Phys Rev Lett 2007, 99:055503 CrossRef 25 Lopez de la Torre MA,

Phys Rev Lett 2007, 99:055503.CrossRef 25. Lopez de la Torre MA, Sefroui Z, Arias D, Varela learn more M, Villegas JE, Ballesteros C, Leon C, Santamaria J: Electron–electron interaction and weak localization effects in badly metallic SrRuO 3 . Phys Rev B 2001, 63:052403.CrossRef 26. Mathieu R, Jung CU, Yamada H, GW-572016 manufacturer Asamitsu A, Kawasaki M, Tokura Y: Determination of the intrinsic anomalous Hall effect of SrRuO 3 . Phys Rev B 2005, 72:064436.CrossRef 27. Siemons W, Koster G, Vailionis A, Yamamoto H, Blank DHA, Beasley MR: Dependence of the electronic structure of SrRuO 3

and its degree of correlation on cation off-stoichiometry. Phys Rev B 2007, 76:075126.CrossRef 28. Lee J-H, Murugavel P, Ryu H, Lee D, Jo JY, Kim JW, Kim HJ, Kim KH, Jo Y, Jung M-H, Oh YH, Kim Y-W, Yoon J-G, Chung J-S, Noh TW: Epitaxial stabilization of a new multiferroic hexagonal phase of TbMnO 3 thin films.

Adv Mater 2006, 18:3125–3129.CrossRef 29. Lee J-H, Murugavel P, Lee D, Noh TW, Jo Y, Jung M-H, Jang KH, Park J-G: Multiferroic properties of epitaxially stabilized hexagonal DyMnO 3 thin films. Appl Phys Lett 2007, 90:012903.CrossRef 30. Lee D, Lee J-H, Murugavel P, Jang SY, Noh TW, Jo Y, Jung M-H, Ko Y-D, Chung J-S: Epitaxial stabilization of artificial GSK126 chemical structure hexagonal GdMnO 3 thin films and their magnetic properties. Appl Phys Lett 2007, 90:182504.CrossRef 31. Chang SH, Chang YJ, Jang SY, Jeong DW, Jung CU, Kim Y-J, Chung J-S, Noh TW: Thickness-dependent structural phase transition of strained SrRuO 3 ultrathin films: the role of octahedral tilt. Phys Rev B 2011, 84:104101.CrossRef Competing interests The authors declare that they have no competing interests. Authors’ contributions O-UK and RHS made Figure 5, found good references, and contributed to the introduction of the key concept. CUJ managed the whole experimental

results and organized the manuscript as the corresponding author. BL and WJ joined the discussion. All authors read and approved the final manuscript.”
“Background The unique properties of InN are currently Cobimetinib purchase attracting much interest in the research community [1, 2]. Because of its lowest effective mass and the highest electron drift velocity among all III-nitride semiconductors [3], InN is promising for high-speed and high-frequency electronic devices. And recently, the band gap of InN, which is considered as 1.9 eV, is renewed to approximately 0.7 eV [4–6], covering a broad range of wavelength from near infrared at approximately 1.5 μm to ultraviolet at approximately 200 nm based on its direct band gap alloying with GaN and AlN [7–9].

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