Electronic Supplementary Information (ESI)

New Journal of Chemistry, March 30, 2016

Rare earth coordination dinuclear compounds constructed

from 3,5-dicarboxypyrazolate and succinate intermetallic

bridges†

Marcelo G. Lahoud,a Elaine C. Muniz,a Guilherme Arroyos,a Marcelo A. Fávaro,a Marian R.

Davolos,a Richard Dvries,b Javier Ellena,b Rafael S. Freitas,c Everton Arrighic and Regina C.

G. Frem*a

aDepartamento de Química Geral e Inorgânica, UNESP – Universidade Estadual Paulista,

Araraquara-SP 14801-970, Brasil. E-mail: rcgfrem@iq.unesp.br; Fax: +55 16 33016692; Tel: +55 16

33019623

bDepartamento de Física, Universidade de São Paulo, São Carlos-SP 13560-970, Brasil. E-mail:

javiere@ifsc.usp.br

cDepartamento de Física, Universidade de São Paulo, São Paulo-SP 05315-970, Brasil. E-mail:

freitas@if.usp.br

Electronic Supplementary Material (ESI) for New Journal of Chemistry.This journal is © The Royal Society of Chemistry and the Centre National de la Recherche Scientifique 2016

Figure S1. TGA, DTG and DTA curves of Y3+

complex (1).

Figure S2. TGA, DTG and DTA curves of La3+

complex (2).

Figure S3. TGA, DTG and DTA curves of Ce3+

complex (3).

Figure S4. TGA, DTG and DTA curves of Pr3+

complex (4).

Figure S5. TGA, DTG and DTA curves of Nd3+

complex (5).

Figure S6. TGA, DTG and DTA curves of Sm3+

complex (6).

Figure S7. TGA, DTG and DTA curves of Gd3+

complex (7).

Figure S8. TGA, DTG and DTA curves of Dy3+

complex (9).

Figure S9. TGA, DTG and DTA curves of Ho3+

complex (10).

Figure S10. TGA, DTG and DTA curves of Er3+

complex (11).

Figure S11. TGA, DTG and DTA curves of Tm3+

complex (12).

Figure S12. TGA, DTG and DTA curves of Yb3+

complex (13).

Figure S13. Diffuse reflectance spectrum of Y3+

complex (1).

Figure S14. Diffuse reflectance spectrum of La3+

complex (2).

Figure S15. Diffuse reflectance spectrum of Ce3+

complex (3).

Figure S16. Diffuse reflectance spectrum of Nd3+

complex (5).

Figure S17. Diffuse reflectance spectrum of Sm3+

complex (6).

Figure S18. Diffuse reflectance spectrum of Gd3+

complex (7).

Figure S19. Diffuse reflectance spectrum of Tb3+

complex (8).

Figure S20. Diffuse reflectance spectrum of Dy3+

complex (9).

Figure S21. Diffuse reflectance spectrum of Ho3+

complex (10).

Figure S22. Diffuse reflectance spectrum of Er3+

complex (11).

Figure S23. Diffuse reflectance spectrum of Tm3+

complex (12).

Figure S24. Diffuse reflectance spectrum of Yb3+

complex (13).

Table S1 Reflectance data and f-f transition assignments37,38

for the complexes 4-13.

Pr3+

(4) Nd3+

(5) Sm3+

(6) Gd3+

(7) Tb3+

(8)

/nm Assignments /nm Assignments /nm Assignments /nm Assignments /nm Assignments

445 3H4

3P0 330

4I9/2

4D1/2 306

8F7/2

6F5/2 306

8F7/2

6F5/2 303

7F6

5H6

471 3H4

3P1 341.5

4I9/2

4D5/2 311

8F7/2

6F7/2 311

8F7/2

6F7/2 319

7F6

5D0

484.5 3H4

3P2 355.5

4I9/2

4D3/2 332

6H5/2

4G9/2

326.5

7F6

5D1

591 3H4

1D2 382

4I9/2

2P3/2 345

6H5/2

6P7/2 +

4H9/2 +

4K17/2

341

7F6

5L8

420 4I9/2

2D5/2 363

6H5/2

4F9/2 +

4D3/2 +

6P5/2 351.5

7F6

5L9

429 4I9/2

2P1/2 375

6H5/2

6P7/2

359.5

7F6

5G5

462.5 4I9/2

2K15/2 391

6H5/2

4L15/2+

4M21/2 369.5

7F6

5L10

470 4I9/2

2D3/2 403

6H5/2

4L13/2 +

4G7/2 379

7F6

5D3

475 4I9/2

2G9/2 417

6H5/2

4M19/2 488

7F6

5D4

523 4I9/2

4G7/2 442

6H5/2

4M17/2+

4G9/2 +

4I15/2

580 4I9/2

4G5/2 463.5

6H5/2

4I13/2

626.5 4I9/2

2H11/2 479

6H5/2

4I11/2 +

4M15/2

678.5 4I9/2

4F9/2 500

6H5/2

4G7/2 +

4G9/2

744 4I9/2

4F7/2 529.5

6H5/2

6F3/2

796 4I9/2

2H9/2 950

6H5/2

6F11/2

1091

6H5/2

6F9/2

Dy3+

(9) Ho3+

(10) Er3+

(11) Tm3+

(12) Yb3+

(13)

/nm Assignments /nm Assignments /nm Assignments /nm Assignments /nm Assignments

294.5 6H15/2

4K13/2 287.5 5

I8 (5G,

5D,

8G)4 302.5 4

I15/2 4G5/2 359 3

H61D2

978 2

F7/22F5/2

325.5 6H15/2

4K15/2 334

5I8

3K5 316.5 4

I15/2 (2P,

2D)3/2 471

3H6

1G4

338.5 6H15/2 (

4I,

4G)9/2 346 5

I8 3L9 358 4

I15/2 2G7/2 665 3

H63F2

350 6H15/2

4M15/2 +

4P7/2 360.5 5

I8 3H6 365 4

I15/2 4G9/2 692.5 3

H63F3

364.6 6H15/2

4I11/2 386

5I8

5G4 387.5

4I15/2

4G11/2 796

3H6

3H4

388.5 6H15/2

4M21/2 +

4I13/2 +

4K17/2 +

4F7/2

417 5I8 (

5G,

3G)5 407

4I15/2

2G9/2

427 6H15/2

4G11/2 452.5 5

I8 5G6 442.5 4

I15/2 4F3/2

453 6H15/2

4H15/2 468 5

I8 3K8 450 4

I15/2 4F5/2

473 6H15/2

4F9/2 473

5I8

5F2 487.5

4I15/2

4F7/2

756 6H15/2

6F3/2 485 5

I8 5F3 520.5 4

I15/2 2H11/2

804 6H15/2

6F5/2

539.5 5

I8 5F4 541.5 4

I15/2 4S3/2

644.5 5I8

5F5 653

4I15/2

4F9/2

748.5 5I8

5I4 799 4

I15/2 4I9/2

Figure S25 Energy transfer processes taking place in Sm3+

(6), Tb3+

(8) and Dy3+

(9) complexes.

Figure S26. Diagram of energy levels of Sm3+

complex (6): excitation (black), energy transfer (blue) and emission (orange).

Figure S27 Energy level diagram of Tb3+

complex (8): excitation (black), energy transfer (blue) and emission (green).

Figure S28 Energy level diagram of Dy3+

complex (9): excitation (black), energy transfer (blue) and emission (magenta).

Figure S29. CIE coordinates for 6(A), 8(B) and (9)(C).