{"id":3616,"date":"2022-06-29T15:45:23","date_gmt":"2022-06-29T13:45:23","guid":{"rendered":"https:\/\/marte.i3a.es\/?p=3616"},"modified":"2023-06-08T11:04:09","modified_gmt":"2023-06-08T09:04:09","slug":"esperanza-garcia-ruiz","status":"publish","type":"post","link":"https:\/\/marte.i3a.es\/es\/esperanza-garcia-ruiz\/","title":{"rendered":"Esperanza Garc\u00eda Ruiz"},"content":{"rendered":"
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    Investigadores<\/a><\/h3>\n

    Esperanza Garc\u00eda Ruiz<\/strong><\/h1>\t\t\t<\/div>\n\t\t<\/div>\n\t\t\t\t<\/li>\n\t\t<\/ul>\t\t\t\t
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      Tel\u00e9fono:<\/strong> +34 876 553 503<\/p>\n

      Email:<\/strong> garciae@unizar.es<\/a><\/p>\n

      Direcci\u00f3n:<\/strong> c\/Pedro Cerbuna 12, Universidad de Zaragoza, Facultad de Ciencias, Departamento de Qu\u00edmica Anal\u00edtica \u2013 Zaragoza (Espa\u00f1a)<\/p>\n<\/div>\n<\/div><\/div><\/div><\/div><\/div>\n\n

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      17 registros<\/span> «<\/a> ‹<\/a> 1 de 4 ›<\/a> »<\/a> <\/div><\/div>

      2022<\/h3>

      Resano, M.; Aramend\u00eda, M.; Garc\u00eda-Ruiz, E.; Bazo, A.; Bolea-Fernandez, E.; Vanhaecke, F.<\/p>

      Living in a transient world: ICP-MS reinvented via time-resolved analysis for monitoring single events<\/a> Art\u00edculo de revista<\/span> <\/p>

      En: <\/span>Chem. Sci., <\/span>vol. 13, <\/span>iss. 16, <\/span>pp. 4436-4473, <\/span>2022<\/span>.<\/p>

      Resumen<\/a><\/span> | Enlaces<\/a><\/span> | BibTeX<\/a><\/span><\/p>

      @article{D1SC05452J,
      \r\ntitle = {Living in a transient world: ICP-MS reinvented via time-resolved analysis for monitoring single events},
      \r\nauthor = {M. Resano and M. Aramend\u00eda and E. Garc\u00eda-Ruiz and A. Bazo and E. Bolea-Fernandez and F. Vanhaecke},
      \r\nurl = {http:\/\/dx.doi.org\/10.1039\/D1SC05452J},
      \r\ndoi = {10.1039\/D1SC05452J},
      \r\nyear  = {2022},
      \r\ndate = {2022-01-01},
      \r\nurldate = {2022-01-01},
      \r\njournal = {Chem. Sci.},
      \r\nvolume = {13},
      \r\nissue = {16},
      \r\npages = {4436-4473},
      \r\npublisher = {The Royal Society of Chemistry},
      \r\nabstract = {After 40 years of development, inductively coupled plasma-mass spectrometry (ICP-MS) can hardly be considered as a novel technique anymore. ICP-MS has become the reference when it comes to multi-element bulk analysis at (ultra)trace levels, as well as to isotope ratio determination for metal(loid)s. However, over the last decade, this technique has managed to uncover an entirely new application field, providing information in a variety of contexts related to the individual analysis of single entities (e.g., nanoparticles, cells, or micro\/nanoplastics), thus addressing new societal challenges. And this profound expansion of its application range becomes even more remarkable when considering that it has been made possible in an a priori simple way: by providing faster data acquisition and developing the corresponding theoretical substrate to relate the time-resolved signals thus obtained with the elemental composition of the target entities. This review presents the underlying concepts behind single event-ICP-MS, which are needed to fully understand its potential, highlighting key areas of application (e.g., single particle-ICP-MS or single cell-ICP-MS) as well as of future development (e.g., micro\/nanoplastics).},
      \r\nkeywords = {},
      \r\npubstate = {published},
      \r\ntppubtype = {article}
      \r\n}
      \r\n<\/pre><\/div>
      Cerrar<\/a><\/p><\/div>
      After 40 years of development, inductively coupled plasma-mass spectrometry (ICP-MS) can hardly be considered as a novel technique anymore. ICP-MS has become the reference when it comes to multi-element bulk analysis at (ultra)trace levels, as well as to isotope ratio determination for metal(loid)s. However, over the last decade, this technique has managed to uncover an entirely new application field, providing information in a variety of contexts related to the individual analysis of single entities (e.g., nanoparticles, cells, or micro\/nanoplastics), thus addressing new societal challenges. And this profound expansion of its application range becomes even more remarkable when considering that it has been made possible in an a priori simple way: by providing faster data acquisition and developing the corresponding theoretical substrate to relate the time-resolved signals thus obtained with the elemental composition of the target entities. This review presents the underlying concepts behind single event-ICP-MS, which are needed to fully understand its potential, highlighting key areas of application (e.g., single particle-ICP-MS or single cell-ICP-MS) as well as of future development (e.g., micro\/nanoplastics).<\/div>
      Cerrar<\/a><\/p><\/div>