The evolution of semiconductor quantum structures. Do-it-yourself quantum mechanics, L. Esaki; Physics and engineering of heterojunction band lineups, G. Margaritondo, C. Coluzza, J.T. McKinley; Theoretical models on the formation of semiconductor interface barrier. F. Flores, J. Ortega, R. Perez; Semiconductor interfaces, A. Baldereschi, M. Peressi, S. Baroni, R. Resta; The strain release in mismatched semiconductor heterostructures, A.V. Drip; Optical investigation of interfaces, A. Stella; Optical properties of silicides, G. Guizzetti, A. Piaggi; Quantum size effect in low-dimensional semiconductors, R. Cingolani; Relaxation dynamics in GaAs/A1xGa1-xAs quantum well heterostructures, M. Colocci. M. Gurioli, A. Vinattieri; Excitons and polaritons in quantum wells, F. Bassani, E. Tassone, L.C. Andreani; Envelope function approach to electronic states in heterostructures, M. Alterelli; Ab initio calculation of phonon spectra in semiconductors - from pure crystals to alloys and superlattices, S. Baroni et al; Compositional disorder in A1GaAs superlattices - bond charge model calculations of vibrational features and optical spectra, L. Miglio, C. Molteni, L. Colombo; Interaction of light with "folded" acoustic waves in semiconductor superlattices, J. Sapriel; Photoreflectance study of GaAs/A1xGa1-xAs single quantum well and strained InxGa1-xAs/GaAs superlattices, Chen-Jia Chen et al; Wannier-Stark quantization in semiconductor superlattices - physics and applications, M. Voos; Thermal and thermo-electric transport properties of quantum point contacts, L.W. Molenkamp, H. van Houten, C.W.J. Beenakker, C.T. Foxon; Band structure engineering and its device applications, F. Capasso; The physics of nanofabrication, C.D.W. Wilkinson; Molecular-beam epitaxy of advanced structures based on III-V compounds, A. Bosacchi and S. Franchi; Problems in optical properties of semiconductors and their solutions, M. Cardona.