机译:荧光荧光素的H2O2耐耐受性:百倍丁铁(III)复合物和基于纳米技术的电化学方法揭示的蓝细胞外产品之间的协同作用
Department of Comparative Biomedicine and Food ScienceUniversity of PaduaLegnaro 35026 Italy;
Department of Comparative Biomedicine and Food ScienceUniversity of PaduaLegnaro 35026 Italy;
Regional Centre of Advanced Technologies and MaterialsPalacky University OlomoucOlomouc 77146 Czech Republic;
Department of Comparative Biomedicine and Food ScienceUniversity of PaduaLegnaro 35026 Italy;
Department of Comparative Biomedicine and Food ScienceUniversity of PaduaLegnaro 35026 Italy;
Department of Comparative Biomedicine and Food ScienceUniversity of PaduaLegnaro 35026 Italy;
Department of Comparative Biomedicine and Food ScienceUniversity of PaduaLegnaro 35026 Italy;
Regional Centre of Advanced Technologies and MaterialsPalacky University OlomoucOlomouc 77146 Czech Republic;
Regional Centre of Advanced Technologies and MaterialsPalacky University OlomoucOlomouc 77146 Czech Republic;
Department of Comparative Biomedicine and Food ScienceUniversity of PaduaLegnaro 35026 Italy;
机译:前盖:荧光荧光素中的H2O2耐受性:百倍的铁(III)复合物之间的协同作用和由基于纳米技术的电化学方法揭示的蓝色细胞外产品(ChemelectoChem 20/2019)
机译:荧光荧光素的H2O2耐耐受性:百倍丁铁(III)复合物和基于纳米技术的电化学方法揭示的蓝细胞外产品之间的协同作用
机译:荧光荧光素的H2O2耐耐受性:百倍丁铁(III)复合物和基于纳米技术的电化学方法揭示的蓝细胞外产品之间的协同作用
机译:用细胞色素p450模型激活二氧化碳。新型不对称四齿schiff碱配合物与铁(III)和钴(II)的表征和电化学研究