BEGIN:VCALENDAR VERSION:2.0 PRODID:-//wp-events-plugin.com//7.2.3.1//EN TZID:Europe/Berlin X-WR-TIMEZONE:Europe/Berlin BEGIN:VEVENT UID:16@crc-network-catalysis.de DTSTART;TZID=Europe/Berlin:20230817T091500 DTEND;TZID=Europe/Berlin:20230817T103000 DTSTAMP:20230726T151738Z URL:https://www.crc-network-catalysis.de/events/crc-247-colloquium-prof-si lvia-gross/ SUMMARY:CataLysis - Joint Colloquium: Prof. Silvia Gross DESCRIPTION:We are very happy to welcome within the Joint Online Colloquium Series of the CataLysis network:\nProf. Silvia Gross\nProfessor of Inorga nic Chemistry at the University of Padova\, Italy\n \;\n"Exploring the Chemical Parameters Space for the Low Temperature Sustainable and Rationa l Synthesis of Crystalline Inorganic Nanomaterials for Catalysis and Energ y Conversion"\n \nThe CataLysis Network cordially invites all who are int erested to the lecture.\nThe link to the video conference will be circulat ed within the CataLysis Network via E-Mail. \n \;\nAbstract\nThe poss ibility to orient and steer the chemico-physical and structural evolution of inorganic nanomaterials by tuning the experimental conditions of the sy nthesis is currently a major endeavour in the field of inorganic synthesis chemistry. In this framework\, the resort to unconventional synthesis con ditions discloses exciting perspectives in orienting\, inter alia\, the mo rphogenesis and the final structure of the crystalline materials. Analogou sly\, the paradigms of green and sustainable chemistry are currently catal ysing sharply growing interest in all fields of chemistry. In particular i norganic chemistry represents an exciting playground for the design and op timization of sustainable routes and the implementation of green chemistry paradigms to inorganic chemistry represents one of most bewitching develo pments.\nIn this framework\, in these last years\, in our group we have ex plored different low temperature (T<\; 150°C) and sustainable wet chemi stry and colloidal routes\, namely i. hydrothermal routes\, ii. miniemulsi on\, iii. microfluidic synthesis and iv. combination thereof\, to prepare different inorganic functional nanomaterials for heterogeneous catalysis a nd energy conversion in crystalline form\, by exploiting the unconventiona l experimental conditions disclosed by the different methods\, i.e. non st andard temperature and pressure in the former case\, the confined space in side the miniemulsion-generated droplets or in microchannels in the latter ones. The obtained materials ranged from ferrites [1] and manganites [2]\ , to pure and doped metal oxides\, sulphides\, and halogenides\, to metal/ metal oxide nanocomposites\, to supported metal nanoparticles. The adopted wet chemistry routes ranged from 1) miniemulsions [3] to 2) coprecipitati on combined with hydrothermal route to 3) microfluidic [4] and 4) classica l colloidal routes. Exciting results could be achieved by the combination of the above mentioned routes [5] and by a systematic exploration of the b road parameters landscape. The structural evolution as a function of time and temperature has been also followed by using different analytical metho ds. In view of a more sustainable approach to materials synthesis\, the sy nthetic efforts have been supported by Design of Experiments approaches [6 ]. This contribution provides an overview of the pros and cons of the prop osed routes for the obtainment of targeted inorganic colloids\, also outli ning as the role of a combination of analytical tools can unravel the comp lex interplay among experimental parameters and microstructure of the mate rials.\n\n S. Diodati\, S. Gross et al. Nano Res.\, 2014\, 7\, 1027-10422 \n A. Minelli\, S. Gross et al. J. Mater Chem C\, 2017\, 5\, 3359-3371\n P. Dolcet\, S. Gross et al. J Mater Chem\, 2012\, 22\, 1620-1626\n Tajoli F. et al. ACS Appl Mater Interfaces\, 2020\, 12\, 44074\n A. Antonello\, S. Gross et al. Chem Mater\, 2017\, 29\, 985-997\n C. Mazzariol\, L. Sal maso\, S. Gross et al. Sustainable Chemistry\, 2022\, 3(1)\, 114-130\n CATEGORIES:CataLysis Joint Online Colloquium END:VEVENT BEGIN:VTIMEZONE TZID:Europe/Berlin X-LIC-LOCATION:Europe/Berlin BEGIN:DAYLIGHT DTSTART:20230326T030000 TZOFFSETFROM:+0100 TZOFFSETTO:+0200 TZNAME:CEST END:DAYLIGHT END:VTIMEZONE END:VCALENDAR