41. Di Genova, D., Bondar, B., Zandonà, Al., Valdivia, P., Al-Mukadam, R.,  Fei, H., Withers, A.C., Boffa Ballaran, T., Kurnosov, A., McCammon, C., Deubener, J., Katsura., T., 2023. Viscosity of anhydrous and hydrous peridotite melts. Chemical Geology. Link.

40. Langhammer, D., Di Genova, D., Steinle-Neumann, G., 2022. Modelling viscosity of volcanic melts with artificial neural networks. Geochemistry, Geophysics, Geosystems. Link.

39. Scarani, A., Zandonà, A., Di Fiore, F. Valdivia, P., Putra, R., Miyajima, N., Bornhöft, H., Vona, A., Deubener, J., Romano, C., Di Genova, D., 2022. A chemical threshold controls nanocrystallization and degassing behaviour in basalt magmas. Nature Communications Earth & Environment. Link.

38. Arzilli, F., Polacci, M., La Spina, G., Le Gall, N, Llewellin, E., Brooker, R.A., Torres-Orozco, R., Di Genova, D., Neave, D., Hartley, M., Mader, H.M., Giordano, D., Atwood, R.C., Lee, P., Heidelbach, F., Burton, M., 2022. Dendritic crystallization in hydrous basaltic magmas controls magma mobility within the Earth’s crust. Nature Communications. Link.

37. Scarani, A., Vona, A., Di Genova, D., Al-Mukadam, R., Romano, C., Deubener, J, 2022. Determination of cooling rates of glasses over four orders of magnitude. Contributions to Mineralogy and Petrology. Link.

36. Bondar, D., Zandonà, A., Withers, A.C., Fei, H., Di Genova, D., Miyajima, N., Katsura, T., 2022. Rapid-quenching of high-pressure depolymerized hydrous silicate (peridotitic) glasses. Journal of Non-Crystalline Solids. Link.

35. Dingwell, D.B., Hess, K.-U., Wilding, M.C., Brooker, R.A., Di Genova, D., Drewitt, J.W.E.,  Wilson, M., Weidendorfer, D., 2022. The glass transition and the non-Arrhenian viscosity of carbonate melts. American Mineralogist. Link.

34. Langhammer, D., Di Genova, D., Steinle-Neumann, G., 2021. Modeling the viscosity of anhydrous and hydrous volcanic melts. Geochemistry, Geophysics, Geosystems. Link.

33. Cassetta, M., Di Genova, D.*, Zanatta, M., Boffa Ballaran, T., Kurnosov, A., Giarola M., Mariotto, G., 2021. Estimating the viscosity of volcanic melts from the vibrational properties of their parental glasses. Scientific Reports. *Corresponding author. Link.

32. Le Gall, N., Arzilli, F., La Spina, G., Polacci, M., Cai, B., Hartley, M., Vo, T. N., Atwood, R. C., Di Genova, D., Nonni, S., Llewellin, E.W., Burton, M., Lee, P., 2021. In situ quantification of crystallisation kinetics of plagioclase and clinopyroxene in basaltic magma: implications for lava flow. Earth and Planetary Science Letters. Link.

31. Stabile, P., Sicola, S., Giuli, G., Paris, E., Carroll, M.R., Deubener, J., Di Genova, D., 2021. The effect of iron and alkali on the nanocrystal-free viscosity of volcanic melts: A combined Raman spectroscopy and DSC study. Chemical Geology. Link.

30. La Spina, G., Arzilli, F., Llewellin, E.W., Burton, M., Clarke, A.B., de’ Michieli Vitturi, M., Polacci, M., Hartley, M., Di Genova, D., Mader, H.M., 2021. Explosivity of basaltic lava fountains is controlled by magma rheology, ascent rate and outgassing. Earth and Planetary Science Letters. Link.

29. Di Genova, D., Brooker, R.A., Mader, H.M., Drewitt, J.W.E., Longo, A., Deubener, J., et al., 2020. In situ observation of nanolite growth in volcanic melt: A driving force for explosive eruptions, Science Advances. Link.

28. Hughes, E.C., Buse, B., Kearns, S.L., Brooker, R.A., Di Genova, D., Kilgour, G., Mader, H.M., Blundy, J.D., 2020. The microanalysis of iron and sulphur oxidation states in silicate glass – Understanding the effects of beam damage, IOP Conference Series: Materials Science and Engineering. Link.

27. Di Genova, D., Zandona, A., Deubener, J., 2020. Unravelling the effect of nano-heterogeneity on the viscosity of silicate melts: Implications for glass manufacturing and volcanic eruptions, Journal of Non-Crystalline Solids 545, 120248. Link.

26. Dobson, K.J., et al., 2020. Quantifying microstructural evolution in moving magma, Frontiers in Earth Science. Link.

25. Al-Mukadam, R., Di Genova*, D., Bornhöft, H., Deubener, J., 2020. High rate calorimetry derived viscosity of oxide melts prone to crystallization. Journal of Non-Crystalline Solids, 536, 15. *Corresponding author. Link.

24. Bamber, E. C., Arzilli, F., Polacci, M., Hartley., M., Fellowes, J., Di Genova, D., Chavarria, C., Saballos, J.A., Burton, M., 2020. Pre- and syn-eruptive conditions of a basaltic Plinian eruption at Masaya Volcano, Nicaragua: The Masaya Triple Layer (2.1 ka). Journal of Volcanology and Geothermal Research, 392, 15. Link.

23. Arzilli, F., La Spina, G., Burton, M., Polacci, M., Le Gall, N, Hartley, M., Di Genova, D., Cai, B., Vo, N., Bamber., E., Nonni, S., Atwood, R.C., Llewellin, E.W., Brooker, R.A., Mader, H.M., Lee, P. 2019Highly explosive basaltic eruptions: magma fragmentation induced by rapid crystallisation. Nature Geoscience, 12, 1023–1028. Link.

22. Giordano, D., González-García, D., Russel, J.K., Raneri, S., Bersani, D., Fornasini, L., Di Genova, D., Ferrando, S.,  Kaliwoda, M., Lottici, P.P., Smit, M., Dingwell, D.B, 2019. A calibrated database of Raman spectra for natural silicate glasses: implications for modelling melt physical properties. Journal of Raman spectroscopy. Link.

21. Arzilli, F., Morgavi, D., Petrelli, M., Polacci, M., Burton, M., Di Genova, D., Spina, L., La Spina, G., Hartley, M. E.,  Romero, J. E., Fellowes, J., Diaz-Alvarado, J., Perugini, D., 2019. The unexpected explosive sub-Plinian eruption of Calbuco volcano (22–23 April 2015; southern Chile): Triggering mechanism implications. Journal of Volcanology and Geothermal Research, 378, 35–50. Link.

20. Di Genova, D., Caracciolo, A., Kolzenburg, S., 2018. Measuring the degree of “nanotilization” of volcanic glasses: Understanding syn-eruptive processes recorded in melt inclusions. Lithos, 318–319, 209-218. Link.

19. Hughes, E., Buse, B, Kearns, S.K., Di Genova D., Blundy, J., 2018. Analysis of Redox Changes in Silicate Glasses Using EPMA and Raman Spectroscopy. Microscopy and Microanalysis 24 (S1), 2022-2023. Link.

18. Fulignati, P. Gioncada, A., Costa, S., Di Genova D., Di Traglia, F., Pistolesi, M., 2018. Magmatic sulfide immiscibility at an active magmatic-hydrothermal system: the case of La Fossa (Vulcano, Italy). Journal of Volcanology and Geothermal Research, 358, 45–57. Link.

17. Polacci, M., Arzilli, F., La Spina, G., Le Gall, N., Cai, B., Hartley, M., Di Genova D., Vo, N., Nonni, S., Atwood, R., Llewellin, E., Lee, P., Burton, M. R., 2018. Crystallisation in basaltic magmas revealed via in situ 4D synchrotron X-ray microtomography. Scientific Reports, 8, 8377. Link.

16. Hughes, E., Buse, B, Kearns, S.K., Blundy, J., Kilgour, G., Mader, H., Brooker, R.A., Balzer, R., Botcharnikov, R., Di Genova, D., Almeev, R.R., Riker, J.M., 2018. High spatial resolution analysis of the Iron oxidation state in silicate glasses using the electron probe. American Mineralogist. Link.

15. Kolzenburg, S., Di Genova, D., Giordano, D., Hess, K.U., Dingwell, D.B., 2018. The effect of oxygen fugacity on the rheologic cut-off of basalts. Earth and Planetary Science Letters, 487, 21–32. Link.

14. Di Genova, D., Kolzenburg, S., Wiesmaier, S., Dallanave, E., Neuville, D., Hess, K.-U., Dingwell, D. B., 2017. A subtle chemical tipping point governing mobilization and eruption style of rhyolitic magma. Nature, 552, 235–238. Link.

13. Di Genova, D., Sicola, S., Romano, C., Vona, A., Fanara, S., 2017. Effect of iron and nanolites on Raman spectra of volcanic glasses: a reassessment of existing strategies to estimate the water content. Chemical Geology, 475, 76–86. Link.

12Di Genova, D., Vasseur, J., Hess, K.-U., Neuville, D. R., Dingwell, D. B., 2017. Effect of oxygen fugacity on the glass transition, viscosity and structure of silica- and iron-rich magmatic melts. Journal of non-crystalline solids, 470, 78–85. Link.

11Di Genova, D., Hess, K.-U., Chevrel, M. O., Dingwell, D. B., 2016. Models for the estimation of Fe3+/Fetot. ratio in terrestrial and extra-terrestrial alkali- and iron-rich silicate glasses using Raman spectroscopy. American Mineralogist, 101, 943–952. Link.

10. Spina, L., Cimarelli C., Scheu, B., Di Genova, D., Dingwell, D. B., 2016. On the decompressive response of volatile- and crystal-bearing magmas: an analogue experimental investigation. Earth and Planetary Science Letters, 433, 44–53. Link.

9Di Genova, D., Cimarelli, C., Hess, K.-U., Dingwell, D. B., 2016. An enhanced rotational rheometer system for highly fluid melts at high temperature. American Mineralogist, 101, 953–959. Link.

8Di Genova, D., Kolzenburg, S., Vona, A. Hess, K.-U., Chevrel, M. O., Neuville, D. R., Ingrisch, W. E., Romano, C., Dingwell, D. B., 2016. Raman spectra of Martian glass analogues: a tool to approximate their chemical composition. Journal of Geophysical Research Planets, 121, 5, 740–752. Link.

7. Yilmaz, T., Duschl, F., Di Genova D., 2016. Feathery and network-like filamentous textures as indicators for the crystallization of quartz from a silica gel precursor at the Rusey Fault, Cornwall, UK. Solid Earth Discussion, 7, 1509–1519. Link.

6Di Genova, D., Morgavi, D., Hess, K.-U., Neuville, D. N., Borovkov, N., Perugini, D., Dingwell, D. B., 2015. Approximate chemical analysis of volcanic glasses using Raman spectroscopy. Journal of Raman Spectroscopy. Journal of Raman Spectroscopy, 46, 12, 1235–1244. Link.

5. Giordano, D., Nichols, A.R.L., Potuzak, M., Di Genova, D., Romano, C., Russell, J.K, 2015. Heat capacity of hydrous trachybasalt from Mt Etna: comparison with CaAl2Si2O8 (An) – CaMgSi2O6 (Di) as basaltic proxy compositions. Contribution to Mineralalogy and Petrology, 170:48. Link.

4Di Genova, D., Romano, C., Giordano, D. Alletti, M., 2014. Heat capacity, configurational heat capacity and fragility of hydrous magmas. Geochimica et Cosmochimica Acta, 142, 314–333. Link.

3Di Genova, D., Romano, C., Alletti, M., Misiti, V., Scarlato, P., 2014. The effect of CO2 and H2O on Etna and Fondo Riccio (Phlegrean Fields) liquid viscosity, glass transition temperature and heat capacity. Chemical Geology, 377, 72–86. Link.

2Di Genova, D., Vona, A., Romano, C., Hess, K.U., Poe, B.T., Giordano, Dingwell, D.B., Behrens, H., 2013. The rheology of peralkaline rhyolites from Pantelleria Island. Journal of Volcanology and Geothermal Research, 249, 201–216. Link.

1. Poe, B.T., Romano, C., Di Genova, D., Behrens, H., Scarlato, P., 2012. Mixed electrical conduction in a hydrous pantellerite glass. Chemical Geology, 6, 320–321. Link.