A number of iron-based superconductors have been discovered, 1-3 which include LaFeAsO (1111-type structure), 4 BaFe 2 As 2 (122-type), 5 LiFeAs (111-type), 6 and FeSe (11-type), 7 as well as compounds with complex oxide spacer layers [8][9][10][11] and arsenide spacer layers such as Ca 10 (Pt 4 As 8 )(Fe 2 As 2 ) 5 . [12][13][14][15][16][17] The maximum superconducting transition temperature T c is 55 K of the 1111-type structure. 18 In order to further increase T c , an exploration of novel structure types should be performed.Very recently, Katayama et al. 19 and Yakita et al. 20 have reported superconductivity in Ca 1−x La x FeAs 2 and Ca 1−x Pr x FeAs 2 , respectively, with a novel 112-type structure. Ca 1−x La x FeAs 2 crystalizes in a monoclinic structure with the space group P2 1 (No. 4) and consists of alternately stacked Fe 2 As 2 and arsenic zigzag bond layers. 19 Although pure CaFeAs 2 was not obtained, Katayama et al. found that the substitution of a small amount of La for Ca stabilizes the 112 phase and induces superconductivity at T c = 34 K for x = 0.16. Interestingly, Katayama et al. 19 suggested that the trace superconductivity of Ca 1−x La x FeAs 2 could exhibit T c = 45 K.In this paper, we report that a large increase in T c occurs with the phosphorus or antimony doping of Ca 1−x La x FeAs 2 . P-doped Ca 0.84 La 0.16 FeAs 2 and Sb-doped Ca 0.85 La 0.15 FeAs 2 exhibited T c values of 41 and 43 K, respectively, while P/Sbfree Ca 0.85 La 0.15 FeAs 2 exhibited T c = 35 K.Single crystals of Ca 1−x La x Fe(As 1−y Pn y ) 2 (Pn = P and Sb) were grown by heating a mixture of Ca, La, FeAs, As, P, and Sb powders. A stoichiometric amount of the mixture was placed in an aluminum crucible and sealed in an evacuated quartz tube. The preparation was carried out in a glove box filled with argon gas. Ampules were heated at 700 • C for 3 h, heated to 1100 • C at a rate of 46 • C/h, and cooled to 1050 • C at a rate of 1.25 • C/h, followed by furnace cooling. The obtained samples were characterized by powder Xray diffraction (XRD) analysis, performed using a Rigaku RINT-TTR III X-ray diffractometer with CuK α radiation. The Ca 1−x La x Fe(As 1−y Pn y ) 2 was obtained together with a powder mixture of LaAs, FeAs, FeAs 2 , and CaFe 2 As 2 . We separated platelike single crystals of the present system with typ-
