Curriculum Vitae
 Personal data
Name:
Mats Thomas Wågberg
Social sec. nr:
710524-7816
Adress:
Umevägen 55
911 34 Vännäs
Telephone:
+46-935 511 37
(home)
070-227 28 71
(mobile)
+46-90-786 50 34 (work)
e-mail:
thomas.wagberg@physics.umu.se
Social status:
Married, three children (born July –99, Oct -03, and May -07)
Birth town:
Örnsköldsvik
 Education
Lower Education:
3 year of Science Programme, Nolaskolan Örnsköldsvik, 1990.
Military Service:
Company Commander Officer, 15 months, P5 Boden och P4 Skövde.
University:
Master of Science in Physics at Umeå University 1996 (in total 238
credits).
Phil. licentiat in Experimental Physics at Umeå University, Nov 1998.
Phil. Doctor in Experimental Physics at Umeå University, 15 Feb 2002.
International
Experience:
One year study at The Technical University of Vienna, Österrike.
Six months research at UC Berkeley, California, USA, during the PhD
studies.
Three month of research at Universite Paris Sud, Orsay, France, during
the PhD studies.
Two year Post-doc at Groupe des Dynamique et Phases Condensee,
Universite’ Montpellier II, France
Classes taken for the
PhD studies:
Languages:
Condensed Matter
10 p
Vibration spectroscopy
5p
High pressure physics
Super conduction
Physics and Chemistry of Fullerenes
Laser spectroscopy and
Optical Instruments
Physics and Chemistry of Nanotubes
4p
5p
5p
Swedish
Native
English
Fluent
German
Very good
French
Good
8p
4p
IV. Personal Honors
Kempefonden, 1996, 1997 (vt), 1997 (ht)
Lars Hierthas memory ,1997
Nobel Foundation, 1997
Wallenbergs scholarship for research at UC
Berkeley,
1997
Marie-Curie scholarship for research in Paris
(Orsay), 2001.
Post-Doc scholarship from Wenner-Gren
Foundation. 2003-2005
Research position funded by Wenner-Gren
Foundation
2006-2008
V. Research Grants
Kempefonden travel grant, 1996, 2001.
7000 SEK, 5000 SEK
Kempefonden researchl grant, 1997, 1998,
1999.
10000 SEK, 15000 SEK, 10000 SEK
Royal Academy of Science (KVA), 2001.
7000 SEK
Helge Axelsson-Johnsons foundation, 2000.
40 000 SEK
Magnus Bergvalls foundation, 2002, 2005,
2007
60 000 SEK, 30 000 SEK, 40 000 SEK
Kempe foundation, 2004,
100 000 SEK
Knut & Alice Wallenberg foundation, 2005
230 000 SEK,
Längmanska kulturfonden, 2005,
30 000 SEK
Carl Tryggers stiftelse, 2006,2007,
186 000 SEK, 130 000 SEK
Wenner-Gren Foundations, 2006, 2007
230 000 SEK, 230 000 SEK.
Wenner-Gren Foundations, Salary 2006,
2007
700 000 SEK, 700 000 SEK
Vetenskapsrådet, 2008, 2009, 2010
710 000, 690 000, 670 000 SEK
Young researcher grant, 2009, 2010
1 000 000 SEK, 1 000 000 SEK
Work Experience:
PhD in Exp. Physics, Umeå University 1996-2001
Lecturer, Umeå University
Nov 01-Dec -02
Post-Doc, Montpellier, France
Research position, Umeå University
Jan 03-Dec –04
Feb 05--
Publications
Scientific papers:
1. Sundqvist B., Andersson O., Edlund U., Fransson Å., Inaba A., Jacobsson, P., Johnels D.,
Launois P., Meingast C., Moret R., Moritz T., Persson P-A., Soldatov A. and Wågberg T.
Physical Properties of Pressure Polymerized C60, Fullerenes: Recent Advances in the
Chemistry and Physics of Fullerenes and Related Materials, vol. 3. (Proc. 189th ECS
Meeting, Symp. Fullerenes: Chemistry, Physics, and New Directions VIII, Los Angeles
1996: K.M. Kadish and R.S. Ruoff, Editors), pp. 1014-28.
2. Persson P-A., Andersson O., Jacobsson P., Soldatov A., Sundqvist B. And Wågberg T,.
The Physical Properties of High-Pressure Polymerized C60, J. Phys. Chem. Solids, 58,
1881 (1997)
3. Wågberg T., Persson P-A., Sundqvist B., and Jacobsson P., A Raman Study of
Polymerized C60. Applied Physics A, 64, pp. 223 (1997).
4. B. Sundqvist, P. Jacobsson, U. Edlund, D. Johnels, J. Jun, P. Launois, R. Moret, A.
Soldatov and T. Wågberg, Structural and physical properties of pressure polymerized
C60,. Proc. Joint Meeting of the Europ. Materials Soc. ((E-MRS’97) and the Int. Conf. On
Advanced Materials (ICAM´97), Strasbourg 1997; H Kuzmany and P. Delhaes, editors.)
Carbon 36, 657-60 (1998)
5. T. Wågberg, P.-A. Persson, B. Sundqvist, P. Jacobsson, Polymeric Phases of C60
Fullerenes: Recent Advances in the Chemistry and Physics of Fullerenes and Related
Materials (Proc. 192nd ECS Meeting Symp. Fullerenes: Chemistry, Physics and New
Directions X, Paris 1997; K M Kadish and R S Ruoff editors, ECS, Pennington 1997), 5
674 (1997).
6. B. Sundqvist, Å. Fransson, A. Inaba, C. Meingast, P. Nagel, V. Pasler, B. Renker and T.
Wågberg, Physical properties of two-dimensionally polymerised C60 Fullerenes: Recent
Advances in the Chemistry and Physics of Fullerenes and Related Materials, (Proc. 193rd
ECS Meeting Symp. Fullerenes: Chemistry, Physics and New Directions XI, San Diego
1998; K M Kadish and R S Ruoff editors, ECS, Pennington 1998) 6, pp. 705 (1998)
7. B. Sundqvist, P. Jacobsson, J. Jun, P. Launois, R. Moret, A. Soldatov and T. Wågberg,
Polymerisation of C60 under Hydrostatic and Non-hydrostatic Conditions, Fullerenes:
Recent Advances in the Chemistry and Physics of Fullerenes and Related Materials vol. 5
(Proc. 192nd ECS Meeting Symp. Fullerenes: Chemistry, Physics and New Directions X,
Paris 1997; K M Kadish and R S Ruoff editors, ECS, Pennington 1997) pp. 439-49
8. T. Wågberg, P.-A. Persson and B. Sundqvist, Structural evolution of low-pressure
polymerised C60 with polymerisation conditions, J. Phys. Chem. Solids, 60, 1989 (1999).
9. T. Wågberg, P. Jacobsson and B. Sundqvist, Comparative Raman study of
photopolymerised and pressure polymerised C60 films, Phys. Rev. B, 60, 4535 (1999).
10. T. L. Makarova, T. Wågberg, B. Sundqvist, V. Agafonov, V. A. Davydov, A. V.
Rakhmanina and L. S. Kashevarova, Electrical properties of the rhombohedral C60
polymers, Fullerenes: Recent Advances in the Chemistry and Physics of Fullerenes and
Related Materials (Proc. 195 th ECS Meeting Symp. Fullerenes: Chemistry, Physics and
New Directions XII, Seattle 1999, ECS, Pennington 1997), 7, 628 (1999).
11. T. M. de Swiet, J. L. Yarger, T. Wågberg, J. Hone, B. Gross, M. Tomaselli, J. J. Titman,
A. Zettl, M. Mehring and A. Pines, Electron Spin Density Distribution in the Polymer
phase of CsC60: Assignment of the NMR Spectrum, Phys. Rev. Lett., 84, 717 (2000).
12. R. Moret, P. Launois, T. Wågberg and B. Sundqvist: Chain Orientation and layer
stacking in the high-pressure polymers of C60: Single crystal studies., Electronic
properties of Novel Materials- Science and Technology of Molecular Nanostructures (Proc
XIV Int. Winter School on Electronic Prop. Of Novel Materials, Kirchberg 2000; AIP
Conf. Proc., American Institute of Physics, Melville NY 2000) 544, 81 (2000).
13. B-B Liu, B Sundqvist, O. Andersson, T Wågberg, and G Zou, Transport properties of
single-walled manotube mats under hydrostatic pressure., Electronic properties of
Novel Materials- Science and Technology of Molecular Nanostructures (Proc XIV Int.
Winter School on Electronic Prop. Of Novel Materials, Kirchberg 2000; AIP Conf. Proc.,
American Institute of Physics, Melville NY 2000) 544, 344 (2000).
14. T. L. Makarova, T. Wågberg, B. Sundqvist, X.-M. Zhu, E. B. Nyeanchi, M. E. Gaevski, E.
Ollsson, V. Agafonov, V. A. Davydov, A. V. Rakhmanina and L. S. Kashevarova,
Conductivity of Two-Dimensional C60 Polymers, Mol. Cryst. Liq. Cryst. Sect C (Proc.
4th Int. Workshop on Fullerenes and Atomic Clusters (IWFAC’99), St Petersburg 1999),
13, 151 (2000).
15. B-B Liu, T Wågberg, E. B. Nyeanchi, T. L. Makarova, X. M. Zhu, B Sundqvist, R Yang,
D. Li, C. Gao, H. Yang, G Zou, H. D. Li, and E Olsson, Synthesis and characterization
of single-walled nanotubes produced with Ce as catalyst, Mol. Cryst. Liq. Cryst. Sect C
(Proc. 4th Int. Workshop on Fullerenes and Atomic Clusters (IWFAC’99), St Petersburg
1999), 13, 75 (2000).
16. T. Wågberg and B. Sundqvist, Can Two-Dimensionally Polymers be Intercalated,
Molecular Cryst. And Liquid Cryst, 340, 677 (2000)
17. R. Moret, P. Launois, T. Wågberg and B. Sundqvist, High-pressure synthesis, structural
and Raman studies of a two-dimensional polymer crystal of C60, Euro. Phys J. B., 15,
253 (2000).
18. B-B Liu, T Wågberg, E Olsson, R Yang, H Li, S. Zhang, H. Yang, G Zou and B
Sundqvist, Synthesis and characterization of single-walled nanotubes produced with
Ce as catalyst., Chem. Phys. Lett. 320, 365 (2000).
19. B Sundqvist, T Wågberg, P-A Persson, P Jacobsson, S Stafström, R Moret and P Launois:
Structure and stability of pressure polymerized C60, Mol. Cryst. Liq. Cryst. Sect C
(Proc. 4th Int. Workshop on Fullerenes and Atomic Clusters (IWFAC’99), St Petersburg
1999), 13, 117 (2000).
20. T Wågberg, E Nyeanchi, A Soldatov and B Sundqvist: 2D polymerization and doping of
fullerenes under pressure. High Pressure Res. (Proc. EHPRG'99, Montpellier 1999), 18,
139 (2000).
21. E. McRae, B. Sundqvist, T. Wagberg, P. Jacobsson, R. Vangelisti and M. Lelaurain:
Raman light scattering and c-axis resistivity evidence for a pressure-induced stage
transformation in PdAl2Cl8 intercalated graphite, Phys. Rev. B, 62, 13757 (2000).
22. K. P. Meletov, S. Assimopoulos, I. Tsilika, G. A. Kourouklis, J. Arvanitidis, S. Ves, B.
Sundqvist and T. Wagberg: High-pressure-induced metastable phase in tetragonal 2D
polymeric C60, Chem. Phys. Lett, 341, 435 (2001).
23. B-B Liu, B Sundqvist, O. Andersson, T Wågberg, E B Nyeanchi and G Zou: Electric
resistance of single-walled carbon nanotubes under hydrostatic pressure, Solid State
Comm., 118, 31 (2001).
24. B-B Liu, M. Yu, G. Zou, J. Carlsten, T. Wågberg and B. Sundqvist: Raman study of
bromine doped single-walled carbon nanotubes under high pressure. High pressure
Science and technology (Proc. Joint 18:th Int. Conf. On High Pressure Science and
Technology (AIRAPT 18) and 11:th High Pressure Conf. Of China (HPCC-11), Beijing,
submitted.
25. T. Wågberg and B. Sundqvist: Sodium intercalated polymers of C60. Mol. Cryst. Liq.
Cryst. (Proc. ISIC-11), accepted.
26. B-B Liu, T. Wågberg and B. Sundqvist, Pressure effect on intercalation compounds of
carbon nanotubes and C60., Mol. Cryst. Liq. Cryst. (Proc. ISIC-11), accepted.
27. R. T. F. Scsaijk, A. de Visser, E. McRae, B. Sundqvist, T. Wagberg and R. Vangelisti:
Band Structure and transport studies in PdAl2Cl8., Mol. Cryst. Liq. Cryst. (Proc. ISIC11), accepted.
28. T. Wågberg, A. Soldatov and B. Sundqvist, A Spectroscopic Study of Phase
Transformations between Orthorhombic and Tetragonal C60 Polymers, Eur. Phys. J.
B, 49, 59 (2006).
29. T. Wågberg, B. Sundqvist, Raman study on the two-dimensional polymers Na4C60 and
tetragonal C60, Phys. Rev. B 65, 155421 (2002).
30. B-B Liu, Q. Cui, M. Yu, G. Zou, J. Carlsten, T. Wågberg and B. Sundqvist: Raman study
of bromine doped single-walled carbon nanotubes under high pressure. J.
Phys.:Condens. Matter, 14, 11255 (2002).
31. R. Röding, T Wågberg, and B. Sundqvist, Raman spectroscopy and X-ray diffraction
of the single- and double bonded two-dimensional polymers NanLi4-nC60, J. Phys.
Chem. Solids, 65, 355 (2004).
32. T. Wågberg, P. Stenmark, and B. Sundqvist, Structural aspects of two-dimensional
Li4C60 , Na4C60 and tetragonal C60; Raman spectroscopy and X-ray diffraction, J.
Phys. Chem. Solids, 65, 317 (2004).
33. R. Röding, P. Stenmark, T Wågberg, and B. Sundqvist, Structural and vibration
properties of Li- and Na-doped fullerene polymers, Fullerenes Nanotubes and Carbon
Nanostructures, 12, 319 (2004).
34. S.G. Buga, V. D. Blank, G. A. Dubitsky, N. R. Serebryanaya, A. Fransson, T. Wagberg,
and B. Sundqvist, Synthesis of superhard 3D-Polymeric C60 Fullerites from
Rhombhedral 2D-Polymer by High-Pressure Treatment, High Pressure Research, 23,
259 (2003).
35. T. Wågberg, P. Launois, R. Moret, H. J. Huang, S. Yang , I.L. Li, and Z.K. Tang, Study
by x-ray diffraction and Raman spectroscopy of a Dy@C82 single crystal, Eur. Phys. J.
B, 35, 371 (2003).
36. R. Moret, P. Launois, T. Wågberg, et al, Single-crystal study of the pressuretemperature induced dimerization of C60, Eur. Phys. J. B, 37, 25 (2004).
37. R. Moret, T. Wågberg, and B. Sundqvist, Influence of the pressure-temperature
treatment on the polymerization of C60 single crystals at 700 K, 2GPa, Carbon, 43, 709
(2005).
38. T. Wågberg, C. Goze-Bac, R. Röding, B. Sundqvist, D. Johnels, H. Kataura, and P.
Bernier, 13C-NMR on intercalated 2D-polymerised C60 and modified peapods, Proc
XVIII Int. Winter School on Electronic Prop. Of Novel Materials, Kirchberg 2004; AIP
Conf. Proc., American Institute of Physics, Melville NY 2004), p. 238.
39. T. Wågberg, , R. Röding, B. Sundqvist, D. Johnels, and C. Goze-Bac, Electronic and
Structural Properties of Li4-xNaxC60 (x = 0-4), derived by NMR spectroscopy, to be
submitted to Phys. Rev. B
40. R. Röding, T. Wågberg, and B. Sundqvist, Structural properties of the alkali-metal
doped polymeric fullerene compounds LixNa(4-x)C60, Chem. Phys. Lett. 413, 157 (2005).
41. T. Wågberg, and B. Sundqvist, Pressure-induced polymers of C60, invited review,
appearing August, Kluwer/Springer-Verlag in a volume with the tentative title “Fullerenerelated materials”, edited by Dr. S. Margadonna 2010.
42. T. Wågberg and D. Johnels, 7Li and 23Na MAS solid state NMR studies of Na4C60 and
Li4C60, J. Phys. Chem. Solids, 67, 1091-1094 (2006).
43. T. Wågberg, D. Johnels, A. Peera, M. Hedenström, Y. M. Schulga, Y. O. Tsybin, J. M.
Purcell, A. G. Marshall, D. Noreus, T. Sato, and A. V. Talyzin, Selective synthesis of the
C3v-isomer of C60H18, Org. Lett, 7(25); 5557-5560 (2005).
44. O. Andersson and T. Wågberg, In situ, high pressure differential thermal analysis and
ionic conductance of PMMA-based gels with and without TiO2 nano-particle filler,
Elecrochim. Acta., 51, 4537 (2006)
45. A. Talyzin, A. Dzwilewski and T. Wågberg, Temperature dependence of C60 Raman
spectra up to 840K. Sol. State. Comm., 140, 178-181 (2006).
46. A. Dzwilewski and T. Wågberg, and L. Edman, C60 Field-Effect Transistors: The
Effects of Polymerization on Electronic Properties and Device Performance, Phys Rev.
B, 75, 075203 (2007).
47. Y. Zou, B. Liu, M. Yao, Y. Hou, L. Wang, S. Yu, P. Wang, T. Cui, G. Zou, T. Wågberg,
and B. Sundqvist, Raman spectroscopy study on carbon nanotube peapods excited by
Near IR laser under high pressure, Phys. Rev B, 76, 195417 (2007).
48. A. Iwasiewicz-Wabnig, T. Wågberg, T. L. Makarova, and B. Sundqvist, Absence of
insulator-metal transition in Rb4C60 under pressure below 2 GPa., Phys. Rev. B., 77
085434 (2007)
49. T. Wågberg, M. Hedenström, A. V. Talyzin, I. Sethson, Y. O. Tsybin, J. M. Purcell, A. G.
Marshall, D. Noréus, and Dan Johnels, Synthesis and Structural Characterization of
C70H38, Angewandte Chemie International Edition, 47, Issue 15, Date: March 31, 2008,
Pages: 2796-2799
50. T. Wågberg, P. R. Hania, N. D. Robinson, J.-H. Shin, P. Matyba, and L. Edman, On the
Limited Operational Lifetime of Light-Emitting Electrochemical Cells, Adv.
Materials, 20, 1744 (2008).
51. A. Iwasiewicz-Wabnig, T. Wågberg, T. L. Makarova, and B. Sundqvist, Resistivity of
Rb4C60 under pressure, J. Phys. Chem. Sol, 69, 1218-1220 (2008).
52. E. Abou-Hamad, Y. Kim, A. V. Talyzin, C. Goze-Bac, D. E. Luzzi, A. Rubio, and T.
Wågberg, Hydrogenation of C60 in peapods: physics and chemistry in nano vessels,
Journal of Physical Chemistry C, 113, 8583-8587 (2009)
53. E. Abou-Hamad, Y. Kim, A. V. Talyzin, T. Wågberg, C. Goze-Bac, A. Rubio, A. Zettl, D. E.
Luzzi, Nanomagnetic Shielding, submitted to PRB Rapid Communication (June 2008)
54. M. Yao, B. M. Andersson, P. Stenmark, B.Sundqvist, B. B. Liu, T. Wågberg, Synthesis
and growth mechanism of C60 nano/microcrystals with different shapes produced by
evaporation of C60 solutions based on different aromatic solvents, Carbon 47,11811188, 2009.
55. T. Wågberg, B. Liu, G. Orädd, B. Eliasson, and L. Edman, Cationic Polyfluorene:
Conformation and Aggregation in a “Good” Solvent, accepted European Polymer
Journal.
56. B. Sundqvist, M. Yao, and T. Wågberg, Electrical transport properties of A4C60 (A =
Li, Na and Rb) under pressure, High press. Res., 28, 597-600 (2008).
57. A. Dzwilewski, T. Wågberg, and Ludvig Edman, Facile Patterning of Organic
Electronic Materials and Devices, J. Amer. Chem. Soc., 131 (11) 4006-4011, 2009.
58. E. Abou-Hamad, M. R. Babaa, Y. Kim, S. Dennler, F. Mauri, T. Wågberg, D. E. Luzzi, C.
Goze-Bac, Structural properties of carbon nanotubes derived from 13C NMR, Submitted
to Phys. Rev. B, (Nov 2008).
59. E. Abou-Hamad, Y. Kim, T. Wågberg, S. Aloni, D. Boesch, A. Zettl, A. Rubio, D. E. Luzzi,
C. Goze-Bac, Magnetic properties of peapods investigated by nuclear magnetic
resonance, submitted.
60. E. Abou-Hamad, Y. Kim, T. Wågberg, A. Rubio, D. E. Luzzi, C. Goze-Bac, Molecular
dynamics of encapsulated one dimensional crystal of C60 molecules inside single
walled carbon nanotubes investigated by NMR, Submitted.
61. M. Yao, B. Sundqvist, T. Wågberg, Reversible pressure-driven nanoscale phase
separation in Rb4C60, Phys. Rev. B (Rapid communication) 79, 081403 (2009).
62. M. Yao, T. Wågberg, B. Sundqvist, Electrical transport properties of Na2C60 under
high pressure, accepted Phys Rev B.
63. F. Nitze, B. M. Andersson, T. Wågberg, Ammonia assisted growth of multiwalled
carbon nanotubes, submitted to Physica Status Solidi B.
64. E. Abou-Hamad, C. Goze-Bac, F. Nitze, M. Schmidt, R. Aznar, M. Mehring, and T.
Wågberg, Electronic properties of Cs-intercalated SWNT, derived by NMR
spectroscopy., submitted to Physical Review B (Rapid Communication)
65. Y. Zou, B. Liu* , L. Wang, D. Liu, S. Yu, P. Wang, X. Li, T. Wang, M. G. Yao, B. Zou,
T. Cui, and G. Zou, T. Wågberg, B. Sundqvist, Rotational Dynamics of Confined C60:
Near IR Raman Studies under High Pressure, submitted to Phys. Rev. Lett.
66. M. G. Yao, P. Stenmark, E. Abou-Hamad, F. Nitze, J. Qin, C. Goze-bac, T. Wågberg,
Confined diamond like molecules assembled to one dimension in carbon nanotubes,
submitted to Journal of Physical Chemistry C.
67. M. G. Yao, T. Wågberg, A. Iwasiewicz-Wabnig , T. L. Makarova, B. Sundqvist,
Reversible Nano-Scale Phase Separation of Rb4C60 under Pressure, Journal of
Physics: Conference Series, accepted
68.