(II) mercury removal magnetic manganese cobalt iron spinel crosslinker phenolic acids vinylimidazole anion exchanger co-polymer solid-phase extraction sustainable analytical sample preparation indoor air quality fragrances indoor pollution endocrine disruptors analytical method GC-MS musks fragrances emerging contaminants α-isomethylionone halloysite nanotubes organosilyl-sulfonated halloysite nanotubes solid phase extraction pyrrolizidine alkaloids honey chlorzoxazone greener HPTLC paracetamol simultaneous detection validation AGREE traditional HPTLC vitamin D3 pulsed electric field bioactive compounds optimization mushrooms Agaricus bisporus phenyboronic-acid-functionalized Fe3O4 magnetic nanoparticles ortho-dihydroxy-containing compounds n/a Development and Application of Green or Sustainable Strategies in Analytical Chemistry |
| title | Development and Application of Green or Sustainable Strategies in Analytical Chemistry |
| title_full | Development and Application of Green or Sustainable Strategies in Analytical Chemistry |
| title_fullStr | Development and Application of Green or Sustainable Strategies in Analytical Chemistry |
| title_full_unstemmed | Development and Application of Green or Sustainable Strategies in Analytical Chemistry |
| title_short | Development and Application of Green or Sustainable Strategies in Analytical Chemistry |
| title_sort | development and application of green or sustainable strategies in analytical chemistry |
| topic | dyes fatty acids microextraction magnetic ionic liquid sample preparation dispersive liquid–liquid microextraction single drop microextraction GC HPLC ionic liquids denitrogenation extraction pyridine quinoline aniline simulated oil adsorption gum Arabic magnetite nano-composite lead(II) mercury removal magnetic manganese cobalt iron spinel crosslinker phenolic acids vinylimidazole anion exchanger co-polymer solid-phase extraction sustainable analytical sample preparation indoor air quality fragrances indoor pollution endocrine disruptors analytical method GC-MS musks fragrances emerging contaminants α-isomethylionone halloysite nanotubes organosilyl-sulfonated halloysite nanotubes solid phase extraction pyrrolizidine alkaloids honey chlorzoxazone greener HPTLC paracetamol simultaneous detection validation AGREE traditional HPTLC vitamin D3 pulsed electric field bioactive compounds optimization mushrooms Agaricus bisporus phenyboronic-acid-functionalized Fe3O4 magnetic nanoparticles ortho-dihydroxy-containing compounds n/a |
| topic_facet | dyes fatty acids microextraction magnetic ionic liquid sample preparation dispersive liquid–liquid microextraction single drop microextraction GC HPLC ionic liquids denitrogenation extraction pyridine quinoline aniline simulated oil adsorption gum Arabic magnetite nano-composite lead(II) mercury removal magnetic manganese cobalt iron spinel crosslinker phenolic acids vinylimidazole anion exchanger co-polymer solid-phase extraction sustainable analytical sample preparation indoor air quality fragrances indoor pollution endocrine disruptors analytical method GC-MS musks fragrances emerging contaminants α-isomethylionone halloysite nanotubes organosilyl-sulfonated halloysite nanotubes solid phase extraction pyrrolizidine alkaloids honey chlorzoxazone greener HPTLC paracetamol simultaneous detection validation AGREE traditional HPTLC vitamin D3 pulsed electric field bioactive compounds optimization mushrooms Agaricus bisporus phenyboronic-acid-functionalized Fe3O4 magnetic nanoparticles ortho-dihydroxy-containing compounds n/a |
| url | ONIX_20230307_9783036566368_79 |