[1]  Optische Eigenschaften von konjugierten Leiterpolymeren, Diplomarbeit, TU Graz, 1993.

[2]  Lokale Bruchzähigkeit metallischer Werkstoffe, öffnet eine Datei in einem neuen Fenster, Dissertation, Montanuniversität Leoben, 1996.

[3]   3D-techniques in materials science, öffnet eine Datei in einem neuen Fenster, Habilitation, TU Wien 2004.

Publikationen in referierten Zeitschriften 1994-2002

[1]    W.Graupner, M.Mauri, J.Stampfl, O.Unterweger, G.Leising,
Excited states in polymers of different dimerization,
Molecular Crystals and Liquid Crystals 256 (1994) 431-438

[2]    W.Graupner, M.Mauri, J.Stampfl, G.Leising,
Photoexcited and doping induced electronic states in a PPP-type ladder polymer,
Solid State Communications 91 (1994) 7

[3]    G.Grem, C.Paar, J.Stampfl, G.Leising, J.Huber, U.Scherf,
Soluble segmented stepladder poly(para-phenylenes) for blue-light-emitting diodes,
Chemistry of Materials 7 (1995) 2-4

[4]    J.Stampfl, W.Graupner, G.Leising, U.Scherf,
Photoluminescence and UV-VIS absorption study of poly(para-Phenylene)-type ladder polymers,
Journal of Luminescence 63 (1995) 117-123

[5]    J.Stampfl, S.Tasch, G.Leising, U.Scherf,
Quantum Efficiencies of Electroluminescent poly(para-Phenylenes),
Synthetic Metals 71 (1995) 2125-2128

[6]    G.Grem, V.Martin, F.Meghdadi, C.Paar, J.Stampfl, J.Sturm, S.Tasch, G.Leising,
Stable poly(para-Phenylenes) and their application in organic light emitting Diodes,
Synthetic Metals 71 (1995) 2193-2194

[7]    H.A.Romberg, N.Nücker, J.Fink, O.F.Unterweger, J.Stampfl, G.Leising,
Electron energy-loss investigations of the electronic structure of a PPP-related ladder-polymer,
Synthetic Metals 69 (1995) 437-438

[8]    C.Paar, J.Stampfl, S.Tasch, H.Kreimaier, G.Leising, H.Vestweber, J.Pommerehne,
Excitation energy transfer in segmented ladder type poly(para-Phenylene) blue light emitting diodes,
Solid State Communication 96 (1995) 167-170

[9]    J.Stampfl, S.Scherer, M.Berchthaler, M.Gruber, O.Kolednik,
Determination of the fracture toughness by automatic image processing,
International Journal of Fracture 78(1996) 35-44

[10]  O.Kolednik, M.Albrecht, M.Berchthaler, H.Germ, R.Pippan, F.Riemelmoser, J.Stampfl, J.Wei,
The fracture resistance of a ferritic-austenitic duplex steel,
Acta Materialia 44(1996) 3307-3319

[11]  J.Stampfl, S.Scherer, O.Kolednik,
Reconstruction of surface topographies by scanning electron microscopy for application in fracture research,
Appl. Physics A 63 (1996) 341-346

[12]  C.O.A. Semprimoschnig, J.Stampfl, O.Kolednik,
A new powerful tool for surveying cleavage fracture surfaces
Fatigue and Fracture of Engineering Materials and Structures 20 Nr.11 (1997) 1541-1550

[13]  J.Stampfl, O.Kolednik,
The separation of fracture energies in metallic materials,
International Journal of Fracture
, 101 (4) (2000) 321-345

[14]  J.Stampfl, R.Leitgeb, Y.-L. Cheng, F.B. Prinz ,
Electro-discharge machining of mesoscopic parts with electroplated copper and hot-pressed silver tungsten electrodes
Journal of Micromechanics and Microengineering,
10 (2000) 1-6

[15]  A.G.Cooper, S. Kang, J.Stampfl,  F.B. Prinz ,
Fabrication of ceramic parts for a miniature jet engine application using Mold SDM
accepted for publication in Ceramic Transactions
, 1999

[16]  X. C. Li, J. Stampfl, F.B. Prinz,
Mechanical and thermal expansion behavior of laser deposited metal matrix composites of Invar and TiC,
Materials Science and Engineering A, 282(1-2) 86-90, 2000.

[17]   J. Stampfl H.C. Liu, S.W. Nam, K. Sakamoto, H. Tsuru, S. Kang, A. G. Cooper, A. Nickel, F. B. Prinz,
Rapid Prototyping and Manufacturing by Gelcasting of Metallic and Ceramic Slurries,
Materials Science and Engineering
A334, 187-192, 2001