Your search keyword '"Dooryhee, E."' showing total 3 results

1. Fe K-edge XANES of Maya blue pigment

Author

del Rio MS, Eeckhout SG, Neisius T, Martinetto P, Dooryhee E, Reyes Valerio C, RI dooryhee eric/D 6815 2013, SODO, ARMIDA, del Rio, M, Sodo, Armida, Eeckhout, Sg, Neisius, T, Martinetto, P, Dooryhee, E, Reyes Valerio, C, and RI dooryhee eric/D 6815, 2013

Subjects

Nuclear and High Energy Physics, Materials science, Goethite, Mineralogy, Palygorskite, Hematite, Indigo, XANES, Pigment, Colourant, Silicate minerals, visual_art, visual_art.visual_art_medium, medicine, Instrumentation, Nuclear chemistry, medicine.drug

Abstract

The utilization of techniques used in Materials Science for the characterization of artefacts of interest for cultural heritage is getting more and more attention nowadays. One of the products of the ancient Maya chemistry is the “Maya blue” pigment, made with natural indigo and palygorskite. This pigment is different from any other pigment used in other parts of the world. It is durable and acid-resistant, and still keeps many secrets to scientists even though it has been studied for more than 50 years. Although the pigment is basically made of palygorskite Si8(Mg2Al2)O20(OH)2(OH2)4.4H2O and an organic colourant (indigo: C16H10N2O2), a number of other compounds have been found in previous studies on archaeological samples, like other clays and minerals, iron nanoparticles, iron oxides, impurities of transition metals (Cr, Mn, Ti, V), etc. We measured at the ESRF ID26 beamline the Fe K-edge XANES spectra of the blue pigment in ancient samples. They are compared to XANES spectra of Maya blue samples synthesized under controlled conditions, and iron oxides usually employed as pigments (hematite and goethite). Our results show that the iron found in ancient Maya blue pigment is related to the Fe exchanged in the palygorskite clay. We did not find iron in metallic form or goethite in archaeological Maya blue.

Published

2005

2. Superconducting Order from Disorder in 2H-TaSe$_{2-x}$S$_{x}$ (0$\leq$x$\leq$2)

Author

Li, Lijun, Deng, Xiaoyu, Wang, Zhen, Liu, Yu, Abeykoon, A. M. Milinda, Dooryhee, E., Tomic, A., Huang, Yanan, Warren, J. B., Bozin, E. S., Billinge, S. J . L., Sun, Y. P., Zhu, Yimei, Kotliar, G., and Petrovic, C.

Subjects

Superconductivity (cond-mat.supr-con), Condensed Matter - Materials Science, Condensed Matter - Superconductivity, Condensed Matter::Superconductivity, Materials Science (cond-mat.mtrl-sci), FOS: Physical sciences

Abstract

We report on the emergence of robust superconducting order in single crystal alloys of 2H-TaSe$_{2-x}$S$_{x}$ (0$\leq$x$\leq$2) . The critical temperature of the alloy is surprisingly higher than that of the two end compounds TaSe$_{2}$ and TaS$_{2}$. The evolution of superconducting critical temperature T$_{c} (x)$ correlates with the full width at half maximum of the Bragg peaks and with the linear term of the high temperature resistivity. The conductivity of the crystals near the middle of the alloy series is higher or similar than that of either one of the end members 2H-TaSe$_{2}$ and/or 2H-TaS$_{2}$. It is known that in these materials superconductivity (SC) is in close competition with charge density wave (CDW) order. We interpret our experimental findings in a picture where disorder tilts this balance in favor of superconductivity by destroying the CDW order., Comment: 24 pages, 4 figures, supplement. Nature Publishing Group Quantum Materials (in press)

Published

2016

3. Structure of thermal treated mechanically alloyed Fe50Cu50 studied by anomalous diffraction and EXAFS spectroscopy

Author

Pedro Gorria, Crespo, P., Barandiarán, J. M., Hernando, A., Garitaonandia, J. S., Hodeau, J. L., and Dooryhee, E.