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Metal hydrides for smart window and sensor applications

  • K. Yoshimura (a1), C. Langhammer (a2) and B. Dam (a3)

Abstract

The hydrogenation of metals often leads to changes in optical properties in the visible range. This allows for fundamental studies of the hydrogenation process, as well as the exploration of various applications using these optical effects. Here, we focus on recent developments in metal hydride-based optical fiber and plasmonic sensors and smart windows. Both applications benefit from the existence of a reflective metallic state, which is lost on hydrogenation and allows for large reversible optical changes. In this article, we review the status of both technologies and their prospects for applications.

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1.Huiberts, J.N., Griessen, R., Rector, J.H., Wijngaarden, R.J., Dekker, J.P., de Groot, D.G., Koeman, N.J., Nature 380, 231 (1996).
2.Kerssemakers, J.W.J., van der Molen, S.J., Gunther, R., Dam, B., Griessen, R., Phys. Rev. B 65, 075417 (2002).
3.Hoekstra, A.F.Th., Roy, A.S., Rosenbaum, T.F., Griessen, R., Wijngaarden, R.J., Koeman, N.J., Phys. Rev. Lett. 86, 5349 (2001).
4.van Gogh, A.T.M., Nagengast, D.G., Kooij, E.S., Koeman, N.J., Rector, J.H., Griessen, R., Flipse, C.F.J., Smeets, R.J.J.G.A.M., Phys. Rev. B 63, 195105 (2001).
5.Olk, C.H., Tibbetts, G.G., Simon, D., Moleski, J.J., J. Appl. Phys. 94, 720 (2003).
6.Dam, B., Gremaud, R., Broedersz, C., Griessen, R., Scripta Mater. 56, 853 (2007).
7.Gremaud, R., Slaman, M., Schreuders, H., Dam, B., Griessen, R., Appl. Phys. Lett. 91, 231916 (2007).
8.Kalisvaart, W.P., Luber, E.J., Poirier, E., Harrower, C.T., Teichert, A., Wallacher, D., Grimm, N., Steitz, R., Fritzsche, H., Mitlin, D., J. Phys. Chem. C 116, 5868 (2012).
9.Mooij, L.P.A., Baldi, A., Boelsma, C., Shen, K., Wagemaker, M., Pivak, Y., Schreuders, H., Griessen, R., Dam, B., Adv. Energy Mater. 1, 754 (2011).
10.Northemann, K., Pundt, A., Phys. Rev. B 83, 155420 (2011); Y. Pivak, H. Schreuders, B. Dam, Crystals 2, 710 (2012).
11.Felderhoff, M., Bogdanović, B., Int. J. Mol. Sci. 10, 325 (2009).
12.Mardilovich, P.P., She, Y., Ma, Y.H., Rei, M.H., AlChE J. 44, 310 (1998).
13.Butler, M.A., Appl. Phys. Lett. 45, 1007 (1984); M.A. Butler, Sens. Actuators, B 22, 155 (1994).
14.Mercier, V.M.M., van der Sluis, P., Solid State Ionics 145, 17 (2001).
15.Armitage, R., Rubin, M., Richardson, T., O’Brien, N., Chen, Y., Appl. Phys. Lett. 75, 1863 (1999).
16.Jelle, B.P., Hynd, A., Gustavsen, A., Arasteh, D., Goudey, H., Hart, R., Sol. Energy Mater. Sol. Cells 96, 1 (2012).
17.Bange, K., Sol. Energy Mater. Sol. Cells 58, 1 (1999).
18.Janner, A.M., van der Sluis, P., Mercier, V., Electrochim. Acta 46, 2173 (2001).
19.Richardson, T.J., Slack, J.L., Armitage, R.D., Kostecki, R., Farangis, B., Rubin, M.D., Appl. Phys. Lett. 78, 3047 (2001).
20.Myers, W.R., Wang, L.-W., Richardson, T.J., Rubin, M.D., J. Appl. Phys. 91, 4879 (2002).
21.Blomqvist, H., Noreus, D., J. Appl. Phys. 91, 5141 (2002).
22.Yoshimura, K., Yamada, Y., Okada, M., Appl. Phys. Lett. 81, 4709 (2002).
23.Bao, S., Yamada, Y., Tajima, K., Okada, M., Yoshimura, K., Jpn. J. Appl. Phys. 46, L13 (2006).
24.Yamada, Y., Bao, S., Tajima, K., Okada, M., Yoshimura, K., Appl. Phys. Lett. 94, 191910 (2009).
25.Yoshimura, K., Yamada, Y., Bao, S., Okada, M., Jpn. J. Appl. Phys. 46, 4260 (2007).
26.Bao, S., Yamada, Y., Okada, M., Yoshimura, K., Jpn. J. Appl. Phys. 45, L588 (2006).
27.Bao, S., Yamada, Y., Tajima, K., Okada, M., Yoshimura, K., Sol. Energy Mater. Sol. Cells 93, 1642 (2009).
28.Tajima, K., Yamada, Y., Bao, S., Okada, M., Yoshimura, K., Electrochem. Solid-State Lett. 10, J52 (2007).
29.Tajima, K., Yamada, Y., Bao, S., Okada, M., Yoshimura, K., Appl. Phys. Lett. 91, 51908 (2007).
30.Tajima, K., Yamada, Y., Yoshimura, K., J. Electrochem. Soc. 154, J267 (2007).
31.Tajima, K., Yamada, Y., Bao, S., Okada, M., Yoshimura, K., Appl. Phys. Lett. 92, 41912 (2008).
32.Yamada, Y., Bao, S., Tajima, K., Okada, M., Yoshimura, K., Roos, A., Sol. Energy Mater. Sol. Cells 92, 1617 (2008).
33.Yoshimura, K., Yamada, Y., Bao, S., Tajima, K., Okada, M., Sol. Energy Mater. Sol. Cells 93, 2138 (2009).
34.Georg, A., Graf, W., Schweiger, D., Wittwer, V., Nitz, P., Wilson, H.R., Sol. Energy 62, 215 (1998).
35.Wagus, C., Guarr, T., Berman, J., Hayes, C., Myser, M., Durschinger, J., Ander, G., Demiryont, H., Settlemyre, K., Hughes, G., Thurm, D., Levi, M., Mifflin, T., “Advancement of Electrochromic Windows” (Pier Final Project Report of California Energy Commission, CEC-500–2006–052, 2006).
36.Hübert, T., Boon-Brett, L., Black, G., Banach, U., Sens. Actuators, B 157, 329 (2011).
37.Westerwaal, R., Duim, N., Nieuwenhuijse, I., Perrotton, C., Dabirian, A., van Leeuwen, J.M., Palmisano, V., Dam, B., Sens. Actuators, B 165, 88 (2012).
38.Slaman, M., Dam, B., Pasturel, M., Borsa, D.M., Schreuders, H., Rector, J.H., Griessen, R., Sens. Actuators, B 123, 538 (2007).
39.Gremaud, R., Baldi, A., Gonzalez-Silveira, M., Dam, B., Griessen, R., Phys. Rev. B 77 144204 (2008).
40.Slaman, M., Westerwaal, R., Schreuders, H., Dam, B., Proc. SPIE 8368, 836805 (2012).
41.Kreibig, U., Vollmer, M., Optical Properties of Metal Clusters (Springer-Verlag, Berlin/Heidelberg, 1995), vol. 25.
42.Langhammer, C., Larsson, E.M., ACS Catal. 2, 2036 (2012).
43.Bevenot, X., Troullet, A., Veillas, C., Gagnaire, H., Clement, M., Meas. Sci. Technol. 13, 118 (2002).
44.Chadwick, B., Gal, M., Appl. Surf. Sci. 68, 135 (1993).
45.Perrotton, C., Westerwaal, R.J., Javahiraly, N., Slaman, M., Schreuders, H., Dam, B., Meyrueis, P., Opt. Express 41, 382 (2013).
46.Zoric, I., Zäch, M., Kasemo, B., Langhammer, C.G., ACS Nano 5, 2535 (2011).
47.Englebienne, P., Analyst 123, 1599 (1998).
48.Anker, J.N., Hall, W.P., Lyandres, O., Shah, N.C., Zhao, J., Van Duyne, R.P., Nat. Mater. 7, 442 (2008).
49.McFarland, A.D., Van Duyne, R.P., Nano Lett. 3, 1057 (2003).
50.Langhammer, C., Larsson, E.M., Kasemo, B., Zoric, I., Nano Lett. 10, 3529 (2010).
51.Larsson, E.M., Langhammer, C., Zoric, I., Kasemo, B., Science 326, 1091 (2009).
52.Langhammer, C., Zhdanov, V.P., Zoric, I., Kasemo, B., Phys. Rev. Lett. 104, 135502 (2010).
53.Langhammer, C., Zoric, I., Kasemo, B., Clemens, B.M., Nano Lett. 7, 3122 (2007).
54.Shegai, T., Johansson, P., Langhammer, C., Kall, M., Nano Lett. 12, 2464 (2012).
55.Shegai, T., Langhammer, C., Adv. Mater. 23, 4409 (2011).
56.Zoric, I., Larsson, E.M., Kasemo, B., Langhammer, C., Adv. Mater. 22, 4628 (2010).
57.Liu, N., Tang, M.L., Hentschel, M., Giessen, H., Alivisatos, A.P., Nat. Mater. 10, 631 (2011).
58.Tang, M.L., Liu, N., Dionne, J.A., Alivisatos, A.P., J. Am. Chem. Soc. 133, 13220 (2011).
59.Ameen Poyli, M., Silkin, V.M., Chernov, I.P., Echenique, P.M., Diez Muino, R., Aizpurua, J., J. Phys. Chem. Lett. 3, 2556 (2012).
60.Tittl, A., Kremers, C., Dorfmuller, J., Chigrin, D.N., Giessen, H., Opt. Mater. Express 2, 111 (2012); A. Tittl, P. Mai, R. Taubert, D. Dregely, N. Liu, H. Giessen, Nano Lett. 11, 4366 (2011).
61.Shegai, T., Chen, S., Miljkovic, V.D, Zengin, G., Johansson, P., Kall, M.A., Nat. Commun. 2, 481 (2011).
62.Mongstad, T., Platzer-Bjorkman, Ch., Maehlen, J.P., Mooij, L.P.A., Pivak, Y., Dam, B., Marstein, E.S., Hauback, B.C., Karazhanov, S.Zh., Sol. Energy Mater. Sol. Cells 95, 3596 (2011).

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Metal hydrides for smart window and sensor applications

  • K. Yoshimura (a1), C. Langhammer (a2) and B. Dam (a3)

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