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inorganic compounds
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ISSN: 2414-3146
accessThe Al61.49Mn11.35Ni4 phase in the Al–Mn–Ni system
aState Key Laboratory of Metastable Materials Science and Technology, Yanshan University, Qinhuangdao 066004, People's Republic of China
*Correspondence e-mail: chzfan@ysu.edu.cn
Edited by M. Weil, Vienna University of Technology, Austria (Received 29 November 2021; accepted 11 January 2022; online 14 January 2022)
An intermetallic phase in the Al–Mn–Ni system crystallizing in Cmcm (No. 63) and refined formula Al61.49Mn11.35Ni4 (called the R′ phase) has been synthesized by high-temperature sintering of a mixture with initial chemical composition Al60Mn7Ni3. In comparison with the structure model of the previously reported R phase with composition Al60Mn11Ni4 [Robinson (1954![[Robinson, K. (1954). Acta Cryst. 7, 494-497.]](../../../../../../logos/arrows/iucrx_arr.gif "Robinson, K. (1954). Acta Cryst. 7, 494-497.")
). Acta Cryst. 7, 494–497], there are two mutually exchanged Mn and Ni sites together with one positionally disordered Al site [occupancy ratio 0.811 (8):0.121 (7)] and one partially occupied Mn site [s.o.f. 0.677 (5)] in the current structure model of the R′ phase.
Keywords: crystal structure; high-temperature sintering; R-phase; Al–Mn–Ni system..
CCDC reference: 2141311
![[Scheme 3D1]](wm4158scheme3D1.gif)
Structure description
The ternary Al–Mn–Ni alloy system contains a variety of phases with complex or even quasicrystalline structures, most of which are not completely determined. Phase equilibria in the Al-rich region of the Al–Mn–Ni alloy system have been investigated previously. In this regard, a ternary phase with composition close to Al60Mn11Ni4 was reported as thermodynamically stable, crystallizing in Bbmm (non-conventional setting of Cmcm) with unit-cell parameters of a = 23.8, b = 12.5, c = 7.55 Å (Raynor, 1944). Its chemical composition was determined to be Al80.0Mn14.7Ni5.3 for the same sample. This phase was later denominated the R phase (Robinson, 1954). The derived crystal-structure model for the R phase had some ambiguities because at that time it was not possible to accurately model the deficiencies or the type of element for some of the atomic sites (Robinson, 1954). The R phase with similar composition/crystal structure has also been discovered in other systems, such as the T3 phase in the Al–Mn–Zn system or the Al20Mn3Cu2 phase (Damjanovic, 1961). It is interesting to note that the orthorhombic phase in the Al–Mn system is isostructural with the R phase and in coexistence with the decagonal in a rapidly solidified Al–Mn alloy, implying it is inseparable from the formation of quasicrystals (Li & Kuo, 1992).
In the present study, a slightly different crystal-structure model for the R phase in the Al–Mn–Ni system has been refined on basis of single-crystal X-ray diffraction data. This phase has similar unit-cell parameters to the previously reported R phase (Table 1, using the conventional setting Cmcm). Its chemical composition was refined to be Al61.49Mn11.35Ni4, in accordance with complementary SEM/EDX results (see Fig. S1 and Table S1 of the supporting information).
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In comparison with the R phase, the R′ phase has a slightly higher Al and Mn content. A detailed comparison of the atomic labelling and coordinates between these two structure models along with the transformation matrix that transforms the original non-conventional setting to the current standard setting can be found in Table S2 of the supporting information. The R′ phase has two reversed sites compared to the original R phase whereby Mn4 in the original model becomes Ni1 in the current model, and vice versa. In addition, the R′ phase shows positional disorder of one Al site (Al7), and one Mn site (Mn2) with partial occupancy. Fig. 1 shows the distribution of all atoms in the of Al61.49Mn11.35Ni4 with four distorted icosahedra illustrated for simplicity. The environments of the Mn3 and Mn4 sites are shown in Fig. 2a and 2b, respectively. The icosahedron centered at Mn3 is surrounded solely by Al atoms (Al3, Al4, Al5, Al6, Al10, Al11, Al12 and Al13) while that centered at Mn4 atom is composed by eleven Al atoms (Al1, Al2, Al4, Al5, Al9, Al11 and Al12) and one Mn atom (Mn4); all of the corresponding atomic sites are fully occupied. The polyhedron centered at Al3 is composed of a pentagonal prism capped by two atoms at the base faces, as shown in Fig. 3a. The environments of Al3 are displayed in Fig. 3b, where ten Al atoms (Al6, Al12 and Al13) and two Mn atoms (Mn3) surround the central atom.
![[Figure 1]](wm4158fig1thm.gif) | Figure 1 The crystal structure of Al61.49Mn11.35Ni4 with two Mn3 atoms and two Mn4 atoms displayed with their coordination environments as polyhedra. |
![[Figure 2]](wm4158fig2thm.gif) | Figure 2 (a) The environment of the Mn3 atom at the 8f site; (b) the environment of the Mn4 atom at the 8g site with displacement ellipsoids given at the 90% probability level. [Symmetry codes: (iii) −x + 1/2, −y + ![[{3\over 2}]](teximages/wm4158fi1.svg) , −z + 1; (iv) x − ![[{1\over 2}]](teximages/wm4158fi2.svg) , −y + , −z + 1; (v) −x, y, z; (vi) x, y, z − 1; (viii) −x, y, z − 1; (xiii) x, y, −z + ; (xiv) −x, y, −z + ; (xvii) x − , −y + , −z; (xviii) −x + , −y + , −z; (xix) −x + , −y + , z + .] |
![[Figure 3]](wm4158fig3thm.gif) | Figure 3 (a) The polyhedron formed around the Al3 atom at the 4c site; (b) the environment of the Al3 atom with displacement ellipsoids given at the 90% probability level. [Symmetry codes: (iii) −x + , −y + , −z + 1; (iv) x − , −y + , −z + 1; (v) −x, y, z; (vii) −x, y, −z + ; (xx) x, y, −z + ; (xxi) −x + , −y + , z − ; (xxii) x − , −y + , z − .] |
Synthesis and crystallization
The high-purity elements Al (indicated purity 99.8%; 2.4285 g), Mn (indicated purity 99.96%; 0.5768 g) and Ni (indicated purity 99.9%; 0.2641 g) were mixed in the molar ratio 60:7:3 and ground in an agate mortar. The blended powders were placed into a cemented carbide grinding mound of 9.6 mm diameter and pressed at 4 MPa for about 5 min. The obtained cylindrical block was put into a silica glass tube and vacuum-sealed by a home-made sealing machine. The resulting ampoule then was placed in a furnace (SG-XQL1200) and heated up to 473 K for 10 min with a heating rate of 10 K min−1 and then heated up to 1373 K for 30 min with the same heating rate. Finally, the sample was slowly cooled to room temperature by turning off the furnace power. Suitable pieces of single-crystal grains were broken and selected from the product for single-crystal X-ray diffraction.
Refinement
Crystal data, data collection and structure details are summarized in Table 1. Manganese site Mn2 is partially occupied, and its site occupation factor (s.o.f.) was refined to 0.677 (5). The aluminium site Al17 was found to be disordered over two positions with refined s.o.f.s of 0.811 (8) and 0.121 (7) for Al7A and Al7B, respectively. The same anisotropic displacement parameters were used for these two split Al sites. All Ni sites in the present model show full occupancy. The maximum and minimum residual electron densities in the final difference map are located 1.42 Å from site Al11 and 0.57 Å from site Al7A, respectively.
Structural data
CCDC reference: 2141311
contains datablock I. DOI: https://doi.org/10.1107/S2414314622000384/wm4158sup1.cif
Structure factors: contains datablock I. DOI: https://doi.org/10.1107/S2414314622000384/wm4158Isup2.hkl
supplementary materials. DOI: https://doi.org/10.1107/S2414314622000384/wm4158sup3.docx
reply. DOI: https://doi.org/10.1107/S2414314622000384/wm4158sup4.docx
Computing details top
Data collection: APEX3 (Bruker, 2015); cell SAINT (Bruker, 2015); data reduction: SAINT (Bruker, 2015); program(s) used to solve structure: SHELXT (Sheldrick, 2015a); program(s) used to refine structure: SHELXL (Sheldrick, 2015b); molecular graphics: DIAMOND (Brandenburg & Putz, 2017); software used to prepare material for publication: publCIF (Westrip, 2010).
(I) top
Crystal data top
| Al61.49Mn11.35Ni4 | Dx = 3.672 Mg m−3 |
| Mr = 2517.49 | Mo Kα radiation, λ = 0.71073 Å |
| Orthorhombic, Cmcm | Cell parameters from 8707 reflections |
| a = 7.6135 (3) Å | θ = 2.4–30.6° |
| b = 23.9582 (11) Å | µ = 5.85 mm−1 |
| c = 12.4828 (6) Å | T = 296 K |
| V = 2276.93 (18) Å3 | Fragment, metallic |
| Z = 2 | 0.10 × 0.10 × 0.05 mm |
| F(000) = 2390 |
Data collection top
| Bruker D8 Venture Photon 100 CMOS diffractometer | 1269 reflections with I > 2σ(I) |
| φ and ω scans | Rint = 0.090 |
| Absorption correction: multi-scan (SADABS; Krause et al., 2015) | θmax = 28.3°, θmin = 2.4° |
| Tmin = 0.648, Tmax = 0.746 | h = −10→10 |
| 40442 measured reflections | k = −31→31 |
| 1584 independent reflections | l = −16→16 |
Refinement top
| Refinement on F2 | 114 parameters |
| Least-squares matrix: full | 0 restraints |
| R[F2 > 2σ(F2)] = 0.039 | w = 1/[σ2(Fo2) + (0.0463P)2 + 17.4467P] where P = (Fo2 + 2Fc2)/3 |
| wR(F2) = 0.095 | (Δ/σ)max = 0.001 |
| S = 1.06 | Δρmax = 1.85 e Å−3 |
| 1584 reflections | Δρmin = −1.03 e Å−3 |
Special details top
Geometry. All esds (except the esd in the dihedral angle between two l.s. planes) are estimated using the full covariance matrix. The cell esds are taken into account individually in the estimation of esds in distances, angles and torsion angles; correlations between esds in cell parameters are only used when they are defined by crystal symmetry. An approximate (isotropic) treatment of cell esds is used for estimating esds involving l.s. planes. |
Fractional atomic coordinates and isotropic or equivalent isotropic displacement parameters (Å2) top
| x | y | z | Uiso*/Ueq | Occ. (<1) | |
| Ni1 | 0.000000 | 0.91273 (3) | 0.06707 (7) | 0.0123 (2) | |
| Mn1 | 0.000000 | 0.54113 (5) | 0.750000 | 0.0070 (3) | |
| Mn2 | 0.000000 | 0.92062 (7) | 0.750000 | 0.0071 (6) | 0.677 (5) |
| Mn3 | 0.000000 | 0.63847 (3) | 0.05426 (6) | 0.00525 (19) | |
| Mn4 | 0.18574 (11) | 0.71395 (3) | 0.750000 | 0.00517 (19) | |
| Al1 | 0.000000 | 0.81074 (10) | 0.750000 | 0.0081 (5) | |
| Al2 | 0.000000 | 0.79366 (10) | 0.250000 | 0.0083 (5) | |
| Al3 | 0.000000 | 0.63386 (10) | 0.250000 | 0.0111 (5) | |
| Al4 | 0.000000 | 0.63837 (6) | 0.84947 (13) | 0.0066 (3) | |
| Al5 | 0.000000 | 0.73945 (7) | 0.93387 (13) | 0.0076 (3) | |
| Al6 | 0.000000 | 0.53869 (7) | 0.11718 (14) | 0.0129 (4) | |
| Al7A | 0.000000 | 0.98517 (9) | 0.9064 (2) | 0.0170 (8) | 0.811 (8) |
| Al7B | 0.000000 | 0.000000 | 0.000000 | 0.0170 (8) | 0.121 (7) |
| Al8 | 0.2272 (3) | 0.01406 (8) | 0.250000 | 0.0250 (5) | |
| Al9 | 0.1846 (2) | 0.89615 (7) | 0.250000 | 0.0094 (4) | |
| Al10 | 0.18981 (16) | 0.55406 (5) | 0.93399 (9) | 0.0075 (3) | |
| Al11 | 0.19159 (16) | 0.82804 (5) | 0.06539 (9) | 0.0074 (3) | |
| Al12 | 0.18747 (16) | 0.71601 (5) | 0.12610 (9) | 0.0080 (3) | |
| Al13 | 0.18943 (17) | 0.89124 (5) | 0.88587 (11) | 0.0135 (3) |
Atomic displacement parameters (Å2) top
| U11 | U22 | U33 | U12 | U13 | U23 | |
| Ni1 | 0.0055 (4) | 0.0074 (4) | 0.0241 (5) | 0.000 | 0.000 | −0.0016 (3) |
| Mn1 | 0.0134 (6) | 0.0033 (5) | 0.0044 (5) | 0.000 | 0.000 | 0.000 |
| Mn2 | 0.0057 (10) | 0.0112 (10) | 0.0043 (9) | 0.000 | 0.000 | 0.000 |
| Mn3 | 0.0080 (4) | 0.0039 (4) | 0.0039 (4) | 0.000 | 0.000 | 0.0003 (3) |
| Mn4 | 0.0049 (4) | 0.0059 (4) | 0.0046 (4) | 0.0000 (3) | 0.000 | 0.000 |
| Al1 | 0.0099 (12) | 0.0074 (11) | 0.0071 (11) | 0.000 | 0.000 | 0.000 |
| Al2 | 0.0051 (12) | 0.0117 (12) | 0.0080 (11) | 0.000 | 0.000 | 0.000 |
| Al3 | 0.0182 (14) | 0.0106 (12) | 0.0045 (11) | 0.000 | 0.000 | 0.000 |
| Al4 | 0.0074 (8) | 0.0060 (8) | 0.0065 (8) | 0.000 | 0.000 | 0.0008 (6) |
| Al5 | 0.0077 (8) | 0.0072 (8) | 0.0079 (8) | 0.000 | 0.000 | 0.0011 (6) |
| Al6 | 0.0241 (11) | 0.0051 (8) | 0.0094 (8) | 0.000 | 0.000 | 0.0021 (6) |
| Al7A | 0.0102 (12) | 0.0087 (12) | 0.0320 (15) | 0.000 | 0.000 | −0.0034 (10) |
| Al7B | 0.0102 (12) | 0.0087 (12) | 0.0320 (15) | 0.000 | 0.000 | −0.0034 (10) |
| Al8 | 0.0427 (14) | 0.0160 (10) | 0.0162 (10) | 0.0111 (9) | 0.000 | 0.000 |
| Al9 | 0.0088 (9) | 0.0125 (8) | 0.0068 (8) | −0.0031 (7) | 0.000 | 0.000 |
| Al10 | 0.0073 (6) | 0.0069 (5) | 0.0082 (6) | −0.0003 (4) | −0.0009 (5) | −0.0003 (4) |
| Al11 | 0.0073 (6) | 0.0074 (5) | 0.0074 (6) | 0.0009 (4) | 0.0006 (5) | 0.0013 (4) |
| Al12 | 0.0077 (6) | 0.0067 (5) | 0.0098 (6) | −0.0012 (5) | 0.0003 (5) | −0.0028 (4) |
| Al13 | 0.0130 (7) | 0.0101 (6) | 0.0174 (7) | −0.0008 (5) | −0.0003 (5) | 0.0021 (5) |
Geometric parameters (Å, º) top
| Ni1—Al7Bi | 2.2523 (7) | Al2—Al9vii | 2.829 (3) |
| Ni1—Al7Aii | 2.468 (2) | Al2—Al9 | 2.829 (3) |
| Ni1—Al10iii | 2.4921 (12) | Al2—Al11xx | 2.8490 (13) |
| Ni1—Al10iv | 2.4921 (12) | Al2—Al11v | 2.8490 (13) |
| Ni1—Al11 | 2.4989 (13) | Al2—Al11vii | 2.8490 (13) |
| Ni1—Al11v | 2.4989 (13) | Al2—Al11 | 2.8490 (13) |
| Ni1—Al7Avi | 2.652 (3) | Al3—Al6xx | 2.819 (3) |
| Ni1—Al9 | 2.7106 (12) | Al3—Al6 | 2.819 (3) |
| Ni1—Al9vii | 2.7107 (12) | Al3—Al12xx | 2.881 (2) |
| Ni1—Al13viii | 2.7315 (15) | Al3—Al12vii | 2.881 (2) |
| Ni1—Al13vi | 2.7315 (15) | Al3—Al12v | 2.881 (2) |
| Mn1—Al8ix | 2.462 (2) | Al3—Al12 | 2.881 (2) |
| Mn1—Al8x | 2.462 (2) | Al3—Al13iv | 2.9714 (14) |
| Mn1—Al6xi | 2.5310 (19) | Al3—Al13xxi | 2.9714 (14) |
| Mn1—Al6xii | 2.5310 (19) | Al3—Al13xxii | 2.9714 (14) |
| Mn1—Al4 | 2.6399 (19) | Al3—Al13iii | 2.9714 (14) |
| Mn1—Al4xiii | 2.6400 (19) | Al4—Al4xiii | 2.483 (3) |
| Mn1—Al10xiv | 2.7312 (12) | Al4—Al5 | 2.641 (2) |
| Mn1—Al10v | 2.7312 (12) | Al4—Al10 | 2.6985 (18) |
| Mn1—Al10xiii | 2.7312 (12) | Al4—Al10v | 2.6985 (18) |
| Mn1—Al10 | 2.7312 (12) | Al4—Al11iii | 2.7001 (15) |
| Mn1—Al9iii | 2.8328 (18) | Al4—Al11iv | 2.7001 (14) |
| Mn1—Al9xv | 2.8328 (18) | Al4—Al9xv | 2.8270 (18) |
| Mn2—Al8xvi | 2.333 (2) | Al4—Al9iii | 2.8270 (18) |
| Mn2—Al8xii | 2.333 (2) | Al5—Al12iii | 2.7131 (15) |
| Mn2—Al13xiv | 2.3349 (14) | Al5—Al12iv | 2.7131 (15) |
| Mn2—Al13xiii | 2.3349 (14) | Al5—Al12xxiii | 2.8480 (18) |
| Mn2—Al13v | 2.3349 (14) | Al5—Al12xxiv | 2.8480 (18) |
| Mn2—Al13 | 2.3349 (14) | Al5—Al11iv | 2.8510 (15) |
| Mn2—Al7Axiii | 2.491 (3) | Al5—Al11iii | 2.8510 (15) |
| Mn2—Al7A | 2.491 (3) | Al6—Al8xxv | 2.722 (2) |
| Mn2—Al1 | 2.633 (3) | Al6—Al8xxvi | 2.722 (2) |
| Mn3—Al3 | 2.4459 (8) | Al6—Al10xii | 2.7266 (19) |
| Mn3—Al12v | 2.5085 (13) | Al6—Al10xxvii | 2.7266 (19) |
| Mn3—Al12 | 2.5086 (13) | Al6—Al10viii | 2.7300 (19) |
| Mn3—Al6 | 2.5162 (19) | Al6—Al10vi | 2.7300 (19) |
| Mn3—Al4vi | 2.5563 (18) | Al6—Al13iii | 2.9000 (16) |
| Mn3—Al13iv | 2.5800 (14) | Al6—Al13iv | 2.9000 (16) |
| Mn3—Al13iii | 2.5800 (14) | Al7A—Al7Axxviii | 2.442 (5) |
| Mn3—Al5vi | 2.8481 (18) | Al7A—Al8xii | 2.608 (3) |
| Mn3—Al11xvii | 2.8962 (13) | Al7A—Al8xvi | 2.608 (3) |
| Mn3—Al11xviii | 2.8962 (13) | Al7A—Al13v | 2.685 (2) |
| Mn3—Al10viii | 2.9039 (13) | Al7A—Al13 | 2.685 (2) |
| Mn3—Al10vi | 2.9039 (13) | Al7A—Al10xxix | 2.9016 (17) |
| Mn4—Al2iii | 2.3996 (9) | Al7A—Al10xxvi | 2.9016 (17) |
| Mn4—Al12iii | 2.4779 (13) | Al7B—Al10xxx | 2.8166 (12) |
| Mn4—Al12xix | 2.4779 (13) | Al7B—Al10xxxi | 2.8166 (12) |
| Mn4—Al4 | 2.6116 (15) | Al7B—Al10xxxii | 2.8166 (12) |
| Mn4—Al4xiii | 2.6116 (15) | Al7B—Al10x | 2.8166 (12) |
| Mn4—Al11xix | 2.6823 (12) | Al8—Al9xxxiii | 2.843 (3) |
| Mn4—Al11iii | 2.6823 (12) | Al8—Al13xxxiv | 2.847 (2) |
| Mn4—Al1 | 2.716 (2) | Al8—Al13xxvii | 2.847 (2) |
| Mn4—Al5 | 2.7642 (15) | Al8—Al10x | 2.8874 (16) |
| Mn4—Al5xiii | 2.7642 (15) | Al8—Al10xxxv | 2.8874 (16) |
| Mn4—Al9iii | 2.8163 (19) | Al9—Al10xxi | 2.7591 (15) |
| Mn4—Mn4xiv | 2.8282 (17) | Al9—Al10iii | 2.7591 (15) |
| Al1—Al5 | 2.861 (2) | Al9—Al9vii | 2.811 (4) |
| Al1—Al5xiii | 2.861 (2) | Al9—Al11 | 2.8242 (15) |
| Al1—Al12xv | 2.9093 (14) | Al9—Al11xx | 2.8242 (15) |
| Al1—Al12iii | 2.9093 (14) | Al10—Al13xxxvi | 2.7603 (17) |
| Al1—Al12iv | 2.9093 (14) | Al10—Al10v | 2.890 (2) |
| Al1—Al12xix | 2.9093 (14) | Al11—Al13vi | 2.7046 (17) |
| Al1—Al13 | 2.946 (2) | Al11—Al12xviii | 2.7705 (16) |
| Al1—Al13v | 2.946 (2) | Al11—Al12 | 2.7891 (16) |
| Al1—Al13xiii | 2.946 (2) | Al11—Al11v | 2.917 (2) |
| Al2—Al12 | 2.809 (2) | Al12—Al13iii | 2.7393 (17) |
| Al2—Al12v | 2.809 (2) | Al12—Al12v | 2.855 (3) |
| Al2—Al12vii | 2.809 (2) | Al13—Al13v | 2.884 (3) |
| Al2—Al12xx | 2.809 (2) | ||
| Al7Aii—Ni1—Al10iii | 71.59 (3) | Al11iv—Al4—Al9iii | 177.12 (7) |
| Al7Aii—Ni1—Al10iv | 71.59 (3) | Al9xv—Al4—Al9iii | 116.30 (7) |
| Al10iii—Ni1—Al10iv | 142.75 (6) | Al4—Al5—Al12iii | 104.51 (5) |
| Al7Bi—Ni1—Al11 | 138.65 (3) | Al4—Al5—Al12iv | 104.51 (5) |
| Al7Aii—Ni1—Al11 | 143.68 (3) | Al12iii—Al5—Al12iv | 122.57 (8) |
| Al10iii—Ni1—Al11 | 72.91 (4) | Al4—Al5—Mn4 | 57.73 (5) |
| Al10iv—Ni1—Al11 | 144.33 (5) | Al12iii—Al5—Mn4 | 53.78 (4) |
| Al7Aii—Ni1—Al11v | 143.68 (3) | Al12iv—Al5—Mn4 | 107.85 (6) |
| Al10iii—Ni1—Al11v | 144.33 (5) | Al4—Al5—Mn4xiv | 57.73 (5) |
| Al10iv—Ni1—Al11v | 72.91 (4) | Al12iii—Al5—Mn4xiv | 107.85 (6) |
| Al11—Ni1—Al11v | 71.42 (6) | Al12iv—Al5—Mn4xiv | 53.78 (4) |
| Al7Aii—Ni1—Al7Avi | 56.83 (10) | Mn4—Al5—Mn4xiv | 61.54 (5) |
| Al10iii—Ni1—Al7Avi | 77.70 (3) | Al4—Al5—Al12xxiii | 98.93 (6) |
| Al10iv—Ni1—Al7Avi | 77.70 (3) | Al12iii—Al5—Al12xxiii | 82.56 (4) |
| Al11—Ni1—Al7Avi | 121.67 (5) | Al12iv—Al5—Al12xxiii | 138.55 (6) |
| Al11v—Ni1—Al7Avi | 121.67 (5) | Mn4—Al5—Al12xxiii | 113.56 (4) |
| Al7Bi—Ni1—Al9 | 116.69 (4) | Mn4xiv—Al5—Al12xxiii | 155.84 (7) |
| Al7Aii—Ni1—Al9 | 91.85 (7) | Al4—Al5—Al12xxiv | 98.93 (6) |
| Al10iii—Ni1—Al9 | 63.89 (4) | Al12iii—Al5—Al12xxiv | 138.55 (6) |
| Al10iv—Ni1—Al9 | 122.86 (5) | Al12iv—Al5—Al12xxiv | 82.56 (4) |
| Al11—Ni1—Al9 | 65.51 (4) | Mn4—Al5—Al12xxiv | 155.84 (7) |
| Al11v—Ni1—Al9 | 101.00 (5) | Mn4xiv—Al5—Al12xxiv | 113.56 (4) |
| Al7Avi—Ni1—Al9 | 137.13 (5) | Al12xxiii—Al5—Al12xxiv | 60.15 (6) |
| Al7Aii—Ni1—Al9vii | 91.85 (7) | Al4—Al5—Mn3xxiii | 55.36 (5) |
| Al10iii—Ni1—Al9vii | 122.86 (5) | Al12iii—Al5—Mn3xxiii | 118.66 (4) |
| Al10iv—Ni1—Al9vii | 63.89 (4) | Al12iv—Al5—Mn3xxiii | 118.66 (4) |
| Al11—Ni1—Al9vii | 100.99 (5) | Mn4—Al5—Mn3xxiii | 104.50 (5) |
| Al11v—Ni1—Al9vii | 65.51 (4) | Mn4xiv—Al5—Mn3xxiii | 104.50 (5) |
| Al7Avi—Ni1—Al9vii | 137.13 (5) | Al12xxiii—Al5—Mn3xxiii | 52.26 (4) |
| Al9—Ni1—Al9vii | 62.46 (7) | Al12xxiv—Al5—Mn3xxiii | 52.26 (4) |
| Al7Aii—Ni1—Al13viii | 107.32 (6) | Al4—Al5—Al11iv | 58.75 (4) |
| Al10iii—Ni1—Al13viii | 123.79 (5) | Al12iii—Al5—Al11iv | 161.14 (7) |
| Al10iv—Ni1—Al13viii | 63.61 (4) | Al12iv—Al5—Al11iv | 60.11 (4) |
| Al11—Ni1—Al13viii | 98.53 (4) | Mn4—Al5—Al11iv | 107.38 (6) |
| Al11v—Ni1—Al13viii | 62.09 (4) | Mn4xiv—Al5—Al11iv | 57.04 (3) |
| Al7Avi—Ni1—Al13viii | 59.81 (5) | Al12xxiii—Al5—Al11iv | 107.35 (6) |
| Al9—Ni1—Al13viii | 160.69 (5) | Al12xxiv—Al5—Al11iv | 58.17 (4) |
| Al9vii—Ni1—Al13viii | 113.34 (4) | Mn3xxiii—Al5—Al11iv | 61.09 (4) |
| Al7Aii—Ni1—Al13vi | 107.32 (6) | Al4—Al5—Al11iii | 58.75 (4) |
| Al10iii—Ni1—Al13vi | 63.61 (4) | Al12iii—Al5—Al11iii | 60.11 (4) |
| Al10iv—Ni1—Al13vi | 123.79 (5) | Al12iv—Al5—Al11iii | 161.14 (7) |
| Al11—Ni1—Al13vi | 62.09 (4) | Mn4—Al5—Al11iii | 57.04 (3) |
| Al11v—Ni1—Al13vi | 98.53 (4) | Mn4xiv—Al5—Al11iii | 107.38 (6) |
| Al7Avi—Ni1—Al13vi | 59.81 (5) | Al12xxiii—Al5—Al11iii | 58.17 (4) |
| Al9—Ni1—Al13vi | 113.34 (4) | Al12xxiv—Al5—Al11iii | 107.35 (6) |
| Al9vii—Ni1—Al13vi | 160.69 (5) | Mn3xxiii—Al5—Al11iii | 61.09 (4) |
| Al13viii—Ni1—Al13vi | 63.74 (6) | Al11iv—Al5—Al11iii | 110.89 (7) |
| Al8ix—Mn1—Al8x | 115.05 (12) | Al4—Al5—Al1 | 103.14 (8) |
| Al8ix—Mn1—Al6xi | 66.07 (5) | Al12iii—Al5—Al1 | 62.86 (4) |
| Al8x—Mn1—Al6xi | 66.07 (5) | Al12iv—Al5—Al1 | 62.86 (4) |
| Al8ix—Mn1—Al6xii | 66.07 (5) | Mn4—Al5—Al1 | 57.71 (5) |
| Al8x—Mn1—Al6xii | 66.07 (5) | Mn4xiv—Al5—Al1 | 57.71 (5) |
| Al6xi—Mn1—Al6xii | 81.85 (9) | Al12xxiii—Al5—Al1 | 142.53 (5) |
| Al8ix—Mn1—Al4 | 118.28 (5) | Al12xxiv—Al5—Al1 | 142.53 (5) |
| Al8x—Mn1—Al4 | 118.28 (5) | Mn3xxiii—Al5—Al1 | 158.50 (8) |
| Al6xi—Mn1—Al4 | 167.13 (6) | Al11iv—Al5—Al1 | 109.95 (5) |
| Al6xii—Mn1—Al4 | 111.02 (5) | Al11iii—Al5—Al1 | 109.95 (5) |
| Al8ix—Mn1—Al4xiii | 118.28 (5) | Mn3—Al6—Mn1xii | 157.26 (8) |
| Al8x—Mn1—Al4xiii | 118.28 (5) | Mn3—Al6—Al8xxv | 113.33 (6) |
| Al6xi—Mn1—Al4xiii | 111.02 (5) | Mn1xii—Al6—Al8xxv | 55.75 (5) |
| Al6xii—Mn1—Al4xiii | 167.13 (6) | Mn3—Al6—Al8xxvi | 113.33 (6) |
| Al4—Mn1—Al4xiii | 56.11 (7) | Mn1xii—Al6—Al8xxvi | 55.75 (5) |
| Al8ix—Mn1—Al10xiv | 67.33 (3) | Al8xxv—Al6—Al8xxvi | 99.45 (9) |
| Al8x—Mn1—Al10xiv | 120.48 (3) | Mn3—Al6—Al10xii | 134.52 (6) |
| Al6xi—Mn1—Al10xiv | 62.28 (4) | Mn1xii—Al6—Al10xii | 62.46 (4) |
| Al6xii—Mn1—Al10xiv | 129.53 (5) | Al8xxv—Al6—Al10xii | 111.74 (7) |
| Al4—Mn1—Al10xiv | 107.18 (5) | Al8xxvi—Al6—Al10xii | 64.00 (5) |
| Al4xiii—Mn1—Al10xiv | 60.29 (4) | Mn3—Al6—Al10xxvii | 134.52 (6) |
| Al8ix—Mn1—Al10v | 67.33 (3) | Mn1xii—Al6—Al10xxvii | 62.46 (4) |
| Al8x—Mn1—Al10v | 120.48 (3) | Al8xxv—Al6—Al10xxvii | 64.00 (5) |
| Al6xi—Mn1—Al10v | 129.53 (5) | Al8xxvi—Al6—Al10xxvii | 111.74 (7) |
| Al6xii—Mn1—Al10v | 62.28 (4) | Al10xii—Al6—Al10xxvii | 64.01 (6) |
| Al4—Mn1—Al10v | 60.29 (4) | Mn3—Al6—Al10viii | 67.07 (5) |
| Al4xiii—Mn1—Al10v | 107.18 (5) | Mn1xii—Al6—Al10viii | 130.58 (6) |
| Al10xiv—Mn1—Al10v | 114.48 (5) | Al8xxv—Al6—Al10viii | 160.60 (7) |
| Al8ix—Mn1—Al10xiii | 120.48 (3) | Al8xxvi—Al6—Al10viii | 97.78 (4) |
| Al8x—Mn1—Al10xiii | 67.33 (3) | Al10xii—Al6—Al10viii | 68.47 (6) |
| Al6xi—Mn1—Al10xiii | 62.28 (4) | Al10xxvii—Al6—Al10viii | 101.20 (7) |
| Al6xii—Mn1—Al10xiii | 129.53 (5) | Mn3—Al6—Al10vi | 67.07 (5) |
| Al4—Mn1—Al10xiii | 107.18 (5) | Mn1xii—Al6—Al10vi | 130.58 (6) |
| Al4xiii—Mn1—Al10xiii | 60.29 (4) | Al8xxv—Al6—Al10vi | 97.78 (4) |
| Al10xiv—Mn1—Al10xiii | 63.89 (5) | Al8xxvi—Al6—Al10vi | 160.60 (7) |
| Al10v—Mn1—Al10xiii | 166.98 (7) | Al10xii—Al6—Al10vi | 101.20 (7) |
| Al8ix—Mn1—Al10 | 120.48 (3) | Al10xxvii—Al6—Al10vi | 68.47 (6) |
| Al8x—Mn1—Al10 | 67.33 (3) | Al10viii—Al6—Al10vi | 63.92 (6) |
| Al6xi—Mn1—Al10 | 129.54 (5) | Mn3—Al6—Al3 | 54.21 (5) |
| Al6xii—Mn1—Al10 | 62.28 (4) | Mn1xii—Al6—Al3 | 103.05 (7) |
| Al4—Mn1—Al10 | 60.29 (4) | Al8xxv—Al6—Al3 | 79.47 (6) |
| Al4xiii—Mn1—Al10 | 107.18 (5) | Al8xxvi—Al6—Al3 | 79.47 (6) |
| Al10xiv—Mn1—Al10 | 166.98 (7) | Al10xii—Al6—Al3 | 142.84 (5) |
| Al10v—Mn1—Al10 | 63.89 (5) | Al10xxvii—Al6—Al3 | 142.84 (5) |
| Al10xiii—Mn1—Al10 | 114.48 (5) | Al10viii—Al6—Al3 | 112.56 (6) |
| Al8ix—Mn1—Al9iii | 179.56 (8) | Al10vi—Al6—Al3 | 112.56 (6) |
| Al8x—Mn1—Al9iii | 64.51 (6) | Mn3—Al6—Al13iii | 56.36 (4) |
| Al6xi—Mn1—Al9iii | 113.63 (3) | Mn1xii—Al6—Al13iii | 116.48 (5) |
| Al6xii—Mn1—Al9iii | 113.63 (3) | Al8xxv—Al6—Al13iii | 60.75 (5) |
| Al4—Mn1—Al9iii | 62.08 (4) | Al8xxvi—Al6—Al13iii | 139.08 (8) |
| Al4xiii—Mn1—Al9iii | 62.09 (4) | Al10xii—Al6—Al13iii | 154.26 (6) |
| Al10xiv—Mn1—Al9iii | 112.85 (4) | Al10xxvii—Al6—Al13iii | 92.09 (4) |
| Al10v—Mn1—Al9iii | 112.85 (4) | Al10viii—Al6—Al13iii | 110.04 (7) |
| Al10xiii—Mn1—Al9iii | 59.42 (3) | Al10vi—Al6—Al13iii | 58.63 (4) |
| Al10—Mn1—Al9iii | 59.42 (3) | Al3—Al6—Al13iii | 62.59 (4) |
| Al8ix—Mn1—Al9xv | 64.51 (6) | Mn3—Al6—Al13iv | 56.36 (4) |
| Al8x—Mn1—Al9xv | 179.56 (8) | Mn1xii—Al6—Al13iv | 116.48 (5) |
| Al6xi—Mn1—Al9xv | 113.63 (3) | Al8xxv—Al6—Al13iv | 139.08 (8) |
| Al6xii—Mn1—Al9xv | 113.63 (3) | Al8xxvi—Al6—Al13iv | 60.75 (5) |
| Al4—Mn1—Al9xv | 62.09 (4) | Al10xii—Al6—Al13iv | 92.09 (4) |
| Al4xiii—Mn1—Al9xv | 62.09 (4) | Al10xxvii—Al6—Al13iv | 154.26 (6) |
| Al10xiv—Mn1—Al9xv | 59.42 (3) | Al10viii—Al6—Al13iv | 58.63 (4) |
| Al10v—Mn1—Al9xv | 59.42 (3) | Al10vi—Al6—Al13iv | 110.04 (7) |
| Al10xiii—Mn1—Al9xv | 112.85 (4) | Al3—Al6—Al13iv | 62.59 (4) |
| Al10—Mn1—Al9xv | 112.85 (4) | Al13iii—Al6—Al13iv | 109.24 (7) |
| Al9iii—Mn1—Al9xv | 115.92 (8) | Al7Axxviii—Al7A—Ni1ii | 65.38 (9) |
| Al8xvi—Mn2—Al8xii | 95.71 (13) | Al7Axxviii—Al7A—Mn2 | 158.53 (16) |
| Al8xvi—Mn2—Al13xiv | 131.32 (5) | Ni1ii—Al7A—Mn2 | 136.09 (12) |
| Al8xii—Mn2—Al13xiv | 75.18 (5) | Al7Axxviii—Al7A—Al8xii | 135.57 (7) |
| Al8xvi—Mn2—Al13xiii | 75.18 (5) | Ni1ii—Al7A—Al8xii | 95.36 (8) |
| Al8xii—Mn2—Al13xiii | 131.32 (5) | Mn2—Al7A—Al8xii | 54.39 (7) |
| Al13xiv—Mn2—Al13xiii | 76.30 (7) | Al7Axxviii—Al7A—Al8xvi | 135.57 (7) |
| Al8xvi—Mn2—Al13v | 131.32 (5) | Ni1ii—Al7A—Al8xvi | 95.36 (8) |
| Al8xii—Mn2—Al13v | 75.18 (5) | Mn2—Al7A—Al8xvi | 54.39 (7) |
| Al13xiv—Mn2—Al13v | 93.17 (7) | Al8xii—Al7A—Al8xvi | 83.07 (11) |
| Al13xiii—Mn2—Al13v | 144.92 (10) | Al7Axxviii—Al7A—Ni1xxiii | 57.79 (10) |
| Al8xvi—Mn2—Al13 | 75.18 (5) | Ni1ii—Al7A—Ni1xxiii | 123.17 (10) |
| Al8xii—Mn2—Al13 | 131.32 (5) | Mn2—Al7A—Ni1xxiii | 100.74 (8) |
| Al13xiv—Mn2—Al13 | 144.91 (10) | Al8xii—Al7A—Ni1xxiii | 124.80 (8) |
| Al13xiii—Mn2—Al13 | 93.16 (7) | Al8xvi—Al7A—Ni1xxiii | 124.80 (8) |
| Al13v—Mn2—Al13 | 76.30 (7) | Al7Axxviii—Al7A—Al13v | 109.59 (12) |
| Al8xvi—Mn2—Al7Axiii | 65.38 (5) | Ni1ii—Al7A—Al13v | 147.49 (4) |
| Al8xii—Mn2—Al7Axiii | 65.38 (5) | Mn2—Al7A—Al13v | 53.47 (6) |
| Al13xiv—Mn2—Al7Axiii | 67.53 (5) | Al8xii—Al7A—Al13v | 65.06 (7) |
| Al13xiii—Mn2—Al7Axiii | 67.53 (5) | Al8xvi—Al7A—Al13v | 106.89 (10) |
| Al13v—Mn2—Al7Axiii | 139.16 (5) | Ni1xxiii—Al7A—Al13v | 61.56 (6) |
| Al13—Mn2—Al7Axiii | 139.16 (5) | Al7Axxviii—Al7A—Al13 | 109.59 (12) |
| Al8xvi—Mn2—Al7A | 65.38 (6) | Ni1ii—Al7A—Al13 | 147.49 (4) |
| Al8xii—Mn2—Al7A | 65.38 (5) | Mn2—Al7A—Al13 | 53.47 (6) |
| Al13xiv—Mn2—Al7A | 139.16 (5) | Al8xii—Al7A—Al13 | 106.89 (10) |
| Al13xiii—Mn2—Al7A | 139.16 (5) | Al8xvi—Al7A—Al13 | 65.06 (7) |
| Al13v—Mn2—Al7A | 67.53 (5) | Ni1xxiii—Al7A—Al13 | 61.56 (6) |
| Al13—Mn2—Al7A | 67.53 (5) | Al13v—Al7A—Al13 | 64.98 (7) |
| Al7Axiii—Mn2—Al7A | 103.23 (13) | Al7Axxviii—Al7A—Al10xxix | 73.80 (7) |
| Al8xvi—Mn2—Al1 | 132.14 (7) | Ni1ii—Al7A—Al10xxix | 54.58 (4) |
| Al8xii—Mn2—Al1 | 132.14 (7) | Mn2—Al7A—Al10xxix | 116.50 (6) |
| Al13xiv—Mn2—Al1 | 72.46 (5) | Al8xii—Al7A—Al10xxix | 128.64 (11) |
| Al13xiii—Mn2—Al1 | 72.46 (5) | Al8xvi—Al7A—Al10xxix | 62.94 (5) |
| Al13v—Mn2—Al1 | 72.46 (5) | Ni1xxiii—Al7A—Al10xxix | 106.41 (7) |
| Al13—Mn2—Al1 | 72.46 (5) | Al13v—Al7A—Al10xxix | 157.69 (7) |
| Al7Axiii—Mn2—Al1 | 128.38 (6) | Al13—Al7A—Al10xxix | 92.91 (4) |
| Al7A—Mn2—Al1 | 128.38 (6) | Al7Axxviii—Al7A—Al10xxvi | 73.80 (7) |
| Al3—Mn3—Al12v | 71.11 (6) | Ni1ii—Al7A—Al10xxvi | 54.58 (4) |
| Al3—Mn3—Al12 | 71.11 (6) | Mn2—Al7A—Al10xxvi | 116.50 (6) |
| Al12v—Mn3—Al12 | 69.36 (6) | Al8xii—Al7A—Al10xxvi | 62.94 (5) |
| Al3—Mn3—Al6 | 69.22 (7) | Al8xvi—Al7A—Al10xxvi | 128.64 (11) |
| Al12v—Mn3—Al6 | 126.30 (5) | Ni1xxiii—Al7A—Al10xxvi | 106.41 (7) |
| Al12—Mn3—Al6 | 126.30 (5) | Al13v—Al7A—Al10xxvi | 92.91 (4) |
| Al3—Mn3—Al4vi | 177.36 (8) | Al13—Al7A—Al10xxvi | 157.69 (7) |
| Al12v—Mn3—Al4vi | 110.99 (5) | Al10xxix—Al7A—Al10xxvi | 108.96 (8) |
| Al12—Mn3—Al4vi | 110.99 (5) | Ni1xxxvii—Al7B—Ni1xxxiii | 180.00 (4) |
| Al6—Mn3—Al4vi | 108.13 (6) | Ni1xxxvii—Al7B—Al10xxx | 57.62 (2) |
| Al3—Mn3—Al13iv | 72.43 (4) | Ni1xxxiii—Al7B—Al10xxx | 122.38 (2) |
| Al12v—Mn3—Al13iv | 65.12 (4) | Ni1xxxvii—Al7B—Al10xxxi | 122.38 (2) |
| Al12—Mn3—Al13iv | 128.48 (5) | Ni1xxxiii—Al7B—Al10xxxi | 57.62 (2) |
| Al6—Mn3—Al13iv | 69.36 (3) | Al10xxx—Al7B—Al10xxxi | 180.00 (6) |
| Al4vi—Mn3—Al13iv | 106.82 (4) | Ni1xxxvii—Al7B—Al10xxxii | 57.62 (2) |
| Al3—Mn3—Al13iii | 72.43 (4) | Ni1xxxiii—Al7B—Al10xxxii | 122.38 (2) |
| Al12v—Mn3—Al13iii | 128.48 (5) | Al10xxx—Al7B—Al10xxxii | 113.96 (5) |
| Al12—Mn3—Al13iii | 65.12 (4) | Al10xxxi—Al7B—Al10xxxii | 66.04 (5) |
| Al6—Mn3—Al13iii | 69.36 (3) | Ni1xxxvii—Al7B—Al10x | 122.38 (2) |
| Al4vi—Mn3—Al13iii | 106.82 (4) | Ni1xxxiii—Al7B—Al10x | 57.62 (2) |
| Al13iv—Mn3—Al13iii | 132.84 (7) | Al10xxx—Al7B—Al10x | 66.04 (5) |
| Al3—Mn3—Al5vi | 124.43 (8) | Al10xxxi—Al7B—Al10x | 113.96 (5) |
| Al12v—Mn3—Al5vi | 63.87 (4) | Al10xxxii—Al7B—Al10x | 180.00 (6) |
| Al12—Mn3—Al5vi | 63.87 (4) | Mn2xii—Al8—Mn1x | 170.33 (12) |
| Al6—Mn3—Al5vi | 166.34 (6) | Mn2xii—Al8—Al7Axii | 60.24 (7) |
| Al4vi—Mn3—Al5vi | 58.21 (5) | Mn1x—Al8—Al7Axii | 124.28 (6) |
| Al13iv—Mn3—Al5vi | 112.78 (3) | Mn2xii—Al8—Al7Axxxviii | 60.24 (7) |
| Al13iii—Mn3—Al5vi | 112.78 (3) | Mn1x—Al8—Al7Axxxviii | 124.28 (6) |
| Al3—Mn3—Al11xvii | 121.85 (3) | Al7Axii—Al8—Al7Axxxviii | 96.93 (11) |
| Al12v—Mn3—Al11xvii | 61.18 (4) | Mn2xii—Al8—Al6xxxix | 114.85 (7) |
| Al12—Mn3—Al11xvii | 116.13 (5) | Mn1x—Al8—Al6xxxix | 58.18 (6) |
| Al6—Mn3—Al11xvii | 115.10 (3) | Al7Axii—Al8—Al6xxxix | 163.78 (10) |
| Al4vi—Mn3—Al11xvii | 58.97 (3) | Al7Axxxviii—Al8—Al6xxxix | 92.78 (5) |
| Al13iv—Mn3—Al11xvii | 58.86 (4) | Mn2xii—Al8—Al6xl | 114.85 (7) |
| Al13iii—Mn3—Al11xvii | 165.67 (5) | Mn1x—Al8—Al6xl | 58.18 (6) |
| Al5vi—Mn3—Al11xvii | 59.51 (3) | Al7Axii—Al8—Al6xl | 92.78 (5) |
| Al3—Mn3—Al11xviii | 121.85 (3) | Al7Axxxviii—Al8—Al6xl | 163.78 (10) |
| Al12v—Mn3—Al11xviii | 116.14 (5) | Al6xxxix—Al8—Al6xl | 75.03 (9) |
| Al12—Mn3—Al11xviii | 61.18 (4) | Mn2xii—Al8—Al9xxxiii | 125.60 (11) |
| Al6—Mn3—Al11xviii | 115.10 (3) | Mn1x—Al8—Al9xxxiii | 64.07 (6) |
| Al4vi—Mn3—Al11xviii | 58.97 (3) | Al7Axii—Al8—Al9xxxiii | 86.07 (8) |
| Al13iv—Mn3—Al11xviii | 165.67 (5) | Al7Axxxviii—Al8—Al9xxxiii | 86.07 (8) |
| Al13iii—Mn3—Al11xviii | 58.86 (4) | Al6xxxix—Al8—Al9xxxiii | 107.60 (7) |
| Al5vi—Mn3—Al11xviii | 59.51 (3) | Al6xl—Al8—Al9xxxiii | 107.60 (7) |
| Al11xvii—Mn3—Al11xviii | 108.34 (5) | Mn2xii—Al8—Al13xxxiv | 52.45 (5) |
| Al3—Mn3—Al10viii | 119.02 (6) | Mn1x—Al8—Al13xxxiv | 120.86 (8) |
| Al12v—Mn3—Al10viii | 114.67 (4) | Al7Axii—Al8—Al13xxxiv | 111.92 (9) |
| Al12—Mn3—Al10viii | 169.66 (5) | Al7Axxxviii—Al8—Al13xxxiv | 58.77 (6) |
| Al6—Mn3—Al10viii | 59.98 (4) | Al6xxxix—Al8—Al13xxxiv | 62.71 (5) |
| Al4vi—Mn3—Al10viii | 58.82 (4) | Al6xl—Al8—Al13xxxiv | 105.48 (9) |
| Al13iv—Mn3—Al10viii | 60.10 (4) | Al9xxxiii—Al8—Al13xxxiv | 141.28 (5) |
| Al13iii—Mn3—Al10viii | 114.44 (5) | Mn2xii—Al8—Al13xxvii | 52.45 (5) |
| Al5vi—Mn3—Al10viii | 108.59 (4) | Mn1x—Al8—Al13xxvii | 120.86 (8) |
| Al11xvii—Mn3—Al10viii | 61.50 (3) | Al7Axii—Al8—Al13xxvii | 58.77 (6) |
| Al11xviii—Mn3—Al10viii | 109.26 (4) | Al7Axxxviii—Al8—Al13xxvii | 111.92 (9) |
| Al3—Mn3—Al10vi | 119.02 (6) | Al6xxxix—Al8—Al13xxvii | 105.48 (9) |
| Al12v—Mn3—Al10vi | 169.66 (5) | Al6xl—Al8—Al13xxvii | 62.71 (5) |
| Al12—Mn3—Al10vi | 114.67 (4) | Al9xxxiii—Al8—Al13xxvii | 141.28 (5) |
| Al6—Mn3—Al10vi | 59.98 (4) | Al13xxxiv—Al8—Al13xxvii | 73.12 (7) |
| Al4vi—Mn3—Al10vi | 58.82 (4) | Mn2xii—Al8—Al10x | 122.79 (6) |
| Al13iv—Mn3—Al10vi | 114.44 (5) | Mn1x—Al8—Al10x | 60.78 (5) |
| Al13iii—Mn3—Al10vi | 60.10 (4) | Al7Axii—Al8—Al10x | 63.50 (5) |
| Al5vi—Mn3—Al10vi | 108.59 (4) | Al7Axxxviii—Al8—Al10x | 138.12 (11) |
| Al11xvii—Mn3—Al10vi | 109.26 (4) | Al6xxxix—Al8—Al10x | 116.10 (9) |
| Al11xviii—Mn3—Al10vi | 61.50 (3) | Al6xl—Al8—Al10x | 58.07 (5) |
| Al10viii—Mn3—Al10vi | 59.69 (5) | Al9xxxiii—Al8—Al10x | 57.55 (4) |
| Al2iii—Mn4—Al12iii | 70.30 (6) | Al13xxxiv—Al8—Al10x | 161.13 (8) |
| Al2iii—Mn4—Al12xix | 70.30 (6) | Al13xxvii—Al8—Al10x | 89.92 (4) |
| Al12iii—Mn4—Al12xix | 77.24 (6) | Mn2xii—Al8—Al10xxxv | 122.79 (6) |
| Al2iii—Mn4—Al4 | 119.16 (6) | Mn1x—Al8—Al10xxxv | 60.78 (5) |
| Al12iii—Mn4—Al4 | 112.57 (5) | Al7Axii—Al8—Al10xxxv | 138.12 (11) |
| Al12xix—Mn4—Al4 | 167.76 (5) | Al7Axxxviii—Al8—Al10xxxv | 63.50 (5) |
| Al2iii—Mn4—Al4xiii | 119.16 (6) | Al6xxxix—Al8—Al10xxxv | 58.07 (5) |
| Al12iii—Mn4—Al4xiii | 167.76 (5) | Al6xl—Al8—Al10xxxv | 116.10 (9) |
| Al12xix—Mn4—Al4xiii | 112.57 (5) | Al9xxxiii—Al8—Al10xxxv | 57.55 (4) |
| Al4—Mn4—Al4xiii | 56.78 (7) | Al13xxxiv—Al8—Al10xxxv | 89.92 (4) |
| Al2iii—Mn4—Al11xix | 67.93 (4) | Al13xxvii—Al8—Al10xxxv | 161.13 (8) |
| Al12iii—Mn4—Al11xix | 130.89 (5) | Al10x—Al8—Al10xxxv | 105.39 (8) |
| Al12xix—Mn4—Al11xix | 65.30 (4) | Ni1—Al9—Ni1xx | 114.80 (7) |
| Al4—Mn4—Al11xix | 109.69 (5) | Ni1—Al9—Al10xxi | 144.85 (7) |
| Al4xiii—Mn4—Al11xix | 61.32 (4) | Ni1xx—Al9—Al10xxi | 54.20 (3) |
| Al2iii—Mn4—Al11iii | 67.93 (4) | Ni1—Al9—Al10iii | 54.20 (3) |
| Al12iii—Mn4—Al11iii | 65.30 (4) | Ni1xx—Al9—Al10iii | 144.85 (7) |
| Al12xix—Mn4—Al11iii | 130.89 (5) | Al10xxi—Al9—Al10iii | 112.70 (8) |
| Al4—Mn4—Al11iii | 61.32 (4) | Ni1—Al9—Al9vii | 58.77 (3) |
| Al4xiii—Mn4—Al11iii | 109.69 (5) | Ni1xx—Al9—Al9vii | 58.77 (3) |
| Al11xix—Mn4—Al11iii | 118.44 (6) | Al10xxi—Al9—Al9vii | 110.28 (4) |
| Al2iii—Mn4—Al1 | 125.73 (7) | Al10iii—Al9—Al9vii | 110.28 (4) |
| Al12iii—Mn4—Al1 | 67.95 (4) | Ni1—Al9—Mn4iii | 108.60 (4) |
| Al12xix—Mn4—Al1 | 67.95 (4) | Ni1xx—Al9—Mn4iii | 108.60 (4) |
| Al4—Mn4—Al1 | 108.06 (4) | Al10xxi—Al9—Mn4iii | 106.47 (5) |
| Al4xiii—Mn4—Al1 | 108.06 (4) | Al10iii—Al9—Mn4iii | 106.47 (5) |
| Al11xix—Mn4—Al1 | 120.10 (3) | Al9vii—Al9—Mn4iii | 110.52 (4) |
| Al11iii—Mn4—Al1 | 120.10 (3) | Ni1—Al9—Al11 | 53.63 (3) |
| Al2iii—Mn4—Al5 | 121.80 (3) | Ni1xx—Al9—Al11 | 141.43 (7) |
| Al12iii—Mn4—Al5 | 62.05 (4) | Al10xxi—Al9—Al11 | 157.30 (8) |
| Al12xix—Mn4—Al5 | 124.60 (5) | Al10iii—Al9—Al11 | 64.15 (3) |
| Al4—Mn4—Al5 | 58.77 (5) | Al9vii—Al9—Al11 | 91.08 (4) |
| Al4xiii—Mn4—Al5 | 105.73 (4) | Mn4iii—Al9—Al11 | 56.79 (4) |
| Al11xix—Mn4—Al5 | 167.00 (5) | Ni1—Al9—Al11xx | 141.43 (7) |
| Al11iii—Mn4—Al5 | 63.11 (4) | Ni1xx—Al9—Al11xx | 53.63 (3) |
| Al1—Mn4—Al5 | 62.93 (4) | Al10xxi—Al9—Al11xx | 64.16 (3) |
| Al2iii—Mn4—Al5xiii | 121.80 (3) | Al10iii—Al9—Al11xx | 157.30 (8) |
| Al12iii—Mn4—Al5xiii | 124.60 (5) | Al9vii—Al9—Al11xx | 91.08 (4) |
| Al12xix—Mn4—Al5xiii | 62.05 (4) | Mn4iii—Al9—Al11xx | 56.79 (4) |
| Al4—Mn4—Al5xiii | 105.73 (4) | Al11—Al9—Al11xx | 109.37 (7) |
| Al4xiii—Mn4—Al5xiii | 58.77 (5) | Ni1—Al9—Al4xxi | 148.57 (6) |
| Al11xix—Mn4—Al5xiii | 63.11 (4) | Ni1xx—Al9—Al4xxi | 96.50 (4) |
| Al11iii—Mn4—Al5xiii | 167.00 (5) | Al10xxi—Al9—Al4xxi | 57.76 (5) |
| Al1—Mn4—Al5xiii | 62.93 (4) | Al10iii—Al9—Al4xxi | 101.40 (7) |
| Al5—Mn4—Al5xiii | 112.26 (5) | Al9vii—Al9—Al4xxi | 148.15 (4) |
| Al2iii—Mn4—Al9iii | 65.12 (7) | Mn4iii—Al9—Al4xxi | 55.13 (5) |
| Al12iii—Mn4—Al9iii | 119.85 (5) | Al11—Al9—Al4xxi | 99.98 (7) |
| Al12xix—Mn4—Al9iii | 119.85 (5) | Al11xx—Al9—Al4xxi | 57.08 (4) |
| Al4—Mn4—Al9iii | 62.64 (4) | Ni1—Al9—Al4iii | 96.50 (4) |
| Al4xiii—Mn4—Al9iii | 62.64 (4) | Ni1xx—Al9—Al4iii | 148.57 (6) |
| Al11xix—Mn4—Al9iii | 61.75 (3) | Al10xxi—Al9—Al4iii | 101.40 (7) |
| Al11iii—Mn4—Al9iii | 61.75 (3) | Al10iii—Al9—Al4iii | 57.76 (5) |
| Al1—Mn4—Al9iii | 169.14 (6) | Al9vii—Al9—Al4iii | 148.15 (4) |
| Al5—Mn4—Al9iii | 112.73 (4) | Mn4iii—Al9—Al4iii | 55.13 (5) |
| Al5xiii—Mn4—Al9iii | 112.73 (4) | Al11—Al9—Al4iii | 57.08 (4) |
| Al2iii—Mn4—Mn4xiv | 175.64 (6) | Al11xx—Al9—Al4iii | 99.98 (7) |
| Al12iii—Mn4—Mn4xiv | 112.93 (3) | Al4xxi—Al9—Al4iii | 52.11 (7) |
| Al12xix—Mn4—Mn4xiv | 112.93 (3) | Ni1—Al9—Al2 | 82.51 (4) |
| Al4—Mn4—Mn4xiv | 57.21 (3) | Ni1xx—Al9—Al2 | 82.51 (4) |
| Al4xiii—Mn4—Mn4xiv | 57.21 (3) | Al10xxi—Al9—Al2 | 123.19 (4) |
| Al11xix—Mn4—Mn4xiv | 110.38 (3) | Al10iii—Al9—Al2 | 123.19 (4) |
| Al11iii—Mn4—Mn4xiv | 110.38 (3) | Al9vii—Al9—Al2 | 60.21 (4) |
| Al1—Mn4—Mn4xiv | 58.63 (3) | Mn4iii—Al9—Al2 | 50.30 (4) |
| Al5—Mn4—Mn4xiv | 59.23 (2) | Al11—Al9—Al2 | 60.52 (4) |
| Al5xiii—Mn4—Mn4xiv | 59.23 (2) | Al11xx—Al9—Al2 | 60.52 (4) |
| Al9iii—Mn4—Mn4xiv | 110.52 (4) | Al4xxi—Al9—Al2 | 99.67 (6) |
| Mn2—Al1—Mn4 | 148.62 (3) | Al4iii—Al9—Al2 | 99.67 (6) |
| Mn2—Al1—Mn4xiv | 148.63 (3) | Ni1—Al9—Mn1iii | 111.21 (4) |
| Mn4—Al1—Mn4xiv | 62.75 (6) | Ni1xx—Al9—Mn1iii | 111.21 (4) |
| Mn2—Al1—Al5 | 126.65 (5) | Al10xxi—Al9—Mn1iii | 58.46 (4) |
| Mn4—Al1—Al5 | 59.36 (5) | Al10iii—Al9—Mn1iii | 58.46 (4) |
| Mn4xiv—Al1—Al5 | 59.36 (5) | Al9vii—Al9—Mn1iii | 147.96 (4) |
| Mn2—Al1—Al5xiii | 126.65 (5) | Mn4iii—Al9—Mn1iii | 101.52 (6) |
| Mn4—Al1—Al5xiii | 59.36 (5) | Al11—Al9—Mn1iii | 106.89 (5) |
| Mn4xiv—Al1—Al5xiii | 59.36 (5) | Al11xx—Al9—Mn1iii | 106.89 (5) |
| Al5—Al1—Al5xiii | 106.69 (10) | Al4xxi—Al9—Mn1iii | 55.61 (5) |
| Mn2—Al1—Al12xv | 102.72 (5) | Al4iii—Al9—Mn1iii | 55.61 (5) |
| Mn4—Al1—Al12xv | 103.75 (7) | Al2—Al9—Mn1iii | 151.82 (8) |
| Mn4xiv—Al1—Al12xv | 52.13 (3) | Ni1iii—Al10—Al4 | 105.45 (5) |
| Al5—Al1—Al12xv | 107.16 (6) | Ni1iii—Al10—Al6xii | 139.58 (5) |
| Al5xiii—Al1—Al12xv | 56.09 (3) | Al4—Al10—Al6xii | 103.57 (5) |
| Mn2—Al1—Al12iii | 102.72 (5) | Ni1iii—Al10—Al6xxiii | 123.31 (5) |
| Mn4—Al1—Al12iii | 52.13 (3) | Al4—Al10—Al6xxiii | 98.33 (5) |
| Mn4xiv—Al1—Al12iii | 103.75 (7) | Al6xii—Al10—Al6xxiii | 78.80 (7) |
| Al5—Al1—Al12iii | 56.09 (3) | Ni1iii—Al10—Mn1 | 122.22 (5) |
| Al5xiii—Al1—Al12iii | 107.16 (6) | Al4—Al10—Mn1 | 58.18 (5) |
| Al12xv—Al1—Al12iii | 154.55 (10) | Al6xii—Al10—Mn1 | 55.26 (5) |
| Mn2—Al1—Al12iv | 102.72 (5) | Al6xxiii—Al10—Mn1 | 114.14 (5) |
| Mn4—Al1—Al12iv | 103.75 (7) | Ni1iii—Al10—Al9iii | 61.91 (5) |
| Mn4xiv—Al1—Al12iv | 52.13 (3) | Al4—Al10—Al9iii | 62.38 (5) |
| Al5—Al1—Al12iv | 56.09 (3) | Al6xii—Al10—Al9iii | 109.94 (6) |
| Al5xiii—Al1—Al12iv | 107.16 (6) | Al6xxiii—Al10—Al9iii | 159.88 (7) |
| Al12xv—Al1—Al12iv | 64.22 (5) | Mn1—Al10—Al9iii | 62.12 (4) |
| Al12iii—Al1—Al12iv | 109.74 (6) | Ni1iii—Al10—Al13xxxvi | 62.42 (4) |
| Mn2—Al1—Al12xix | 102.72 (5) | Al4—Al10—Al13xxxvi | 98.14 (6) |
| Mn4—Al1—Al12xix | 52.13 (3) | Al6xii—Al10—Al13xxxvi | 138.97 (6) |
| Mn4xiv—Al1—Al12xix | 103.75 (7) | Al6xxiii—Al10—Al13xxxvi | 63.76 (5) |
| Al5—Al1—Al12xix | 107.16 (6) | Mn1—Al10—Al13xxxvi | 156.23 (6) |
| Al5xiii—Al1—Al12xix | 56.09 (3) | Al9iii—Al10—Al13xxxvi | 110.94 (6) |
| Al12xv—Al1—Al12xix | 109.74 (6) | Ni1iii—Al10—Al7Bxli | 49.75 (3) |
| Al12iii—Al1—Al12xix | 64.22 (5) | Al4—Al10—Al7Bxli | 155.17 (5) |
| Al12iv—Al1—Al12xix | 154.55 (10) | Al6xii—Al10—Al7Bxli | 97.94 (4) |
| Mn2—Al1—Al13 | 49.10 (4) | Al6xxiii—Al10—Al7Bxli | 97.86 (4) |
| Mn4—Al1—Al13 | 107.71 (3) | Mn1—Al10—Al7Bxli | 129.61 (5) |
| Mn4xiv—Al1—Al13 | 144.48 (4) | Al9iii—Al10—Al7Bxli | 98.73 (5) |
| Al5—Al1—Al13 | 85.93 (4) | Al13xxxvi—Al10—Al7Bxli | 72.59 (4) |
| Al5xiii—Al1—Al13 | 148.52 (3) | Ni1iii—Al10—Al8x | 88.21 (6) |
| Al12xv—Al1—Al13 | 148.29 (8) | Al4—Al10—Al8x | 103.25 (6) |
| Al12iii—Al1—Al13 | 55.78 (3) | Al6xii—Al10—Al8x | 57.93 (6) |
| Al12iv—Al1—Al13 | 103.80 (4) | Al6xxiii—Al10—Al8x | 134.91 (7) |
| Al12xix—Al1—Al13 | 92.86 (4) | Mn1—Al10—Al8x | 51.89 (5) |
| Mn2—Al1—Al13v | 49.10 (4) | Al9iii—Al10—Al8x | 60.42 (5) |
| Mn4—Al1—Al13v | 144.49 (4) | Al13xxxvi—Al10—Al8x | 147.50 (8) |
| Mn4xiv—Al1—Al13v | 107.71 (3) | Ni1iii—Al10—Al10v | 161.38 (3) |
| Al5—Al1—Al13v | 85.93 (4) | Al4—Al10—Al10v | 57.62 (3) |
| Al5xiii—Al1—Al13v | 148.52 (3) | Al6xii—Al10—Al10v | 57.99 (3) |
| Al12xv—Al1—Al13v | 92.86 (4) | Al6xxiii—Al10—Al10v | 58.04 (3) |
| Al12iii—Al1—Al13v | 103.80 (4) | Mn1—Al10—Al10v | 58.05 (3) |
| Al12iv—Al1—Al13v | 55.79 (3) | Al9iii—Al10—Al10v | 110.28 (4) |
| Al12xix—Al1—Al13v | 148.29 (8) | Al13xxxvi—Al10—Al10v | 109.46 (4) |
| Al13—Al1—Al13v | 58.63 (6) | Al8x—Al10—Al10v | 102.64 (6) |
| Mn2—Al1—Al13xiii | 49.10 (4) | Ni1iii—Al10—Al7Axl | 53.82 (5) |
| Mn4—Al1—Al13xiii | 107.71 (3) | Al4—Al10—Al7Axl | 144.61 (7) |
| Mn4xiv—Al1—Al13xiii | 144.49 (4) | Al6xii—Al10—Al7Axl | 86.56 (5) |
| Al5—Al1—Al13xiii | 148.52 (3) | Al6xxiii—Al10—Al7Axl | 116.97 (7) |
| Al5xiii—Al1—Al13xiii | 85.93 (4) | Mn1—Al10—Al7Axl | 105.45 (6) |
| Al12xv—Al1—Al13xiii | 103.80 (4) | Al9iii—Al10—Al7Axl | 82.25 (7) |
| Al12iii—Al1—Al13xiii | 92.86 (4) | Al13xxxvi—Al10—Al7Axl | 95.49 (6) |
| Al12iv—Al1—Al13xiii | 148.29 (8) | Al8x—Al10—Al7Axl | 53.56 (7) |
| Al12xix—Al1—Al13xiii | 55.79 (3) | Al10v—Al10—Al7Axl | 144.48 (4) |
| Al13—Al1—Al13xiii | 70.31 (7) | Ni1iii—Al10—Mn3xxiii | 104.59 (4) |
| Al13v—Al1—Al13xiii | 98.19 (9) | Al4—Al10—Mn3xxiii | 54.15 (4) |
| Mn4xxii—Al2—Mn4iii | 171.29 (12) | Al6xii—Al10—Mn3xxiii | 115.15 (5) |
| Mn4xxii—Al2—Al12 | 117.15 (7) | Al6xxiii—Al10—Mn3xxiii | 52.94 (4) |
| Mn4iii—Al2—Al12 | 56.15 (4) | Mn1—Al10—Mn3xxiii | 104.50 (4) |
| Mn4xxii—Al2—Al12v | 56.15 (4) | Al9iii—Al10—Mn3xxiii | 107.56 (5) |
| Mn4iii—Al2—Al12v | 117.15 (7) | Al13xxxvi—Al10—Mn3xxiii | 54.12 (4) |
| Al12—Al2—Al12v | 61.08 (6) | Al8x—Al10—Mn3xxiii | 156.03 (6) |
| Mn4xxii—Al2—Al12vii | 56.15 (4) | Al10v—Al10—Mn3xxiii | 60.16 (2) |
| Mn4iii—Al2—Al12vii | 117.15 (7) | Al7Axl—Al10—Mn3xxiii | 149.60 (6) |
| Al12—Al2—Al12vii | 97.05 (9) | Ni1—Al11—Mn4iii | 120.04 (5) |
| Al12v—Al2—Al12vii | 66.82 (7) | Ni1—Al11—Al4iii | 105.21 (5) |
| Mn4xxii—Al2—Al12xx | 117.15 (7) | Mn4iii—Al11—Al4iii | 58.05 (5) |
| Mn4iii—Al2—Al12xx | 56.15 (4) | Ni1—Al11—Al13vi | 63.18 (4) |
| Al12—Al2—Al12xx | 66.82 (7) | Mn4iii—Al11—Al13vi | 157.51 (6) |
| Al12v—Al2—Al12xx | 97.05 (9) | Al4iii—Al11—Al13vi | 99.47 (6) |
| Al12vii—Al2—Al12xx | 61.08 (6) | Ni1—Al11—Al12xviii | 120.70 (5) |
| Mn4xxii—Al2—Al9vii | 64.57 (5) | Mn4iii—Al11—Al12xviii | 118.86 (5) |
| Mn4iii—Al2—Al9vii | 124.14 (9) | Al4iii—Al11—Al12xviii | 99.45 (6) |
| Al12—Al2—Al9vii | 145.81 (4) | Al13vi—Al11—Al12xviii | 60.03 (4) |
| Al12v—Al2—Al9vii | 108.81 (4) | Ni1—Al11—Al12 | 140.58 (6) |
| Al12vii—Al2—Al9vii | 108.81 (4) | Mn4iii—Al11—Al12 | 53.81 (4) |
| Al12xx—Al2—Al9vii | 145.82 (4) | Al4iii—Al11—Al12 | 100.93 (6) |
| Mn4xxii—Al2—Al9 | 124.14 (9) | Al13vi—Al11—Al12 | 139.80 (6) |
| Mn4iii—Al2—Al9 | 64.57 (5) | Al12xviii—Al11—Al12 | 82.62 (5) |
| Al12—Al2—Al9 | 108.81 (4) | Ni1—Al11—Al9 | 60.86 (4) |
| Al12v—Al2—Al9 | 145.81 (4) | Mn4iii—Al11—Al9 | 61.46 (4) |
| Al12vii—Al2—Al9 | 145.81 (4) | Al4iii—Al11—Al9 | 61.51 (5) |
| Al12xx—Al2—Al9 | 108.81 (4) | Al13vi—Al11—Al9 | 110.64 (6) |
| Al9vii—Al2—Al9 | 59.57 (9) | Al12xviii—Al11—Al9 | 158.50 (6) |
| Mn4xxii—Al2—Al11xx | 122.17 (3) | Al12—Al11—Al9 | 109.52 (5) |
| Mn4iii—Al2—Al11xx | 60.75 (3) | Ni1—Al11—Al2 | 85.94 (6) |
| Al12—Al2—Al11xx | 112.13 (4) | Mn4iii—Al11—Al2 | 51.31 (3) |
| Al12v—Al2—Al11xx | 153.77 (8) | Al4iii—Al11—Al2 | 102.30 (5) |
| Al12vii—Al2—Al11xx | 90.36 (4) | Al13vi—Al11—Al2 | 145.99 (6) |
| Al12xx—Al2—Al11xx | 59.07 (3) | Al12xviii—Al11—Al2 | 139.28 (7) |
| Al9vii—Al2—Al11xx | 90.20 (6) | Al12—Al11—Al2 | 59.75 (6) |
| Al9—Al2—Al11xx | 59.65 (4) | Al9—Al11—Al2 | 59.83 (6) |
| Mn4xxii—Al2—Al11v | 60.75 (3) | Ni1—Al11—Al5iii | 160.26 (6) |
| Mn4iii—Al2—Al11v | 122.17 (3) | Mn4iii—Al11—Al5iii | 59.85 (4) |
| Al12—Al2—Al11v | 90.36 (4) | Al4iii—Al11—Al5iii | 56.74 (5) |
| Al12v—Al2—Al11v | 59.07 (3) | Al13vi—Al11—Al5iii | 108.98 (6) |
| Al12vii—Al2—Al11v | 112.13 (4) | Al12xviii—Al11—Al5iii | 60.86 (5) |
| Al12xx—Al2—Al11v | 153.77 (8) | Al12—Al11—Al5iii | 57.49 (4) |
| Al9vii—Al2—Al11v | 59.65 (4) | Al9—Al11—Al5iii | 109.91 (6) |
| Al9—Al2—Al11v | 90.19 (6) | Al2—Al11—Al5iii | 104.78 (6) |
| Al11xx—Al2—Al11v | 146.39 (10) | Ni1—Al11—Mn3xviii | 104.64 (4) |
| Mn4xxii—Al2—Al11vii | 60.75 (3) | Mn4iii—Al11—Mn3xviii | 105.35 (5) |
| Mn4iii—Al2—Al11vii | 122.17 (3) | Al4iii—Al11—Mn3xviii | 54.22 (4) |
| Al12—Al2—Al11vii | 153.77 (8) | Al13vi—Al11—Mn3xviii | 54.73 (4) |
| Al12v—Al2—Al11vii | 112.13 (4) | Al12xviii—Al11—Mn3xviii | 52.49 (4) |
| Al12vii—Al2—Al11vii | 59.07 (3) | Al12—Al11—Mn3xviii | 114.57 (5) |
| Al12xx—Al2—Al11vii | 90.36 (4) | Al9—Al11—Mn3xviii | 106.02 (5) |
| Al9vii—Al2—Al11vii | 59.65 (4) | Al2—Al11—Mn3xviii | 155.83 (5) |
| Al9—Al2—Al11vii | 90.19 (6) | Al5iii—Al11—Mn3xviii | 59.41 (4) |
| Al11xx—Al2—Al11vii | 61.59 (5) | Ni1—Al11—Al11v | 54.29 (3) |
| Al11v—Al2—Al11vii | 107.97 (6) | Mn4iii—Al11—Al11v | 110.38 (3) |
| Mn4xxii—Al2—Al11 | 122.17 (3) | Al4iii—Al11—Al11v | 150.42 (4) |
| Mn4iii—Al2—Al11 | 60.75 (3) | Al13vi—Al11—Al11v | 89.65 (4) |
| Al12—Al2—Al11 | 59.07 (3) | Al12xviii—Al11—Al11v | 109.41 (4) |
| Al12v—Al2—Al11 | 90.36 (4) | Al12—Al11—Al11v | 89.35 (4) |
| Al12vii—Al2—Al11 | 153.77 (8) | Al9—Al11—Al11v | 88.92 (4) |
| Al12xx—Al2—Al11 | 112.13 (4) | Al2—Al11—Al11v | 59.20 (3) |
| Al9vii—Al2—Al11 | 90.19 (6) | Al5iii—Al11—Al11v | 145.45 (4) |
| Al9—Al2—Al11 | 59.65 (4) | Mn3xviii—Al11—Al11v | 144.17 (3) |
| Al11xx—Al2—Al11 | 107.97 (6) | Ni1—Al11—Al10iii | 53.44 (3) |
| Al11v—Al2—Al11 | 61.59 (5) | Mn4iii—Al11—Al10iii | 104.42 (5) |
| Al11vii—Al2—Al11 | 146.39 (10) | Al4iii—Al11—Al10iii | 56.65 (5) |
| Mn3—Al3—Mn3xx | 174.83 (12) | Al13vi—Al11—Al10iii | 58.05 (4) |
| Mn3—Al3—Al6xx | 128.61 (10) | Al12xviii—Al11—Al10iii | 105.30 (5) |
| Mn3xx—Al3—Al6xx | 56.56 (5) | Al12—Al11—Al10iii | 156.83 (6) |
| Mn3—Al3—Al6 | 56.56 (5) | Al9—Al11—Al10iii | 56.86 (4) |
| Mn3xx—Al3—Al6 | 128.61 (10) | Al2—Al11—Al10iii | 115.42 (6) |
| Al6xx—Al3—Al6 | 72.05 (9) | Al5iii—Al11—Al10iii | 106.83 (5) |
| Mn3—Al3—Al12xx | 120.36 (8) | Mn3xviii—Al11—Al10iii | 59.38 (4) |
| Mn3xx—Al3—Al12xx | 55.46 (4) | Al11v—Al11—Al10iii | 107.73 (3) |
| Al6xx—Al3—Al12xx | 103.70 (4) | Mn4iii—Al12—Mn3 | 161.15 (6) |
| Al6—Al3—Al12xx | 150.24 (3) | Mn4iii—Al12—Al5iii | 64.16 (5) |
| Mn3—Al3—Al12vii | 120.36 (8) | Mn3—Al12—Al5iii | 133.76 (6) |
| Mn3xx—Al3—Al12vii | 55.46 (4) | Mn4iii—Al12—Al13iii | 122.41 (6) |
| Al6xx—Al3—Al12vii | 103.70 (4) | Mn3—Al12—Al13iii | 58.70 (4) |
| Al6—Al3—Al12vii | 150.24 (3) | Al5iii—Al12—Al13iii | 93.09 (6) |
| Al12xx—Al3—Al12vii | 59.39 (6) | Mn4iii—Al12—Al11xviii | 131.84 (6) |
| Mn3—Al3—Al12v | 55.46 (4) | Mn3—Al12—Al11xviii | 66.33 (4) |
| Mn3xx—Al3—Al12v | 120.35 (8) | Al5iii—Al12—Al11xviii | 67.68 (5) |
| Al6xx—Al3—Al12v | 150.24 (3) | Al13iii—Al12—Al11xviii | 58.79 (4) |
| Al6—Al3—Al12v | 103.70 (4) | Mn4iii—Al12—Al11 | 60.89 (4) |
| Al12xx—Al3—Al12v | 93.84 (8) | Mn3—Al12—Al11 | 128.46 (6) |
| Al12vii—Al3—Al12v | 64.92 (6) | Al5iii—Al12—Al11 | 62.40 (5) |
| Mn3—Al3—Al12 | 55.46 (4) | Al13iii—Al12—Al11 | 152.13 (6) |
| Mn3xx—Al3—Al12 | 120.35 (8) | Al11xviii—Al12—Al11 | 97.38 (5) |
| Al6xx—Al3—Al12 | 150.24 (3) | Mn4iii—Al12—Al2 | 53.54 (3) |
| Al6—Al3—Al12 | 103.70 (4) | Mn3—Al12—Al2 | 113.47 (5) |
| Al12xx—Al3—Al12 | 64.92 (6) | Al5iii—Al12—Al2 | 109.70 (6) |
| Al12vii—Al3—Al12 | 93.84 (8) | Al13iii—Al12—Al2 | 145.60 (6) |
| Al12v—Al3—Al12 | 59.38 (6) | Al11xviii—Al12—Al2 | 153.67 (6) |
| Mn3—Al3—Al13iv | 55.87 (3) | Al11—Al12—Al2 | 61.18 (5) |
| Mn3xx—Al3—Al13iv | 125.40 (3) | Mn4iii—Al12—Al5vi | 125.99 (6) |
| Al6xx—Al3—Al13iv | 99.90 (7) | Mn3—Al12—Al5vi | 63.87 (4) |
| Al6—Al3—Al13iv | 60.04 (4) | Al5iii—Al12—Al5vi | 97.44 (4) |
| Al12xx—Al3—Al13iv | 147.01 (8) | Al13iii—Al12—Al5vi | 108.09 (6) |
| Al12vii—Al3—Al13iv | 92.89 (4) | Al11xviii—Al12—Al5vi | 60.97 (4) |
| Al12v—Al3—Al13iv | 55.79 (3) | Al11—Al12—Al5vi | 65.61 (5) |
| Al12—Al3—Al13iv | 103.07 (5) | Al2—Al12—Al5vi | 94.51 (5) |
| Mn3—Al3—Al13xxi | 125.40 (3) | Mn4iii—Al12—Al12v | 112.93 (3) |
| Mn3xx—Al3—Al13xxi | 55.87 (3) | Mn3—Al12—Al12v | 55.32 (3) |
| Al6xx—Al3—Al13xxi | 60.04 (4) | Al5iii—Al12—Al12v | 151.29 (4) |
| Al6—Al3—Al13xxi | 99.90 (7) | Al13iii—Al12—Al12v | 110.01 (4) |
| Al12xx—Al3—Al13xxi | 55.79 (3) | Al11xviii—Al12—Al12v | 109.41 (4) |
| Al12vii—Al3—Al13xxi | 103.07 (5) | Al11—Al12—Al12v | 90.65 (4) |
| Al12v—Al3—Al13xxi | 147.01 (8) | Al2—Al12—Al12v | 59.46 (3) |
| Al12—Al3—Al13xxi | 92.89 (4) | Al5vi—Al12—Al12v | 59.92 (3) |
| Al13iv—Al3—Al13xxi | 156.64 (10) | Mn4iii—Al12—Al3 | 108.70 (5) |
| Mn3—Al3—Al13xxii | 125.40 (3) | Mn3—Al12—Al3 | 53.43 (4) |
| Mn3xx—Al3—Al13xxii | 55.87 (3) | Al5iii—Al12—Al3 | 148.34 (6) |
| Al6xx—Al3—Al13xxii | 60.04 (4) | Al13iii—Al12—Al3 | 63.77 (5) |
| Al6—Al3—Al13xxii | 99.90 (7) | Al11xviii—Al12—Al3 | 111.56 (5) |
| Al12xx—Al3—Al13xxii | 103.07 (5) | Al11—Al12—Al3 | 143.97 (6) |
| Al12vii—Al3—Al13xxii | 55.79 (3) | Al2—Al12—Al3 | 84.56 (6) |
| Al12v—Al3—Al13xxii | 92.89 (4) | Al5vi—Al12—Al3 | 109.80 (5) |
| Al12—Al3—Al13xxii | 147.01 (8) | Al12v—Al12—Al3 | 60.31 (3) |
| Al13iv—Al3—Al13xxii | 69.61 (5) | Mn4iii—Al12—Al1iii | 59.92 (5) |
| Al13xxi—Al3—Al13xxii | 105.46 (6) | Mn3—Al12—Al1iii | 119.49 (6) |
| Mn3—Al3—Al13iii | 55.87 (3) | Al5iii—Al12—Al1iii | 61.05 (5) |
| Mn3xx—Al3—Al13iii | 125.40 (3) | Al13iii—Al12—Al1iii | 62.78 (6) |
| Al6xx—Al3—Al13iii | 99.90 (7) | Al11xviii—Al12—Al1iii | 95.91 (5) |
| Al6—Al3—Al13iii | 60.04 (4) | Al11—Al12—Al1iii | 110.32 (6) |
| Al12xx—Al3—Al13iii | 92.89 (4) | Al2—Al12—Al1iii | 105.59 (5) |
| Al12vii—Al3—Al13iii | 147.01 (8) | Al5vi—Al12—Al1iii | 154.32 (5) |
| Al12v—Al3—Al13iii | 103.07 (5) | Al12v—Al12—Al1iii | 144.87 (3) |
| Al12—Al3—Al13iii | 55.79 (3) | Al3—Al12—Al1iii | 88.24 (5) |
| Al13iv—Al3—Al13iii | 105.46 (6) | Mn2—Al13—Mn3iii | 149.28 (6) |
| Al13xxi—Al3—Al13iii | 69.61 (5) | Mn2—Al13—Al7A | 59.00 (7) |
| Al13xxii—Al3—Al13iii | 156.64 (10) | Mn3iii—Al13—Al7A | 134.09 (6) |
| Al4xiii—Al4—Mn3xxiii | 179.94 (4) | Mn2—Al13—Al11xxiii | 140.75 (7) |
| Al4xiii—Al4—Mn4xiv | 61.61 (4) | Mn3iii—Al13—Al11xxiii | 66.42 (4) |
| Mn3xxiii—Al4—Mn4xiv | 118.34 (5) | Al7A—Al13—Al11xxiii | 113.16 (8) |
| Al4xiii—Al4—Mn4 | 61.61 (4) | Mn2—Al13—Ni1xxiii | 102.62 (5) |
| Mn3xxiii—Al4—Mn4 | 118.34 (5) | Mn3iii—Al13—Ni1xxiii | 107.22 (5) |
| Mn4xiv—Al4—Mn4 | 65.57 (5) | Al7A—Al13—Ni1xxiii | 58.62 (6) |
| Al4xiii—Al4—Mn1 | 61.94 (4) | Al11xxiii—Al13—Ni1xxiii | 54.73 (4) |
| Mn3xxiii—Al4—Mn1 | 118.11 (6) | Mn2—Al13—Al12iii | 117.03 (7) |
| Mn4xiv—Al4—Mn1 | 112.85 (5) | Mn3iii—Al13—Al12iii | 56.18 (4) |
| Mn4—Al4—Mn1 | 112.85 (5) | Al7A—Al13—Al12iii | 167.20 (7) |
| Al4xiii—Al4—Al5 | 113.51 (5) | Al11xxiii—Al13—Al12iii | 61.18 (4) |
| Mn3xxiii—Al4—Al5 | 66.43 (6) | Ni1xxiii—Al13—Al12iii | 113.74 (5) |
| Mn4xiv—Al4—Al5 | 63.50 (5) | Mn2—Al13—Al10xxxvi | 130.87 (7) |
| Mn4—Al4—Al5 | 63.50 (5) | Mn3iii—Al13—Al10xxxvi | 65.78 (4) |
| Mn1—Al4—Al5 | 175.45 (8) | Al7A—Al13—Al10xxxvi | 72.73 (6) |
| Al4xiii—Al4—Al10 | 113.02 (4) | Al11xxiii—Al13—Al10xxxvi | 65.72 (4) |
| Mn3xxiii—Al4—Al10 | 67.03 (5) | Ni1xxiii—Al13—Al10xxxvi | 53.97 (4) |
| Mn4xiv—Al4—Al10 | 174.21 (8) | Al12iii—Al13—Al10xxxvi | 112.08 (6) |
| Mn4—Al4—Al10 | 114.51 (3) | Mn2—Al13—Al8xvi | 52.37 (6) |
| Mn1—Al4—Al10 | 61.53 (4) | Mn3iii—Al13—Al8xvi | 107.45 (7) |
| Al5—Al4—Al10 | 122.04 (7) | Al7A—Al13—Al8xvi | 56.17 (7) |
| Al4xiii—Al4—Al10v | 113.02 (4) | Al11xxiii—Al13—Al8xvi | 159.89 (6) |
| Mn3xxiii—Al4—Al10v | 67.03 (5) | Ni1xxiii—Al13—Al8xvi | 113.35 (6) |
| Mn4xiv—Al4—Al10v | 114.51 (3) | Al12iii—Al13—Al8xvi | 132.88 (7) |
| Mn4—Al4—Al10v | 174.21 (8) | Al10xxxvi—Al13—Al8xvi | 94.20 (5) |
| Mn1—Al4—Al10v | 61.53 (4) | Mn2—Al13—Al13v | 51.85 (3) |
| Al5—Al4—Al10v | 122.04 (7) | Mn3iii—Al13—Al13v | 156.42 (3) |
| Al10—Al4—Al10v | 64.76 (6) | Al7A—Al13—Al13v | 57.51 (4) |
| Al4xiii—Al4—Al11iii | 113.18 (4) | Al11xxiii—Al13—Al13v | 90.35 (4) |
| Mn3xxiii—Al4—Al11iii | 66.80 (4) | Ni1xxiii—Al13—Al13v | 58.13 (3) |
| Mn4xiv—Al4—Al11iii | 116.83 (6) | Al12iii—Al13—Al13v | 110.01 (4) |
| Mn4—Al4—Al11iii | 60.63 (3) | Al10xxxvi—Al13—Al13v | 109.45 (4) |
| Mn1—Al4—Al11iii | 116.63 (4) | Al8xvi—Al13—Al13v | 95.79 (6) |
| Al5—Al4—Al11iii | 64.51 (4) | Mn2—Al13—Al6iii | 108.64 (6) |
| Al10—Al4—Al11iii | 66.64 (4) | Mn3iii—Al13—Al6iii | 54.29 (4) |
| Al10v—Al4—Al11iii | 122.34 (7) | Al7A—Al13—Al6iii | 87.37 (5) |
| Al4xiii—Al4—Al11iv | 113.18 (4) | Al11xxiii—Al13—Al6iii | 109.27 (6) |
| Mn3xxiii—Al4—Al11iv | 66.80 (4) | Ni1xxiii—Al13—Al6iii | 109.41 (5) |
| Mn4xiv—Al4—Al11iv | 60.63 (3) | Al12iii—Al13—Al6iii | 105.27 (6) |
| Mn4—Al4—Al11iv | 116.83 (6) | Al10xxxvi—Al13—Al6iii | 57.61 (5) |
| Mn1—Al4—Al11iv | 116.63 (4) | Al8xvi—Al13—Al6iii | 56.54 (6) |
| Al5—Al4—Al11iv | 64.51 (4) | Al13v—Al13—Al6iii | 144.62 (4) |
| Al10—Al4—Al11iv | 122.34 (7) | Mn2—Al13—Al1 | 58.45 (6) |
| Al10v—Al4—Al11iv | 66.64 (4) | Mn3iii—Al13—Al1 | 115.78 (6) |
| Al11iii—Al4—Al11iv | 120.83 (8) | Al7A—Al13—Al1 | 109.92 (7) |
| Al4xiii—Al4—Al9xv | 63.95 (3) | Al11xxiii—Al13—Al1 | 96.52 (5) |
| Mn3xxiii—Al4—Al9xv | 116.07 (4) | Ni1xxiii—Al13—Al1 | 109.98 (4) |
| Mn4xiv—Al4—Al9xv | 62.23 (4) | Al12iii—Al13—Al1 | 61.44 (5) |
| Mn4—Al4—Al9xv | 117.00 (6) | Al10xxxvi—Al13—Al1 | 160.56 (6) |
| Mn1—Al4—Al9xv | 62.31 (4) | Al8xvi—Al13—Al1 | 103.19 (6) |
| Al5—Al4—Al9xv | 116.32 (5) | Al13v—Al13—Al1 | 60.68 (3) |
| Al10—Al4—Al9xv | 114.06 (7) | Al6iii—Al13—Al1 | 140.42 (6) |
| Al10v—Al4—Al9xv | 59.86 (4) | Mn2—Al13—Al3iii | 97.93 (5) |
| Al11iii—Al4—Al9xv | 177.12 (7) | Mn3iii—Al13—Al3iii | 51.70 (3) |
| Al11iv—Al4—Al9xv | 61.41 (4) | Al7A—Al13—Al3iii | 130.66 (8) |
| Al4xiii—Al4—Al9iii | 63.95 (3) | Al11xxiii—Al13—Al3iii | 110.78 (6) |
| Mn3xxiii—Al4—Al9iii | 116.07 (4) | Ni1xxiii—Al13—Al3iii | 158.58 (5) |
| Mn4xiv—Al4—Al9iii | 117.00 (6) | Al12iii—Al13—Al3iii | 60.44 (6) |
| Mn4—Al4—Al9iii | 62.23 (4) | Al10xxxvi—Al13—Al3iii | 107.22 (5) |
| Mn1—Al4—Al9iii | 62.31 (4) | Al8xvi—Al13—Al3iii | 74.99 (7) |
| Al5—Al4—Al9iii | 116.32 (5) | Al13v—Al13—Al3iii | 142.73 (3) |
| Al10—Al4—Al9iii | 59.86 (4) | Al6iii—Al13—Al3iii | 57.38 (6) |
| Al10v—Al4—Al9iii | 114.06 (7) | Al1—Al13—Al3iii | 85.90 (5) |
| Al11iii—Al4—Al9iii | 61.41 (4) |
| Symmetry codes: (i) x, y+1, z; (ii) −x, −y+2, −z+1; (iii) −x+1/2, −y+3/2, −z+1; (iv) x−1/2, −y+3/2, −z+1; (v) −x, y, z; (vi) x, y, z−1; (vii) −x, y, −z+1/2; (viii) −x, y, z−1; (ix) x−1/2, −y+1/2, z+1/2; (x) −x+1/2, −y+1/2, −z+1; (xi) −x, −y+1, z+1/2; (xii) −x, −y+1, −z+1; (xiii) x, y, −z+3/2; (xiv) −x, y, −z+3/2; (xv) x−1/2, −y+3/2, z+1/2; (xvi) x, −y+1, z+1/2; (xvii) x−1/2, −y+3/2, −z; (xviii) −x+1/2, −y+3/2, −z; (xix) −x+1/2, −y+3/2, z+1/2; (xx) x, y, −z+1/2; (xxi) −x+1/2, −y+3/2, z−1/2; (xxii) x−1/2, −y+3/2, z−1/2; (xxiii) x, y, z+1; (xxiv) −x, y, z+1; (xxv) −x+1/2, y+1/2, −z+1/2; (xxvi) x−1/2, y+1/2, z; (xxvii) x, −y+1, −z+1; (xxviii) −x, −y+2, −z+2; (xxix) −x+1/2, y+1/2, z; (xxx) −x+1/2, y−1/2, z−1; (xxxi) x−1/2, −y+1/2, −z+1; (xxxii) x−1/2, y−1/2, z−1; (xxxiii) x, y−1, z; (xxxiv) x, −y+1, z−1/2; (xxxv) −x+1/2, −y+1/2, z−1/2; (xxxvi) −x+1/2, −y+3/2, −z+2; (xxxvii) −x, −y+1, −z; (xxxviii) −x, −y+1, z−1/2; (xxxix) x+1/2, y−1/2, −z+1/2; (xl) x+1/2, y−1/2, z; (xli) x+1/2, y+1/2, z+1. |
Funding information
Funding for this research was provided by: The National Natural Science Foundation of China (grant No. 52173231 and 51771165).
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