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Acta Crystallographica Section E

Structure Reports

Online

ISSN 1600-5368

A new ternary indide, Ce

20

Pd

36

In

67

Anna I. Tursina,a* Sergei N. Nesterenko,aHenri Noe¨lband Yuri D. Seropegina

aDepartment of Chemistry, Moscow State

University, Leninskie Gory, 119 992 GSP-2 Moscow, Russia, andbLaboratoire de Chimie du Solide et Inorganique Mole´culaire, UMR–CNRS 6511, Universite´ de Rennes 1, Avenue du Ge´ne´ral Leclerc, F-35042 Rennes, France

Correspondence e-mail: tursina@newmail.ru

Key indicators

Single-crystal X-ray study

T= 291 K

Mean(In–In) = 0.002 A˚

Rfactor = 0.034

wRfactor = 0.079

Data-to-parameter ratio = 10.6

For details of how these key indicators were automatically derived from the article, see http://journals.iucr.org/e.

The intermetallic compound, cerium palladium indide, Ce20Pd36In67, crystallizes in a new structure type in which

atoms have significantly distorted polyhedra with coordination numbers CN 15–18 for Ce and CN 8–13 for Pd and In.

Comment

Crystal structures of five ternary compounds from the Ce–Pd– In system have been reported previously: CePdIn2(Ijiriet al.,

1996), Ce4Pd10In21(Zarembaet al., 2003), CePd2In4

(Nester-enko, Tursina, Gribanovet al., 2004), CePd3In2 (Nesterenko,

Tursina, Rogl & Seropegin, 2004) and CePdIn (Tursinaet al., 2004). We present here the ternary compound Ce20Pd36In67

exhibiting a new structure type.

In this structure, all atom sites are fully occupied, except for Pd1, Pd2, In1 and In2. The Pd1 and Pd2 sites represent closely spaced split positions (96i), with occupancies of 0.66 (2) and 0.34 (2), respectively, and a Pd1—Pd2 separation of

[image:1.610.210.459.387.690.2]

Received 7 April 2005 Accepted 25 April 2005 Online 14 May 2005

Figure 1

Projection of Ce20Pd36In67, with Ce atoms shown as green circles, Pd

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0.579 (7) A˚ . Likewise, the In1 and In2 sites represent split positions (48h), with occupancies of 0.68 (1) and 0.32 (1), respectively, and an In1—In2 separation of 0.893 (6) A˚ .

All atoms have significantly distorted coordination poly-hedra. Atoms Ce1 and Ce2 are at the centres of pentagonal prisms with five and eight additional atoms, respectively. The coordination polyhedra around atoms Ce3 and Ce4 are essentially distorted hexagonal prisms with additional atoms, viz. Ce3[Pd6In12] and Ce4[Pd7In9]. Most of the Pd and In

atoms have a distorted icosahedral environment, with coor-dination numbers in the range 9–13. The Ce atoms are among the nearest neighbours of all Pd and In atoms with Ce—Pd(In) distances not exceeding 3.610 (2) A˚ (Table 1). Only Pd4—Ce distances considerably exceed the sum of the metallic radii of Ce and Pd (>4 A˚ ). Consequently, atom Pd4 is surrounded by eight In atoms [2.693 (2)–2.858 (2) A˚ ], which form a slightly distorted cube.

Fig. 1 shows the complex three-dimensional network of the structure and Fig. 2 shows the asymmetric unit.

Experimental

An ingot of nominal composition Ce17Pd32In51was prepared by arc melting under argon from Ce (99.85%), Pd (99.9%) and In (99.9%). The sample was annealed at 770 K in a silica tube under argon for 700 h. A single crystal was obtained from the crushed ingot. From EMPA analyses (Jeol JSM 6400 scanning electron microscope equipped with an Si/Li energy dispersive analyser), the composition of the new phase was estimated to be Ce16.5Pd30.4In53.1, in good agreement with the composition of the Ce20Pd36In67 compound in atomic percent,viz. Ce16.26Pd29.27In54.47.

Crystal data

Ce20Pd36In67

Mr= 14325.74

Cubic,F43m a= 21.8382 (8) A˚

V= 10414.8 (7) A˚3

Z= 4

Dx= 9.136 Mg m 3 MoKradiation

Cell parameters from 23 reflections

= 14.2–16.4

= 29.04 mm1

T= 291 (2) K

Prism, metallic light grey 0.120.050.03 mm

Data collection

Enraf–Nonius CAD-4 diffractometer

!scans

Absorption correction: scan (Northet al., 1968)

Tmin= 0.207,Tmax= 0.418 9710 measured reflections 958 independent reflections 897 reflections withI> 2(I)

Rint= 0.055

max= 31.9

h= 0!32

k= 0!32

l=32!8 2 standard reflections

frequency: 120 min intensity decay: none

Refinement

Refinement onF2

R[F2> 2(F2)] = 0.034

wR(F2) = 0.079

S= 1.26 958 reflections 90 parameters

(/)max< 0.001

max= 1.97 e A˚

3

min=2.81 e A˚

3

Extinction correction:SHELXL97

[image:2.610.346.528.74.319.2] [image:2.610.313.568.386.702.2]

Extinction coefficient: 0.0000133 (11)

Table 1

Selected bond lengths (A˚ ).

Ce1—Pd1i

3.120 (6) Ce1—In6ii 3.296 (3) Ce1—In9iii

3.3002 (14) Ce1—Pd5iv

3.3040 (12) Ce1—In3v 3.3228 (9) Ce1—In5vi 3.4096 (17) Ce1—Pd2vii 3.490 (11) Ce2—In3viii 3.3713 (16) Ce2—In5ix 3.4171 (9) Ce2—Pd2x

3.429 (4) Ce2—Pd1xi

3.430 (2) Ce2—In4x 3.437 (2) Ce2—In1x 3.544 (3) Ce2—Pd3xii 3.5560 (13) Ce2—In8xiii 3.5862 (16) Ce3—Pd2xiv 3.244 (5) Ce3—In6 3.3141 (14) Ce3—In4 3.3812 (19) Ce3—Pd1xv

3.392 (4) Ce3—In7vii

3.442 (2) Ce3—In1 3.451 (3) Ce4—Pd5 3.142 (3) Ce4—In2xvi 3.261 (3) Ce4—In3xvii 3.324 (2) Ce4—In1xviii 3.4519 (18) Ce4—Pd2xix 3.495 (10) Ce4—In10xx

3.610 (2) Pd1—In4 2.607 (4) Pd1—In1 2.690 (9) Pd1—Pd1xiv

2.770 (6) Pd1—In3xxi

2.774 (2) Pd1—In5xxii 2.806 (8) Pd1—In6 2.913 (6) Pd1—In2 3.305 (10)

Pd2—In1 2.157 (14) Pd2—Pd2xiv 2.542 (9) Pd2—In2 2.737 (15) Pd2—In3xxi

2.833 (5) Pd2—In4 2.866 (8) Pd2—Pd2xxiii

3.202 (14) Pd2—In6 3.298 (11) Pd2—In5xxii

3.319 (14) Pd3—In8xxiv 2.841 (2) Pd3—In5xxv

2.8773 (19) Pd3—In4ii

3.030 (3) Pd4—In5xxvi 2.693 (2) Pd4—In9 2.710 (4) Pd4—In8 2.831 (4) Pd4—In3xxvi 2.858 (2) Pd5—In9xxvii 2.765 (2) Pd5—In3xvii 2.7937 (18) In1—In1xxviii 2.654 (6) In1—In2vi 2.756 (5) In1—In1vi 3.332 (5) In2—In2xxviii 2.716 (10) In2—In10 2.760 (6) In3—In9xxix 3.186 (2) In3—In5xxx 3.2524 (16) In4—In4xxii 2.840 (3) In4—In7ii 2.863 (3) In4—In5xxii 2.9569 (18) In4—In6 3.2491 (13) In5—In8xxix 3.134 (2) In6—In7vii

2.9618 (18) In7—In7vii

2.845 (5) In8—In8xxiv 3.174 (4) In9—In9xxvii

3.218 (4)

Symmetry codes: (i) 1 2x;

1

2z;y; (ii) 1 2x;

1

2y;z; (iii) x;1y;1z; (iv) 3

2x;y 1

2;1z; (v) 1 2þy;1z;

1

2x; (vi) z;y;x; (vii) 1 2x;y;

1

2z; (viii)

1z;y;x; (ix)1 2y;

1

2z;x; (x)z;y;x; (xi)z;x;y; (xii)x; 1 2y;

1 2z; (xiii)

1x;y1 2;

1

2z; (xiv)x;z;y; (xv)y;z;x; (xvi) 1z;1y;1þx; (xvii)z;1y;1x;

(xviii) 1þx;1y;1z; (xix) 1þx;1z;1y; (xx) 1þx;1þy;1þz; (xxi)

Figure 2

The asymmetric unit of Ce20Pd36In67, with displacement ellipsoids drawn

[image:2.610.125.552.387.754.2]
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The atomic parameters were standardized with the program

STRUCTURE-TIDY(Gelato & Parthe´, 1987). The highest peak and the deepest hole in the final difference map are located 0.66 A˚ from In6 and 0.28 A˚ from In7, respectively.

Data collection and cell refinement: CAD-4 EXPRESS(Enraf– Nonius, 1994); data reduction:XCAD4 (Harms & Wocadlo, 1995); structure solution: SHELXS97 (Sheldrick, 1997); structure refine-ment: SHELXL97 (Sheldrick, 1997); molecular graphics: DIA-MOND (Brandenburg, 1998) and ORTEP-3 (Farrugia, 1997); publication material:WinGXpublication routines (Farrugia, 1999).

This work was supported by the RFBR project No. 05-03-33045. We are greatful to A. V. Mironov for help with the X-ray experiment and for discussion.

References

Brandenburg, K. (1998). DIAMOND.Version 2.1b. Crystal Impact GbR, Bonn, Germany.

Enraf–Nonius (1994).CAD-4 EXPRESS. Enraf–Nonius, Delft, The Nether-lands.

Farrugia, L. J. (1997).J. Appl. Cryst.30, 565. Farrugia, L. J. (1999).J. Appl. Cryst.32, 837–838. Flack, H. D. (1983).Acta Cryst.A39, 876–881.

Gelato, L. M. & Parthe´, E. (1987).J. Appl. Cryst.20, 139–143.

Harms, K. & Wocadlo, S. (1995).XCAD4. University of Marburg, Germany. Ijiri, Y., DiSalvo, F. J. & Yamane, H. (1996).J. Solid State Chem.122, 143–

147.

Nesterenko, S. N., Tursina, A. I., Gribanov, A. V., Seropegin, Y. D. & Kurenbaeva, J. M. (2004).J. Alloys Compd,383, 242–244.

Nesterenko, S. N., Tursina, A. I., Rogl, P. & Seropegin, Y. D. (2004).J. Alloys Compd,373, 220–222.

North, A. C. T., Phillips, D. C. & Mathews, F. S. (1968).Acta Cryst.A24, 351– 359.

Sheldrick, G. M. (1997). SHELXS97 and SHELXL97. University of Go¨ttingen, Germany.

Tursina, A. I., Nesterenko, S. N. & Seropegin, Y. D. (2004).Acta Cryst.E60, i64–i65.

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supporting information

Acta Cryst. (2005). E61, i99–i101 [https://doi.org/10.1107/S1600536805013048]

A new ternary indide, Ce

20

Pd

36

In

67

Anna I. Tursina, Sergei N. Nesterenko, Henri No

ë

l and Yuri D. Seropegin

cerium palladium indide

Crystal data Ce20Pd36In67

Mr = 14325.74 Cubic, F43m Hall symbol: F -4 2 3 a = 21.8382 (8) Å V = 10414.8 (7) Å3

Z = 4

F(000) = 24396

Dx = 9.136 Mg m−3

Mo radiation, λ = 0.71073 Å Cell parameters from 23 reflections θ = 14.2–16.4°

µ = 29.04 mm−1

T = 291 K

Prism, metallic light grey 0.12 × 0.05 × 0.03 mm

Data collection Enraf–Nonius CAD-4

diffractometer

Radiation source: fine-focus sealed tube Graphite monochromator

ω scans

Absorption correction: ψ scan (North et al., 1968)

Tmin = 0.207, Tmax = 0.418

9710 measured reflections

958 independent reflections 897 reflections with I > 2σ(I) Rint = 0.055

θmax = 31.9°, θmin = 2.6°

h = 0→32 k = 0→32 l = −32→8

2 standard reflections every 120 min intensity decay: none

Refinement Refinement on F2

Least-squares matrix: full R[F2 > 2σ(F2)] = 0.034

wR(F2) = 0.079

S = 1.26 958 reflections 90 parameters 0 restraints

Primary atom site location: structure-invariant direct methods

Secondary atom site location: difference Fourier map

w = 1/[σ2(F

o2) + (0.0194P)2 + 1250.5768P]

where P = (Fo2 + 2Fc2)/3

(Δ/σ)max < 0.001

Δρmax = 1.97 e Å−3

Δρmin = −2.81 e Å−3

Extinction correction: SHELXL97, Fc*=kFc[1+0.001xFc2λ3/sin(2θ)]-1/4

Extinction coefficient: 0.0000133 (11) Absolute structure: Flack, 1983 Absolute structure parameter: 0.16 (7)

Special details

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Refinement. Refinement of F2 against ALL reflections. The weighted R-factor wR and goodness of fit S are based on F2,

conventional R-factors R are based on F, with F set to zero for negative F2. The threshold expression of F2 > σ(F2) is used

only for calculating R-factors(gt) etc. and is not relevant to the choice of reflections for refinement. R-factors based on F2

are statistically about twice as large as those based on F, and R- factors based on ALL data will be even larger.

Fractional atomic coordinates and isotropic or equivalent isotropic displacement parameters (Å2)

x y z Uiso*/Ueq Occ. (<1)

Ce1 0.56596 (7) 0.2500 0.2500 0.0096 (3)

Ce2 0.30135 (8) 0.0000 0.0000 0.0116 (3)

Ce3 0.15468 (6) 0.15468 (6) 0.15468 (6) 0.0152 (4)

Ce4 0.90456 (6) 0.90456 (6) 0.90456 (6) 0.0139 (4)

Pd1 0.01816 (9) 0.1369 (2) 0.2266 (4) 0.0133 (10) 0.66 (2)

Pd2 0.01855 (17) 0.1222 (4) 0.2045 (6) 0.0097 (16) 0.34 (2)

Pd3 0.42548 (8) 0.42548 (8) 0.42548 (8) 0.0127 (5)

Pd4 0.62624 (10) 0.62624 (10) 0.62624 (10) 0.0247 (7)

Pd5 0.82149 (7) 0.82149 (7) 0.82149 (7) 0.0098 (5)

In1 0.04297 (9) 0.04297 (9) 0.15087 (13) 0.0209 (7) 0.677 (7)

In2 0.04397 (16) 0.04397 (16) 0.1100 (3) 0.0165 (15) 0.323 (7)

In3 0.10226 (5) 0.10226 (5) 0.75266 (8) 0.0133 (3)

In4 0.11123 (7) 0.11123 (7) 0.29680 (8) 0.0250 (4)

In5 0.14783 (5) 0.14783 (5) 0.50678 (8) 0.0166 (3)

In6 0.08498 (9) 0.2500 0.2500 0.0121 (4)

In7 0.29605 (9) 0.29605 (9) 0.29605 (9) 0.0198 (6)

In8 0.55139 (7) 0.55139 (7) 0.55139 (7) 0.0094 (4)

In9 0.69790 (7) 0.69790 (7) 0.69790 (7) 0.0096 (4)

In10 0.0000 0.0000 0.0000 0.0145 (10)

Atomic displacement parameters (Å2)

U11 U22 U33 U12 U13 U23

Ce1 0.0075 (6) 0.0106 (4) 0.0106 (4) 0.000 0.000 −0.0001 (6)

Ce2 0.0125 (7) 0.0111 (4) 0.0111 (4) 0.000 0.000 0.0007 (6)

Ce3 0.0152 (4) 0.0152 (4) 0.0152 (4) −0.0007 (4) −0.0007 (4) −0.0007 (4)

Ce4 0.0139 (4) 0.0139 (4) 0.0139 (4) −0.0015 (4) −0.0015 (4) −0.0015 (4)

Pd1 0.0139 (8) 0.0122 (13) 0.014 (2) −0.0022 (7) 0.0013 (8) 0.0012 (15)

Pd2 0.0119 (14) 0.010 (2) 0.007 (3) −0.0005 (11) −0.0003 (13) −0.003 (2)

Pd3 0.0127 (5) 0.0127 (5) 0.0127 (5) −0.0007 (5) −0.0007 (5) −0.0007 (5)

Pd4 0.0247 (7) 0.0247 (7) 0.0247 (7) −0.0048 (7) −0.0048 (7) −0.0048 (7)

Pd5 0.0098 (5) 0.0098 (5) 0.0098 (5) −0.0008 (5) −0.0008 (5) −0.0008 (5)

In1 0.0252 (9) 0.0252 (9) 0.0124 (15) 0.0046 (10) −0.0019 (7) −0.0019 (7)

In2 0.0150 (15) 0.0150 (15) 0.019 (3) 0.0006 (16) 0.0014 (13) 0.0014 (13)

In3 0.0122 (4) 0.0122 (4) 0.0155 (6) −0.0032 (5) −0.0009 (4) −0.0009 (4)

In4 0.0272 (6) 0.0272 (6) 0.0205 (8) 0.0003 (7) 0.0027 (5) 0.0027 (5)

In5 0.0140 (4) 0.0140 (4) 0.0218 (8) −0.0020 (5) −0.0003 (4) −0.0003 (4)

In6 0.0089 (8) 0.0137 (5) 0.0137 (5) 0.000 0.000 −0.0033 (8)

In7 0.0198 (6) 0.0198 (6) 0.0198 (6) 0.0028 (7) 0.0028 (7) 0.0028 (7)

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In9 0.0096 (4) 0.0096 (4) 0.0096 (4) 0.0008 (5) 0.0008 (5) 0.0008 (5)

In10 0.0145 (10) 0.0145 (10) 0.0145 (10) 0.000 0.000 0.000

Geometric parameters (Å, º)

Ce1—Pd1i 3.120 (6) Pd5—In9lv 2.765 (2)

Ce1—Pd1ii 3.120 (6) Pd5—In3xxxvi 2.7937 (18)

Ce1—Pd1iii 3.120 (6) Pd5—In3xxxvii 2.7937 (18)

Ce1—Pd1iv 3.120 (6) Pd5—In3xxxviii 2.7937 (18)

Ce1—In6iii 3.296 (3) Pd5—Ce1lvi 3.3040 (12)

Ce1—In9v 3.3002 (14) Pd5—Ce1lvii 3.3040 (12)

Ce1—In9vi 3.3002 (14) Pd5—Ce1lviii 3.3040 (12)

Ce1—Pd5vii 3.3040 (12) In1—In2 0.893 (6)

Ce1—Pd5viii 3.3040 (12) In1—Pd2xxviii 2.157 (14)

Ce1—In3ix 3.3228 (9) In1—In1lix 2.654 (6)

Ce1—In3x 3.3228 (9) In1—Pd1xxviii 2.690 (9)

Ce1—In3xi 3.3228 (8) In1—In2xiii 2.756 (5)

Ce1—In3xii 3.3228 (9) In1—In2xxvii 2.756 (5)

Ce1—In5xiii 3.4096 (17) In1—In2lix 2.830 (6)

Ce1—In5xiv 3.4096 (17) In1—In1xiii 3.332 (5)

Ce1—Pd2ii 3.490 (11) In1—In1xxvii 3.332 (5)

Ce1—Pd2i 3.490 (11) In1—Ce4lx 3.4519 (17)

Ce1—Pd2iii 3.490 (11) In1—Ce4xlv 3.4519 (17)

Ce1—Pd2iv 3.490 (11) In1—Ce2xxvii 3.544 (3)

Ce2—In3xv 3.3713 (16) In2—In2xiii 2.039 (9)

Ce2—In3xvi 3.3713 (16) In2—In2xxvii 2.039 (9)

Ce2—In5xvii 3.4171 (9) In2—In2lix 2.716 (10)

Ce2—In5ii 3.4171 (9) In2—Pd2xxviii 2.737 (15)

Ce2—In5xviii 3.4171 (9) In2—In1xiii 2.756 (5)

Ce2—In5xix 3.4171 (9) In2—In1xxvii 2.756 (5)

Ce2—Pd2xx 3.429 (4) In2—In10 2.760 (6)

Ce2—Pd2xxi 3.429 (4) In2—In1lix 2.830 (6)

Ce2—Pd2xxii 3.429 (4) In2—Ce4xlv 3.261 (3)

Ce2—Pd2xiii 3.429 (4) In2—Ce4lx 3.261 (3)

Ce2—Pd1xxi 3.430 (2) In2—Pd1xxviii 3.305 (10)

Ce2—Pd1xx 3.430 (2) In3—Pd1lxi 2.774 (2)

Ce2—Pd1xxii 3.430 (2) In3—Pd1xliii 2.774 (2)

Ce2—Pd1xiii 3.430 (2) In3—Pd5xxxviii 2.7937 (18)

Ce2—In4xx 3.437 (2) In3—Pd2lxi 2.833 (5)

Ce2—In4xiii 3.437 (2) In3—Pd2xliii 2.833 (5)

Ce2—In1xx 3.544 (3) In3—Pd4lxii 2.858 (2)

Ce2—In1xiii 3.544 (3) In3—In9lxii 3.186 (2)

Ce2—Pd3xxiii 3.5560 (13) In3—In5lxiii 3.2524 (16)

Ce2—Pd3vi 3.5560 (13) In3—In5lxiv 3.2524 (16)

Ce2—In8xxiv 3.5862 (16) In3—Ce1lxv 3.3228 (9)

Ce2—In8xxv 3.5862 (16) In3—Ce1lxvi 3.3228 (9)

Ce3—Pd2xxvi 3.244 (5) In3—Ce4xxxviii 3.324 (2)

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Ce3—Pd2xiii 3.244 (5) In4—Pd1xxviii 2.607 (4)

Ce3—Pd2xxvii 3.244 (5) In4—In4xliv 2.840 (3)

Ce3—Pd2xxviii 3.244 (5) In4—In4lxviii 2.840 (3)

Ce3—Pd2 3.244 (5) In4—In7iii 2.863 (3)

Ce3—In6 3.3141 (14) In4—Pd2xxviii 2.866 (8)

Ce3—In6xxvii 3.3141 (14) In4—In5xliv 2.9569 (18)

Ce3—In6xxix 3.3141 (14) In4—In5lxviii 2.9569 (18)

Ce3—In4 3.3812 (19) In4—Pd3iii 3.030 (3)

Ce3—In4xiii 3.3812 (19) In4—In6 3.2491 (13)

Ce3—In4xxvii 3.3812 (19) In4—In6xxix 3.2491 (13)

Ce3—Pd1xxvii 3.392 (4) In4—Ce2xxvii 3.437 (2)

Ce3—Pd1xiii 3.392 (4) In5—Pd4lxii 2.693 (2)

Ce3—Pd1xxvi 3.392 (4) In5—Pd1xliv 2.806 (8)

Ce3—Pd1xxviii 3.392 (4) In5—Pd1lxviii 2.806 (8)

Ce3—Pd1xxii 3.392 (4) In5—Pd3iii 2.8773 (19)

Ce3—Pd1 3.392 (4) In5—In4xliv 2.9569 (18)

Ce3—In7ii 3.442 (2) In5—In4lxviii 2.9569 (18)

Ce3—In7iii 3.442 (2) In5—In8lxii 3.134 (2)

Ce3—In7xxiii 3.442 (2) In5—In3lxiii 3.2524 (16)

Ce3—In1 3.451 (3) In5—In3lxiv 3.2524 (16)

Ce3—In1xxvii 3.451 (3) In5—Pd2xliv 3.319 (14)

Ce3—In1xiii 3.451 (3) In5—Pd2lxviii 3.319 (14)

Ce4—Pd5 3.142 (3) In5—Ce1xxvii 3.4096 (17)

Ce4—In2xxx 3.261 (3) In5—Ce2lxix 3.4171 (9)

Ce4—In2xxxi 3.261 (3) In5—Ce2lxx 3.4171 (9)

Ce4—In2xxxii 3.261 (3) In6—Pd1xxvi 2.913 (6)

Ce4—In2xxxiii 3.261 (3) In6—Pd1lxxi 2.913 (6)

Ce4—In2xxxiv 3.261 (3) In6—Pd1xxiii 2.913 (6)

Ce4—In2xxxv 3.261 (3) In6—In7ii 2.9618 (18)

Ce4—In3xxxvi 3.324 (2) In6—In7iii 2.9618 (18)

Ce4—In3xxxvii 3.324 (2) In6—In4lxviii 3.2491 (13)

Ce4—In3xxxviii 3.324 (2) In6—In4xxiii 3.2491 (13)

Ce4—In1xxxv 3.4519 (18) In6—In4xxvii 3.2491 (13)

Ce4—In1xxxii 3.4519 (17) In6—Ce1iii 3.296 (3)

Ce4—In1xxxi 3.4519 (17) In6—Pd2xxvi 3.298 (11)

Ce4—In1xxx 3.4519 (17) In6—Pd2lxxi 3.298 (11)

Ce4—In1xxxiv 3.4519 (17) In6—Pd2xxiii 3.298 (11)

Ce4—In1xxxiii 3.4519 (17) In6—Ce3xxiii 3.3141 (14)

Ce4—Pd2xxxix 3.495 (10) In7—In7ii 2.845 (5)

Ce4—Pd2xxxiii 3.495 (10) In7—In7iii 2.845 (5)

Ce4—Pd2xl 3.495 (10) In7—In7xxiii 2.845 (5)

Ce4—Pd2xxxv 3.495 (10) In7—In4xiv 2.863 (3)

Ce4—Pd2xxx 3.495 (10) In7—In4iii 2.863 (3)

Ce4—Pd2xli 3.495 (10) In7—In4xlvii 2.863 (3)

Ce4—In10xlii 3.610 (2) In7—In6lxviii 2.9618 (18)

Pd1—Pd2 0.579 (7) In7—In6iii 2.9618 (18)

Pd1—In4 2.607 (4) In7—In6lxix 2.9618 (18)

(8)

Pd1—Pd2xxvi 2.716 (5) In7—Ce3ii 3.442 (2)

Pd1—Pd1xxvi 2.770 (6) In7—Ce3iii 3.442 (2)

Pd1—In3xliii 2.774 (2) In8—Pd3xlvi 2.841 (2)

Pd1—In5xliv 2.806 (8) In8—Pd3xxxviii 2.841 (3)

Pd1—In6 2.913 (6) In8—Pd3v 2.841 (3)

Pd1—Ce1iii 3.120 (6) In8—In5l 3.134 (2)

Pd1—In2 3.305 (10) In8—In5li 3.134 (2)

Pd1—Ce2xxvii 3.430 (2) In8—In5lii 3.134 (2)

Pd2—In1 2.157 (14) In8—In8xlvi 3.174 (4)

Pd2—Pd2xxvi 2.542 (9) In8—In8xxxviii 3.174 (4)

Pd2—Pd1xxvi 2.716 (5) In8—In8v 3.174 (4)

Pd2—In2 2.737 (15) In8—Ce2lxxii 3.5862 (16)

Pd2—In3xliii 2.833 (5) In8—Ce2lxxiii 3.5862 (16)

Pd2—In4 2.866 (8) In8—Ce2lxxiv 3.5862 (16)

Pd2—Pd2xxviii 3.202 (14) In9—Pd5liii 2.765 (2)

Pd2—In6 3.298 (11) In9—Pd5liv 2.765 (2)

Pd2—In5xliv 3.319 (14) In9—Pd5lv 2.765 (2)

Pd2—Ce2xxvii 3.429 (4) In9—In3l 3.186 (2)

Pd2—Ce1iii 3.490 (11) In9—In3li 3.186 (2)

Pd2—Ce4xlv 3.495 (10) In9—In3lii 3.186 (2)

Pd3—In8xlvi 2.841 (2) In9—In9liii 3.218 (4)

Pd3—In8xxxviii 2.841 (2) In9—In9liv 3.218 (4)

Pd3—In8v 2.841 (2) In9—In9lv 3.218 (4)

Pd3—In5xiv 2.8773 (19) In9—Ce1xlviii 3.3002 (14)

Pd3—In5xlvii 2.8773 (19) In9—Ce1xlix 3.3002 (14)

Pd3—In5iii 2.8773 (19) In9—Ce1lxxv 3.3002 (14)

Pd3—In4iii 3.030 (3) In10—In2xiii 2.760 (6)

Pd3—In4xiv 3.030 (3) In10—In2xxvii 2.760 (6)

Pd3—In4xlvii 3.030 (3) In10—In2xx 2.760 (6)

Pd3—Ce2xlviii 3.5560 (13) In10—In2lxxvi 2.760 (6)

Pd3—Ce2xlix 3.5560 (13) In10—In2lix 2.760 (6)

Pd3—Ce2xxix 3.5560 (13) In10—In2lxxvii 2.760 (6)

Pd4—In5l 2.693 (2) In10—In2lxxviii 2.760 (6)

Pd4—In5li 2.693 (2) In10—In2lxxix 2.760 (6)

Pd4—In5lii 2.693 (2) In10—In2lxxx 2.760 (6)

Pd4—In9 2.710 (4) In10—In2lxxxi 2.760 (6)

Pd4—In8 2.831 (4) In10—In2lxxxii 2.760 (6)

Pd4—In3l 2.858 (2) In10—Ce4lxxxiii 3.610 (2)

Pd4—In3lii 2.858 (2) In10—Ce4xlv 3.610 (2)

Pd4—In3li 2.858 (2) In10—Ce4lxxxiv 3.610 (2)

Pd5—In9liii 2.765 (2) In10—Ce4lx 3.610 (2)

Pd5—In9liv 2.765 (2)

Pd1i—Ce1—Pd1ii 85.0 (3) In8xlvi—Pd3—In8xxxviii 67.93 (10)

Pd1i—Ce1—Pd1iii 52.70 (19) In8xlvi—Pd3—In8v 67.93 (10)

Pd1ii—Ce1—Pd1iii 107.85 (16) In8xxxviii—Pd3—In8v 67.93 (10)

Pd1i—Ce1—Pd1iv 107.85 (16) In8xlvi—Pd3—In5xiv 121.85 (6)

(9)

Pd1iii—Ce1—Pd1iv 85.0 (3) In8v—Pd3—In5xiv 66.46 (6)

Pd1i—Ce1—In6iii 53.93 (8) In8xlvi—Pd3—In5xlvii 66.46 (6)

Pd1ii—Ce1—In6iii 53.93 (8) In8xxxviii—Pd3—In5xlvii 121.85 (6)

Pd1iii—Ce1—In6iii 53.93 (8) In8v—Pd3—In5xlvii 121.85 (6)

Pd1iv—Ce1—In6iii 53.93 (8) In5xiv—Pd3—In5xlvii 112.16 (6)

Pd1i—Ce1—In9v 136.93 (13) In8xlvi—Pd3—In5iii 121.85 (6)

Pd1ii—Ce1—In9v 136.93 (13) In8xxxviii—Pd3—In5iii 66.46 (6)

Pd1iii—Ce1—In9v 107.32 (5) In8v—Pd3—In5iii 121.85 (6)

Pd1iv—Ce1—In9v 107.32 (5) In5xiv—Pd3—In5iii 112.16 (6)

In6iii—Ce1—In9v 150.82 (5) In5xlvii—Pd3—In5iii 112.16 (6)

Pd1i—Ce1—In9vi 107.32 (5) In8xlvi—Pd3—In4iii 117.90 (5)

Pd1ii—Ce1—In9vi 107.32 (5) In8xxxviii—Pd3—In4iii 172.59 (9)

Pd1iii—Ce1—In9vi 136.93 (13) In8v—Pd3—In4iii 117.90 (5)

Pd1iv—Ce1—In9vi 136.93 (13) In5xiv—Pd3—In4iii 60.00 (5)

In6iii—Ce1—In9vi 150.82 (5) In5xlvii—Pd3—In4iii 60.00 (5)

In9v—Ce1—In9vi 58.37 (9) In5iii—Pd3—In4iii 106.13 (10)

Pd1i—Ce1—Pd5vii 89.24 (12) In8xlvi—Pd3—In4xiv 117.90 (5)

Pd1ii—Ce1—Pd5vii 152.80 (7) In8xxxviii—Pd3—In4xiv 117.90 (5)

Pd1iii—Ce1—Pd5vii 89.24 (12) In8v—Pd3—In4xiv 172.59 (10)

Pd1iv—Ce1—Pd5vii 152.80 (7) In5xiv—Pd3—In4xiv 106.13 (10)

In6iii—Ce1—Pd5vii 138.07 (5) In5xlvii—Pd3—In4xiv 60.00 (5)

In9v—Ce1—Pd5vii 49.49 (5) In5iii—Pd3—In4xiv 60.00 (5)

In9vi—Ce1—Pd5vii 49.49 (5) In4iii—Pd3—In4xiv 55.90 (8)

Pd1i—Ce1—Pd5viii 152.80 (7) In8xlvi—Pd3—In4xlvii 172.59 (9)

Pd1ii—Ce1—Pd5viii 89.24 (12) In8xxxviii—Pd3—In4xlvii 117.90 (5)

Pd1iii—Ce1—Pd5viii 152.80 (7) In8v—Pd3—In4xlvii 117.90 (5)

Pd1iv—Ce1—Pd5viii 89.24 (12) In5xiv—Pd3—In4xlvii 60.00 (5)

In6iii—Ce1—Pd5viii 138.07 (5) In5xlvii—Pd3—In4xlvii 106.13 (10)

In9v—Ce1—Pd5viii 49.49 (5) In5iii—Pd3—In4xlvii 60.00 (5)

In9vi—Ce1—Pd5viii 49.49 (5) In4iii—Pd3—In4xlvii 55.90 (8)

Pd5vii—Ce1—Pd5viii 83.86 (10) In4xiv—Pd3—In4xlvii 55.90 (8)

Pd1i—Ce1—In3ix 155.77 (6) In8xlvi—Pd3—Ce2xlviii 67.12 (3)

Pd1ii—Ce1—In3ix 88.15 (14) In8xxxviii—Pd3—Ce2xlviii 67.12 (3)

Pd1iii—Ce1—In3ix 108.26 (12) In8v—Pd3—Ce2xlviii 125.10 (10)

Pd1iv—Ce1—In3ix 50.89 (6) In5xiv—Pd3—Ce2xlviii 168.44 (11)

In6iii—Ce1—In3ix 103.80 (3) In5xlvii—Pd3—Ce2xlviii 63.133 (11)

In9v—Ce1—In3ix 57.52 (4) In5iii—Pd3—Ce2xlviii 63.133 (11)

In9vi—Ce1—In3ix 96.92 (5) In4iii—Pd3—Ce2xlviii 110.11 (6)

Pd5vii—Ce1—In3ix 106.83 (5) In4xiv—Pd3—Ce2xlviii 62.31 (5)

Pd5viii—Ce1—In3ix 49.87 (3) In4xlvii—Pd3—Ce2xlviii 110.11 (6)

Pd1i—Ce1—In3x 88.15 (14) In8xlvi—Pd3—Ce2xlix 67.12 (3)

Pd1ii—Ce1—In3x 155.77 (6) In8xxxviii—Pd3—Ce2xlix 125.10 (10)

Pd1iii—Ce1—In3x 50.89 (6) In8v—Pd3—Ce2xlix 67.12 (3)

Pd1iv—Ce1—In3x 108.26 (12) In5xiv—Pd3—Ce2xlix 63.133 (11)

In6iii—Ce1—In3x 103.80 (3) In5xlvii—Pd3—Ce2xlix 63.133 (11)

In9v—Ce1—In3x 57.52 (4) In5iii—Pd3—Ce2xlix 168.44 (11)

In9vi—Ce1—In3x 96.92 (5) In4iii—Pd3—Ce2xlix 62.31 (5)

(10)

Pd5viii—Ce1—In3x 106.83 (5) In4xlvii—Pd3—Ce2xlix 110.11 (6)

In3ix—Ce1—In3x 88.68 (6) Ce2xlviii—Pd3—Ce2xlix 119.228 (16)

Pd1i—Ce1—In3xi 50.89 (6) In8xlvi—Pd3—Ce2xxix 125.10 (10)

Pd1ii—Ce1—In3xi 108.26 (12) In8xxxviii—Pd3—Ce2xxix 67.12 (3)

Pd1iii—Ce1—In3xi 88.15 (14) In8v—Pd3—Ce2xxix 67.12 (3)

Pd1iv—Ce1—In3xi 155.77 (6) In5xiv—Pd3—Ce2xxix 63.133 (11)

In6iii—Ce1—In3xi 103.80 (3) In5xlvii—Pd3—Ce2xxix 168.44 (11)

In9v—Ce1—In3xi 96.92 (5) In5iii—Pd3—Ce2xxix 63.133 (11)

In9vi—Ce1—In3xi 57.52 (4) In4iii—Pd3—Ce2xxix 110.11 (6)

Pd5vii—Ce1—In3xi 49.87 (3) In4xiv—Pd3—Ce2xxix 110.11 (6)

Pd5viii—Ce1—In3xi 106.83 (5) In4xlvii—Pd3—Ce2xxix 62.31 (5)

In3ix—Ce1—In3xi 152.39 (6) Ce2xlviii—Pd3—Ce2xxix 119.228 (16)

In3x—Ce1—In3xi 84.79 (6) Ce2xlix—Pd3—Ce2xxix 119.228 (16)

Pd1i—Ce1—In3xii 108.26 (12) In5l—Pd4—In5li 107.98 (8)

Pd1ii—Ce1—In3xii 50.89 (6) In5l—Pd4—In5lii 107.98 (8)

Pd1iii—Ce1—In3xii 155.77 (6) In5li—Pd4—In5lii 107.98 (8)

Pd1iv—Ce1—In3xii 88.15 (14) In5l—Pd4—In9 110.92 (8)

In6iii—Ce1—In3xii 103.80 (3) In5li—Pd4—In9 110.92 (8)

In9v—Ce1—In3xii 96.92 (5) In5lii—Pd4—In9 110.92 (8)

In9vi—Ce1—In3xii 57.52 (4) In5l—Pd4—In8 69.08 (8)

Pd5vii—Ce1—In3xii 106.83 (5) In5li—Pd4—In8 69.08 (8)

Pd5viii—Ce1—In3xii 49.87 (3) In5lii—Pd4—In8 69.08 (8)

In3ix—Ce1—In3xii 84.79 (6) In9—Pd4—In8 180.0 (2)

In3x—Ce1—In3xii 152.39 (6) In5l—Pd4—In3l 179.33 (16)

In3xi—Ce1—In3xii 88.68 (6) In5li—Pd4—In3l 71.67 (2)

Pd1i—Ce1—In5xiii 50.66 (13) In5lii—Pd4—In3l 71.67 (2)

Pd1ii—Ce1—In5xiii 50.66 (13) In9—Pd4—In3l 69.75 (7)

Pd1iii—Ce1—In5xiii 100.81 (7) In8—Pd4—In3l 110.25 (7)

Pd1iv—Ce1—In5xiii 100.81 (7) In5l—Pd4—In3lii 71.67 (2)

In6iii—Ce1—In5xiii 67.73 (4) In5li—Pd4—In3lii 71.67 (2)

In9v—Ce1—In5xiii 141.45 (6) In5lii—Pd4—In3lii 179.33 (16)

In9vi—Ce1—In5xiii 83.09 (5) In9—Pd4—In3lii 69.75 (7)

Pd5vii—Ce1—In5xiii 106.38 (3) In8—Pd4—In3lii 110.25 (7)

Pd5viii—Ce1—In5xiii 106.38 (3) In3l—Pd4—In3lii 108.68 (8)

In3ix—Ce1—In5xiii 135.59 (3) In5l—Pd4—In3li 71.67 (2)

In3x—Ce1—In5xiii 135.59 (3) In5li—Pd4—In3li 179.33 (16)

In3xi—Ce1—In5xiii 57.76 (3) In5lii—Pd4—In3li 71.67 (2)

In3xii—Ce1—In5xiii 57.76 (3) In9—Pd4—In3li 69.75 (7)

Pd1i—Ce1—In5xiv 100.81 (7) In8—Pd4—In3li 110.25 (7)

Pd1ii—Ce1—In5xiv 100.81 (7) In3l—Pd4—In3li 108.68 (8)

Pd1iii—Ce1—In5xiv 50.66 (13) In3lii—Pd4—In3li 108.68 (8)

Pd1iv—Ce1—In5xiv 50.66 (13) In9liii—Pd5—In9liv 71.19 (9)

In6iii—Ce1—In5xiv 67.73 (4) In9liii—Pd5—In9lv 71.19 (10)

In9v—Ce1—In5xiv 83.09 (5) In9liv—Pd5—In9lv 71.19 (10)

In9vi—Ce1—In5xiv 141.45 (6) In9liii—Pd5—In3xxxvi 126.21 (5)

Pd5vii—Ce1—In5xiv 106.38 (3) In9liv—Pd5—In3xxxvi 126.21 (5)

Pd5viii—Ce1—In5xiv 106.38 (3) In9lv—Pd5—In3xxxvi 69.95 (6)

(11)

In3x—Ce1—In5xiv 57.76 (3) In9liv—Pd5—In3xxxvii 126.21 (5)

In3xi—Ce1—In5xiv 135.59 (3) In9lv—Pd5—In3xxxvii 126.21 (5)

In3xii—Ce1—In5xiv 135.59 (3) In3xxxvi—Pd5—In3xxxvii 106.63 (7)

In5xiii—Ce1—In5xiv 135.46 (7) In9liii—Pd5—In3xxxviii 126.21 (5)

Pd1i—Ce1—Pd2ii 92.6 (3) In9liv—Pd5—In3xxxviii 69.95 (6)

Pd1ii—Ce1—Pd2ii 7.75 (8) In9lv—Pd5—In3xxxviii 126.21 (5)

Pd1iii—Ce1—Pd2ii 111.60 (18) In3xxxvi—Pd5—In3xxxviii 106.63 (7)

Pd1iv—Ce1—Pd2ii 48.1 (2) In3xxxvii—Pd5—In3xxxviii 106.63 (7)

In6iii—Ce1—Pd2ii 58.08 (12) In9liii—Pd5—Ce4 137.77 (6)

In9v—Ce1—Pd2ii 129.74 (17) In9liv—Pd5—Ce4 137.77 (6)

In9vi—Ce1—Pd2ii 106.50 (7) In9lv—Pd5—Ce4 137.77 (6)

Pd5vii—Ce1—Pd2ii 154.92 (7) In3xxxvi—Pd5—Ce4 67.82 (6)

Pd5viii—Ce1—Pd2ii 83.17 (15) In3xxxvii—Pd5—Ce4 67.82 (6)

In3ix—Ce1—Pd2ii 80.56 (18) In3xxxviii—Pd5—Ce4 67.82 (6)

In3x—Ce1—Pd2ii 155.17 (8) In9liii—Pd5—Ce1lvi 65.18 (3)

In3xi—Ce1—Pd2ii 114.61 (16) In9liv—Pd5—Ce1lvi 125.56 (10)

In3xii—Ce1—Pd2ii 49.07 (7) In9lv—Pd5—Ce1lvi 65.18 (3)

In5xiii—Ce1—Pd2ii 57.49 (17) In3xxxvi—Pd5—Ce1lvi 65.416 (15)

In5xiv—Ce1—Pd2ii 97.85 (10) In3xxxvii—Pd5—Ce1lvi 65.416 (15)

Pd1i—Ce1—Pd2i 7.75 (8) In3xxxviii—Pd5—Ce1lvi 164.48 (11)

Pd1ii—Ce1—Pd2i 92.6 (3) Ce4—Pd5—Ce1lvi 96.67 (5)

Pd1iii—Ce1—Pd2i 48.1 (2) In9liii—Pd5—Ce1lvii 125.56 (10)

Pd1iv—Ce1—Pd2i 111.60 (18) In9liv—Pd5—Ce1lvii 65.18 (3)

In6iii—Ce1—Pd2i 58.08 (12) In9lv—Pd5—Ce1lvii 65.18 (3)

In9v—Ce1—Pd2i 129.74 (17) In3xxxvi—Pd5—Ce1lvii 65.416 (15)

In9vi—Ce1—Pd2i 106.50 (7) In3xxxvii—Pd5—Ce1lvii 164.48 (11)

Pd5vii—Ce1—Pd2i 83.17 (15) In3xxxviii—Pd5—Ce1lvii 65.416 (15)

Pd5viii—Ce1—Pd2i 154.92 (7) Ce4—Pd5—Ce1lvii 96.67 (5)

In3ix—Ce1—Pd2i 155.17 (8) Ce1lvi—Pd5—Ce1lvii 118.67 (2)

In3x—Ce1—Pd2i 80.56 (18) In9liii—Pd5—Ce1lviii 65.18 (3)

In3xi—Ce1—Pd2i 49.07 (7) In9liv—Pd5—Ce1lviii 65.18 (3)

In3xii—Ce1—Pd2i 114.61 (16) In9lv—Pd5—Ce1lviii 125.56 (10)

In5xiii—Ce1—Pd2i 57.49 (17) In3xxxvi—Pd5—Ce1lviii 164.48 (11)

In5xiv—Ce1—Pd2i 97.85 (10) In3xxxvii—Pd5—Ce1lviii 65.416 (15)

Pd2ii—Ce1—Pd2i 100.1 (4) In3xxxviii—Pd5—Ce1lviii 65.416 (15)

Pd1i—Ce1—Pd2iii 48.1 (2) Ce4—Pd5—Ce1lviii 96.67 (5)

Pd1ii—Ce1—Pd2iii 111.60 (18) Ce1lvi—Pd5—Ce1lviii 118.67 (2)

Pd1iii—Ce1—Pd2iii 7.75 (8) Ce1lvii—Pd5—Ce1lviii 118.67 (2)

Pd1iv—Ce1—Pd2iii 92.6 (3) In2—In1—Pd2xxviii 122.0 (3)

In6iii—Ce1—Pd2iii 58.08 (12) In2—In1—Pd2 122.0 (3)

In9v—Ce1—Pd2iii 106.50 (7) Pd2xxviii—In1—Pd2 95.8 (4)

In9vi—Ce1—Pd2iii 129.74 (17) In2—In1—In1lix 92.0 (4)

Pd5vii—Ce1—Pd2iii 83.17 (15) Pd2xxviii—In1—In1lix 113.11 (12)

Pd5viii—Ce1—Pd2iii 154.92 (7) Pd2—In1—In1lix 113.11 (12)

In3ix—Ce1—Pd2iii 114.61 (16) In2—In1—Pd1 126.9 (2)

In3x—Ce1—Pd2iii 49.07 (7) Pd2xxviii—In1—Pd1 90.9 (3)

In3xi—Ce1—Pd2iii 80.56 (18) Pd2—In1—Pd1 5.38 (15)

(12)

In5xiii—Ce1—Pd2iii 97.85 (10) In2—In1—Pd1xxviii 126.9 (2)

In5xiv—Ce1—Pd2iii 57.49 (17) Pd2xxviii—In1—Pd1xxviii 5.38 (15)

Pd2ii—Ce1—Pd2iii 116.2 (2) Pd2—In1—Pd1xxviii 90.9 (3)

Pd2i—Ce1—Pd2iii 42.7 (3) In1lix—In1—Pd1xxviii 113.38 (7)

Pd1i—Ce1—Pd2iv 111.60 (18) Pd1—In1—Pd1xxviii 85.95 (17)

Pd1ii—Ce1—Pd2iv 48.1 (2) In2—In1—In2xiii 30.7 (2)

Pd1iii—Ce1—Pd2iv 92.6 (3) Pd2xxviii—In1—In2xiii 92.1 (2)

Pd1iv—Ce1—Pd2iv 7.75 (8) Pd2—In1—In2xiii 125.82 (19)

In6iii—Ce1—Pd2iv 58.08 (12) In1lix—In1—In2xiii 112.41 (12)

In9v—Ce1—Pd2iv 106.50 (7) Pd1—In1—In2xiii 128.44 (14)

In9vi—Ce1—Pd2iv 129.74 (17) Pd1xxviii—In1—In2xiii 96.73 (14)

Pd5vii—Ce1—Pd2iv 154.92 (7) In2—In1—In2xxvii 30.7 (2)

Pd5viii—Ce1—Pd2iv 83.17 (15) Pd2xxviii—In1—In2xxvii 125.82 (19)

In3ix—Ce1—Pd2iv 49.07 (7) Pd2—In1—In2xxvii 92.1 (2)

In3x—Ce1—Pd2iv 114.61 (16) In1lix—In1—In2xxvii 112.41 (12)

In3xi—Ce1—Pd2iv 155.17 (8) Pd1—In1—In2xxvii 96.73 (14)

In3xii—Ce1—Pd2iv 80.56 (18) Pd1xxviii—In1—In2xxvii 128.44 (14)

In5xiii—Ce1—Pd2iv 97.85 (10) In2xiii—In1—In2xxvii 43.44 (14)

In5xiv—Ce1—Pd2iv 57.49 (17) In2—In1—In2lix 73.6 (4)

Pd2ii—Ce1—Pd2iv 42.7 (3) Pd2xxviii—In1—In2lix 122.94 (15)

Pd2i—Ce1—Pd2iv 116.2 (2) Pd2—In1—In2lix 122.94 (15)

Pd2iii—Ce1—Pd2iv 100.1 (4) In1lix—In1—In2lix 18.38 (12)

In3xv—Ce2—In3xvi 139.05 (8) Pd1—In1—In2lix 124.78 (11)

In3xv—Ce2—In5xvii 57.25 (3) Pd1xxviii—In1—In2lix 124.78 (11)

In3xvi—Ce2—In5xvii 140.19 (3) In2xiii—In1—In2lix 95.4 (2)

In3xv—Ce2—In5ii 140.19 (3) In2xxvii—In1—In2lix 95.4 (2)

In3xvi—Ce2—In5ii 57.25 (3) In2—In1—In1xiii 43.6 (3)

In5xvii—Ce2—In5ii 88.65 (6) Pd2xxviii—In1—In1xiii 79.44 (18)

In3xv—Ce2—In5xviii 140.19 (3) Pd2—In1—In1xiii 123.99 (13)

In3xvi—Ce2—In5xviii 57.25 (3) In1lix—In1—In1xiii 120.0

In5xvii—Ce2—In5xviii 142.10 (7) Pd1—In1—In1xiii 125.25 (8)

In5ii—Ce2—In5xviii 79.20 (6) Pd1xxviii—In1—In1xiii 84.00 (9)

In3xv—Ce2—In5xix 57.25 (3) In2xiii—In1—In1xiii 12.92 (11)

In3xvi—Ce2—In5xix 140.19 (3) In2xxvii—In1—In1xiii 52.80 (7)

In5xvii—Ce2—In5xix 79.20 (6) In2lix—In1—In1xiii 104.56 (10)

In5ii—Ce2—In5xix 142.10 (7) In2—In1—In1xxvii 43.6 (3)

In5xviii—Ce2—In5xix 88.65 (6) Pd2xxviii—In1—In1xxvii 123.99 (13)

In3xv—Ce2—Pd2xx 49.23 (8) Pd2—In1—In1xxvii 79.44 (18)

In3xvi—Ce2—Pd2xx 102.81 (19) In1lix—In1—In1xxvii 120.0

In5xvii—Ce2—Pd2xx 106.15 (10) Pd1—In1—In1xxvii 84.00 (9)

In5ii—Ce2—Pd2xx 158.5 (2) Pd1xxviii—In1—In1xxvii 125.25 (8)

In5xviii—Ce2—Pd2xx 97.03 (9) In2xiii—In1—In1xxvii 52.80 (7)

In5xix—Ce2—Pd2xx 58.0 (3) In2xxvii—In1—In1xxvii 12.92 (11)

In3xv—Ce2—Pd2xxi 102.81 (19) In2lix—In1—In1xxvii 104.56 (10)

In3xvi—Ce2—Pd2xxi 49.23 (8) In1xiii—In1—In1xxvii 60.0

In5xvii—Ce2—Pd2xxi 158.5 (2) In2—In1—Ce3 89.4 (4)

In5ii—Ce2—Pd2xxi 106.15 (10) Pd2xxviii—In1—Ce3 66.08 (12)

(13)

In5xix—Ce2—Pd2xxi 97.03 (9) In1lix—In1—Ce3 178.62 (5)

Pd2xx—Ce2—Pd2xxi 55.7 (3) Pd1—In1—Ce3 65.70 (7)

In3xv—Ce2—Pd2xxii 49.23 (8) Pd1xxviii—In1—Ce3 65.70 (7)

In3xvi—Ce2—Pd2xxii 102.81 (19) In2xiii—In1—Ce3 68.85 (13)

In5xvii—Ce2—Pd2xxii 58.0 (3) In2xxvii—In1—Ce3 68.85 (13)

In5ii—Ce2—Pd2xxii 97.03 (9) In2lix—In1—Ce3 162.99 (14)

In5xviii—Ce2—Pd2xxii 158.5 (2) In1xiii—In1—Ce3 61.13 (4)

In5xix—Ce2—Pd2xxii 106.15 (10) In1xxvii—In1—Ce3 61.13 (4)

Pd2xx—Ce2—Pd2xxii 78.7 (3) In2—In1—Ce4lx 70.30 (16)

Pd2xxi—Ce2—Pd2xxii 103.9 (5) Pd2xxviii—In1—Ce4lx 73.00 (18)

In3xv—Ce2—Pd2xiii 102.81 (19) Pd2—In1—Ce4lx 167.2 (2)

In3xvi—Ce2—Pd2xiii 49.23 (8) In1lix—In1—Ce4lx 67.39 (5)

In5xvii—Ce2—Pd2xiii 97.03 (9) Pd1—In1—Ce4lx 161.85 (12)

In5ii—Ce2—Pd2xiii 58.0 (3) Pd1xxviii—In1—Ce4lx 77.64 (8)

In5xviii—Ce2—Pd2xiii 106.15 (10) In2xiii—In1—Ce4lx 62.19 (8)

In5xix—Ce2—Pd2xiii 158.5 (2) In2xxvii—In1—Ce4lx 99.53 (11)

Pd2xx—Ce2—Pd2xiii 103.9 (5) In2lix—In1—Ce4lx 61.61 (5)

Pd2xxi—Ce2—Pd2xiii 78.7 (3) In1xiii—In1—Ce4lx 61.14 (5)

Pd2xxii—Ce2—Pd2xiii 55.7 (3) In1xxvii—In1—Ce4lx 111.79 (5)

In3xv—Ce2—Pd1xxi 109.54 (11) Ce3—In1—Ce4lx 113.13 (5)

In3xvi—Ce2—Pd1xxi 48.13 (4) In2—In1—Ce4xlv 70.30 (16)

In5xvii—Ce2—Pd1xxi 166.73 (12) Pd2xxviii—In1—Ce4xlv 167.2 (2)

In5ii—Ce2—Pd1xxi 103.06 (6) Pd2—In1—Ce4xlv 73.00 (17)

In5xviii—Ce2—Pd1xxi 48.38 (16) In1lix—In1—Ce4xlv 67.39 (5)

In5xix—Ce2—Pd1xxi 94.77 (6) Pd1—In1—Ce4xlv 77.64 (8)

Pd2xx—Ce2—Pd1xxi 60.89 (18) Pd1xxviii—In1—Ce4xlv 161.85 (12)

Pd2xxi—Ce2—Pd1xxi 9.69 (11) In2xiii—In1—Ce4xlv 99.53 (11)

Pd2xxii—Ce2—Pd1xxi 113.5 (4) In2xxvii—In1—Ce4xlv 62.19 (8)

Pd2xiii—Ce2—Pd1xxi 84.2 (2) In2lix—In1—Ce4xlv 61.61 (5)

In3xv—Ce2—Pd1xx 48.13 (4) In1xiii—In1—Ce4xlv 111.79 (5)

In3xvi—Ce2—Pd1xx 109.54 (11) In1xxvii—In1—Ce4xlv 61.14 (5)

In5xvii—Ce2—Pd1xx 103.06 (6) Ce3—In1—Ce4xlv 113.13 (5)

In5ii—Ce2—Pd1xx 166.73 (12) Ce4lx—In1—Ce4xlv 117.28 (9)

In5xviii—Ce2—Pd1xx 94.77 (6) In2—In1—Ce2xxvii 160.0 (4)

In5xix—Ce2—Pd1xx 48.38 (16) Pd2xxviii—In1—Ce2xxvii 69.10 (17)

Pd2xx—Ce2—Pd1xx 9.69 (11) Pd2—In1—Ce2xxvii 69.10 (17)

Pd2xxi—Ce2—Pd1xx 60.89 (18) In1lix—In1—Ce2xxvii 68.01 (5)

Pd2xxii—Ce2—Pd1xx 84.2 (2) Pd1—In1—Ce2xxvii 65.08 (8)

Pd2xiii—Ce2—Pd1xx 113.5 (4) Pd1xxviii—In1—Ce2xxvii 65.08 (8)

Pd1xxi—Ce2—Pd1xx 64.65 (14) In2xiii—In1—Ce2xxvii 158.17 (8)

In3xv—Ce2—Pd1xxii 48.13 (4) In2xxvii—In1—Ce2xxvii 158.17 (8)

In3xvi—Ce2—Pd1xxii 109.54 (11) In2lix—In1—Ce2xxvii 86.39 (13)

In5xvii—Ce2—Pd1xxii 48.38 (16) In1xiii—In1—Ce2xxvii 147.447 (17)

In5ii—Ce2—Pd1xxii 94.77 (6) In1xxvii—In1—Ce2xxvii 147.447 (17)

In5xviii—Ce2—Pd1xxii 166.73 (12) Ce3—In1—Ce2xxvii 110.61 (8)

In5xix—Ce2—Pd1xxii 103.06 (6) Ce4lx—In1—Ce2xxvii 100.44 (6)

Pd2xx—Ce2—Pd1xxii 84.2 (2) Ce4xlv—In1—Ce2xxvii 100.44 (6)

(14)

Pd2xxii—Ce2—Pd1xxii 9.69 (11) In1—In2—In2xxvii 136.4 (3)

Pd2xiii—Ce2—Pd1xxii 60.89 (18) In2xiii—In2—In2xxvii 60.0

Pd1xxi—Ce2—Pd1xxii 123.2 (3) In1—In2—In2lix 88.0 (4)

Pd1xx—Ce2—Pd1xxii 88.57 (16) In2xiii—In2—In2lix 120.0

In3xv—Ce2—Pd1xiii 109.54 (11) In2xxvii—In2—In2lix 120.0

In3xvi—Ce2—Pd1xiii 48.13 (4) In1—In2—Pd2xxviii 41.97 (19)

In5xvii—Ce2—Pd1xiii 94.77 (6) In2xiii—In2—Pd2xxviii 95.27 (12)

In5ii—Ce2—Pd1xiii 48.38 (16) In2xxvii—In2—Pd2xxviii 132.60 (13)

In5xviii—Ce2—Pd1xiii 103.06 (6) In2lix—In2—Pd2xxviii 107.34 (13)

In5xix—Ce2—Pd1xiii 166.73 (12) In1—In2—Pd2 41.97 (19)

Pd2xx—Ce2—Pd1xiii 113.5 (4) In2xiii—In2—Pd2 132.60 (13)

Pd2xxi—Ce2—Pd1xiii 84.2 (2) In2xxvii—In2—Pd2 95.27 (12)

Pd2xxii—Ce2—Pd1xiii 60.89 (18) In2lix—In2—Pd2 107.34 (13)

Pd2xiii—Ce2—Pd1xiii 9.69 (11) Pd2xxviii—In2—Pd2 71.6 (2)

Pd1xxi—Ce2—Pd1xiii 88.57 (16) In1—In2—In1xiii 123.5 (3)

Pd1xx—Ce2—Pd1xiii 123.2 (3) In2xiii—In2—In1xiii 12.92 (11)

Pd1xxii—Ce2—Pd1xiii 64.65 (14) In2xxvii—In2—In1xiii 68.28 (7)

In3xv—Ce2—In4xx 89.420 (15) In2lix—In2—In1xiii 126.40 (11)

In3xvi—Ce2—In4xx 89.420 (15) Pd2xxviii—In2—In1xiii 82.54 (12)

In5xvii—Ce2—In4xx 130.28 (4) Pd2—In2—In1xiii 125.3 (2)

In5ii—Ce2—In4xx 130.28 (4) In1—In2—In1xxvii 123.5 (3)

In5xviii—Ce2—In4xx 51.11 (3) In2xiii—In2—In1xxvii 68.28 (7)

In5xix—Ce2—In4xx 51.11 (3) In2xxvii—In2—In1xxvii 12.92 (11)

Pd2xx—Ce2—In4xx 49.35 (15) In2lix—In2—In1xxvii 126.40 (11)

Pd2xxi—Ce2—In4xx 49.35 (15) Pd2xxviii—In2—In1xxvii 125.3 (2)

Pd2xxii—Ce2—In4xx 128.01 (16) Pd2—In2—In1xxvii 82.54 (12)

Pd2xiii—Ce2—In4xx 128.01 (16) In1xiii—In2—In1xxvii 74.41 (14)

Pd1xxi—Ce2—In4xx 44.62 (8) In1—In2—In10 148.5 (5)

Pd1xx—Ce2—In4xx 44.62 (8) In2xiii—In2—In10 68.32 (9)

Pd1xxii—Ce2—In4xx 133.17 (9) In2xxvii—In2—In10 68.32 (9)

Pd1xiii—Ce2—In4xx 133.17 (9) In2lix—In2—In10 60.52 (11)

In3xv—Ce2—In4xiii 89.420 (15) Pd2xxviii—In2—In10 143.44 (12)

In3xvi—Ce2—In4xiii 89.420 (15) Pd2—In2—In10 143.44 (12)

In5xvii—Ce2—In4xiii 51.11 (3) In1xiii—In2—In10 80.19 (15)

In5ii—Ce2—In4xiii 51.11 (3) In1xxvii—In2—In10 80.19 (15)

In5xviii—Ce2—In4xiii 130.28 (4) In1—In2—In1lix 69.6 (4)

In5xix—Ce2—In4xiii 130.28 (4) In2xiii—In2—In1lix 134.23 (9)

Pd2xx—Ce2—In4xiii 128.01 (16) In2xxvii—In2—In1lix 134.23 (9)

Pd2xxi—Ce2—In4xiii 128.01 (16) In2lix—In2—In1lix 18.38 (12)

Pd2xxii—Ce2—In4xiii 49.35 (15) Pd2xxviii—In2—In1lix 92.58 (17)

Pd2xiii—Ce2—In4xiii 49.35 (15) Pd2—In2—In1lix 92.58 (17)

Pd1xxi—Ce2—In4xiii 133.17 (9) In1xiii—In2—In1lix 136.95 (12)

Pd1xx—Ce2—In4xiii 133.17 (9) In1xxvii—In2—In1lix 136.95 (12)

Pd1xxii—Ce2—In4xiii 44.62 (8) In10—In2—In1lix 78.90 (14)

Pd1xiii—Ce2—In4xiii 44.62 (8) In1—In2—Ce4xlv 94.76 (19)

In4xx—Ce2—In4xiii 176.68 (8) In2xiii—In2—Ce4xlv 126.24 (10)

In3xv—Ce2—In1xx 71.07 (4) In2xxvii—In2—Ce4xlv 71.78 (9)

(15)

In5xvii—Ce2—In1xx 122.67 (5) Pd2xxviii—In2—Ce4xlv 136.6 (2)

In5ii—Ce2—In1xx 122.67 (5) Pd2—In2—Ce4xlv 70.66 (11)

In5xviii—Ce2—In1xx 93.58 (4) In1xiii—In2—Ce4xlv 137.89 (18)

In5xix—Ce2—In1xx 93.58 (4) In1xxvii—In2—Ce4xlv 69.44 (6)

Pd2xx—Ce2—In1xx 36.0 (2) In10—In2—Ce4xlv 73.15 (10)

Pd2xxi—Ce2—In1xx 36.0 (2) In1lix—In2—Ce4xlv 68.63 (8)

Pd2xxii—Ce2—In1xx 70.5 (2) In1—In2—Ce4lx 94.76 (19)

Pd2xiii—Ce2—In1xx 70.5 (2) In2xiii—In2—Ce4lx 71.78 (9)

Pd1xxi—Ce2—In1xx 45.35 (15) In2xxvii—In2—Ce4lx 126.24 (10)

Pd1xx—Ce2—In1xx 45.35 (15) In2lix—In2—Ce4lx 65.39 (8)

Pd1xxii—Ce2—In1xx 79.64 (16) Pd2xxviii—In2—Ce4lx 70.66 (11)

Pd1xiii—Ce2—In1xx 79.64 (16) Pd2—In2—Ce4lx 136.6 (2)

In4xx—Ce2—In1xx 66.35 (6) In1xiii—In2—Ce4lx 69.44 (6)

In4xiii—Ce2—In1xx 110.34 (7) In1xxvii—In2—Ce4lx 137.89 (18)

In3xv—Ce2—In1xiii 71.07 (4) In10—In2—Ce4lx 73.15 (10)

In3xvi—Ce2—In1xiii 71.07 (4) In1lix—In2—Ce4lx 68.63 (8)

In5xvii—Ce2—In1xiii 93.58 (4) Ce4xlv—In2—Ce4lx 129.35 (16)

In5ii—Ce2—In1xiii 93.58 (4) In1—In2—Pd1 40.61 (18)

In5xviii—Ce2—In1xiii 122.67 (5) In2xiii—In2—Pd1 131.71 (9)

In5xix—Ce2—In1xiii 122.67 (5) In2xxvii—In2—Pd1 96.34 (8)

Pd2xx—Ce2—In1xiii 70.5 (2) In2lix—In2—Pd1 108.28 (9)

Pd2xxi—Ce2—In1xiii 70.5 (2) Pd2xxviii—In2—Pd1 69.51 (17)

Pd2xxii—Ce2—In1xiii 36.0 (2) Pd2—In2—Pd1 2.15 (10)

Pd2xiii—Ce2—In1xiii 36.0 (2) In1xiii—In2—Pd1 123.96 (18)

Pd1xxi—Ce2—In1xiii 79.64 (16) In1xxvii—In2—Pd1 83.54 (10)

Pd1xx—Ce2—In1xiii 79.64 (16) In10—In2—Pd1 145.60 (7)

Pd1xxii—Ce2—In1xiii 45.35 (15) In1lix—In2—Pd1 93.14 (14)

Pd1xiii—Ce2—In1xiii 45.35 (15) Ce4xlv—In2—Pd1 72.79 (8)

In4xx—Ce2—In1xiii 110.34 (7) Ce4lx—In2—Pd1 135.03 (17)

In4xiii—Ce2—In1xiii 66.35 (6) In1—In2—Pd1xxviii 40.61 (18)

In1xx—Ce2—In1xiii 43.99 (9) In2xiii—In2—Pd1xxviii 96.34 (8)

In3xv—Ce2—Pd3xxiii 105.47 (3) In2xxvii—In2—Pd1xxviii 131.71 (9)

In3xvi—Ce2—Pd3xxiii 105.47 (3) In2lix—In2—Pd1xxviii 108.28 (9)

In5xvii—Ce2—Pd3xxiii 48.69 (3) Pd2xxviii—In2—Pd1xxviii 2.15 (10)

In5ii—Ce2—Pd3xxiii 48.69 (3) Pd2—In2—Pd1xxviii 69.51 (17)

In5xviii—Ce2—Pd3xxiii 99.50 (6) In1xiii—In2—Pd1xxviii 83.54 (10)

In5xix—Ce2—Pd3xxiii 99.50 (6) In1xxvii—In2—Pd1xxviii 123.96 (18)

Pd2xx—Ce2—Pd3xxiii 151.68 (18) In10—In2—Pd1xxviii 145.60 (7)

Pd2xxi—Ce2—Pd3xxiii 151.68 (18) In1lix—In2—Pd1xxviii 93.14 (14)

Pd2xxii—Ce2—Pd3xxiii 93.4 (2) Ce4xlv—In2—Pd1xxviii 135.03 (17)

Pd2xiii—Ce2—Pd3xxiii 93.4 (2) Ce4lx—In2—Pd1xxviii 72.79 (8)

Pd1xxi—Ce2—Pd3xxiii 144.56 (13) Pd1—In2—Pd1xxviii 67.42 (14)

Pd1xx—Ce2—Pd3xxiii 144.56 (13) In1—In2—Ce3 76.1 (4)

Pd1xxii—Ce2—Pd3xxiii 84.89 (14) In2xiii—In2—Ce3 73.33 (8)

Pd1xiii—Ce2—Pd3xxiii 84.89 (14) In2xxvii—In2—Ce3 73.33 (8)

In4xx—Ce2—Pd3xxiii 131.99 (8) In2lix—In2—Ce3 164.08 (9)

In4xiii—Ce2—Pd3xxiii 51.32 (6) Pd2xxviii—In2—Ce3 60.43 (13)

(16)

In1xiii—Ce2—Pd3xxiii 117.67 (7) In1xiii—In2—Ce3 64.85 (11)

In3xv—Ce2—Pd3vi 105.47 (3) In1xxvii—In2—Ce3 64.85 (11)

In3xvi—Ce2—Pd3vi 105.47 (3) In10—In2—Ce3 135.40 (18)

In5xvii—Ce2—Pd3vi 99.50 (6) In1lix—In2—Ce3 145.7 (2)

In5ii—Ce2—Pd3vi 99.50 (6) Ce4xlv—In2—Ce3 115.29 (8)

In5xviii—Ce2—Pd3vi 48.69 (3) Ce4lx—In2—Ce3 115.29 (8)

In5xix—Ce2—Pd3vi 48.69 (3) Pd1—In2—Ce3 59.13 (9)

Pd2xx—Ce2—Pd3vi 93.4 (2) Pd1xxviii—In2—Ce3 59.13 (9)

Pd2xxi—Ce2—Pd3vi 93.4 (2) Pd1lxi—In3—Pd1xliii 119.4 (3)

Pd2xxii—Ce2—Pd3vi 151.68 (18) Pd1lxi—In3—Pd5xxxviii 108.33 (6)

Pd2xiii—Ce2—Pd3vi 151.68 (18) Pd1xliii—In3—Pd5xxxviii 108.33 (6)

Pd1xxi—Ce2—Pd3vi 84.89 (14) Pd1lxi—In3—Pd2lxi 11.80 (12)

Pd1xx—Ce2—Pd3vi 84.89 (14) Pd1xliii—In3—Pd2lxi 110.3 (4)

Pd1xxii—Ce2—Pd3vi 144.56 (13) Pd5xxxviii—In3—Pd2lxi 106.61 (10)

Pd1xiii—Ce2—Pd3vi 144.56 (13) Pd1lxi—In3—Pd2xliii 110.3 (4)

In4xx—Ce2—Pd3vi 51.32 (6) Pd1xliii—In3—Pd2xliii 11.80 (12)

In4xiii—Ce2—Pd3vi 131.99 (8) Pd5xxxviii—In3—Pd2xliii 106.61 (10)

In1xx—Ce2—Pd3vi 117.67 (7) Pd2lxi—In3—Pd2xliii 100.2 (5)

In1xiii—Ce2—Pd3vi 161.66 (7) Pd1lxi—In3—Pd4lxii 106.34 (19)

Pd3xxiii—Ce2—Pd3vi 80.67 (11) Pd1xliii—In3—Pd4lxii 106.34 (19)

In3xv—Ce2—In8xxiv 136.74 (6) Pd5xxxviii—In3—Pd4lxii 107.54 (10)

In3xvi—Ce2—In8xxiv 84.21 (5) Pd2lxi—In3—Pd4lxii 117.5 (3)

In5xvii—Ce2—In8xxiv 91.03 (5) Pd2xliii—In3—Pd4lxii 117.5 (3)

In5ii—Ce2—In8xxiv 53.10 (4) Pd1lxi—In3—In9lxii 120.25 (15)

In5xviii—Ce2—In8xxiv 53.10 (4) Pd1xliii—In3—In9lxii 120.25 (15)

In5xix—Ce2—In8xxiv 91.03 (5) Pd5xxxviii—In3—In9lxii 54.59 (7)

Pd2xx—Ce2—In8xxiv 139.4 (2) Pd2lxi—In3—In9lxii 129.3 (2)

Pd2xxi—Ce2—In8xxiv 110.3 (2) Pd2xliii—In3—In9lxii 129.3 (2)

Pd2xxii—Ce2—In8xxiv 139.4 (2) Pd4lxii—In3—In9lxii 52.94 (8)

Pd2xiii—Ce2—In8xxiv 110.3 (2) Pd1lxi—In3—In5lxiii 125.45 (9)

Pd1xxi—Ce2—In8xxiv 100.96 (15) Pd1xliii—In3—In5lxiii 54.80 (18)

Pd1xx—Ce2—In8xxiv 131.56 (14) Pd5xxxviii—In3—In5lxiii 125.34 (5)

Pd1xxii—Ce2—In8xxiv 131.56 (14) Pd2lxi—In3—In5lxiii 128.02 (10)

Pd1xiii—Ce2—In8xxiv 100.96 (15) Pd2xliii—In3—In5lxiii 65.7 (3)

In4xx—Ce2—In8xxiv 91.49 (4) Pd4lxii—In3—In5lxiii 51.80 (5)

In4xiii—Ce2—In8xxiv 91.49 (4) In9lxii—In3—In5lxiii 87.45 (5)

In1xx—Ce2—In8xxiv 146.25 (4) Pd1lxi—In3—In5lxiv 54.80 (18)

In1xiii—Ce2—In8xxiv 146.25 (4) Pd1xliii—In3—In5lxiv 125.45 (9)

Pd3xxiii—Ce2—In8xxiv 46.88 (5) Pd5xxxviii—In3—In5lxiv 125.34 (5)

Pd3vi—Ce2—In8xxiv 46.88 (5) Pd2lxi—In3—In5lxiv 65.7 (3)

In3xv—Ce2—In8xxv 84.21 (5) Pd2xliii—In3—In5lxiv 128.02 (10)

In3xvi—Ce2—In8xxv 136.74 (6) Pd4lxii—In3—In5lxiv 51.80 (5)

In5xvii—Ce2—In8xxv 53.10 (4) In9lxii—In3—In5lxiv 87.45 (5)

In5ii—Ce2—In8xxv 91.03 (5) In5lxiii—In3—In5lxiv 84.09 (7)

In5xviii—Ce2—In8xxv 91.03 (5) Pd1lxi—In3—Ce1lxv 60.77 (12)

In5xix—Ce2—In8xxv 53.10 (4) Pd1xliii—In3—Ce1lxv 171.31 (14)

Pd2xx—Ce2—In8xxv 110.3 (2) Pd5xxxviii—In3—Ce1lxv 64.72 (3)

Figure

Figure 1
Figure 2The asymmetric unit of Ce20Pd36In67, with displacement ellipsoids drawn

References

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• Data shows credit using and rationing of risk averts, risk neutrals and risk lovers respectively. As to risk averts, the credit is mainly used to pay children’s tuition, medical