[1]    V.C. Nibali, C. Branca, U. Wanderlingh, and G. D’angelo. Intermolecular hydrogen-bond interactions in dppe and dmpc phospholipid membranes revealed by far-infrared spectroscopy. Applied Sciences (Switzerland), 11(21), 2021.

[2]    S. Marrara, R. Saija, U. Wanderlingh, and S. Vasi. Minecraft: A means for the teaching and the disclosure of physics. Nuovo Cimento della Societa Italiana di Fisica C, 44(4-5), 2021.

[3]    U. Wanderlingh, C. Branca, and S. Vasi. Portable low-cost autofluorescence analyzer for plankton and plastic detection. pages 168–172, 2021.

[4]    U. WANDERLINGH, C. BRANCA, V.C. NIBALI, and G. RUELLO. Mirage in a box: A classroom activity on the refractive index gradient. AAPP Atti della Accademia Peloritana dei Pericolanti, Classe di Scienze Fisiche, Matematiche e Naturali, 99, 2021.

[5]    C. Branca, V. Conti Nibali, K. Khouzami, U. Wanderlingh, and G. D’Angelo. Comparative study of pluronic-chitosan and pluronic-guar gum composite thermogels. International Journal of Polymer Analysis and Characterization, 26(2):179–188, 2021.

[6]    C. Branca, A. Arcovito, E. Cosio, M. Interdonato, G. Sabatino, U. Wanderlingh, and G. D’Angelo. Combining fourier transform infrared and raman spectroscopies with gaussian deconvolution: An improved approach for the characterization of emeralds. Journal of Raman Spectroscopy, 51(4):693–701, 2020.

[7]    V.C. Nibali, U. Wanderlingh, G. D’Angelo, C. Branca, A.D.E. Francesco, C. Petrillo, A. Paciaroni, and F. Sacchetti. Transverse thz dynamics of phospholipid membranes: A neutron scattering study. AAPP Atti della Accademia Peloritana dei Pericolanti, Classe di Scienze Fisiche, Matematiche e Naturali, 98, 2020.

[8]    G. D’Angelo, U. Wanderlingh, and C. Branca. Introducing “glasses and polymers: The science of disorder”. AAPP Atti della Accademia Peloritana dei Pericolanti, Classe di Scienze Fisiche, Matematiche e Naturali, 98:E1–E17, 2020.

[9]    D. Lombardo, P. Calandra, S. Magazù, U. Wanderlingh, D. Barreca, L. Pasqua, and M.A. Kiselev. Soft nanoparticles charge expression within lipid membranes: The case of amino terminated dendrimers in bilayers vesicles. Colloids and Surfaces B: Biointerfaces, 170:609–616, 2018.

[10]    G. D’Angelo, V.C. Nibali, U. Wanderlingh, C. Branca, A. De Francesco, F. Sacchetti, C. Petrillo, and A. Paciaroni. Multiple interacting collective modes and phonon gap in phospholipid membranes. Journal of Physical Chemistry Letters, 9(15):4367–4372, 2018.

[11]    C. Branca, K. Khouzami, U. Wanderlingh, and G. D’Angelo. Effect of intercalated chitosan/clay nanostructures on concentrated pluronic f127 solution: A ftir-atr, dsc and rheological study. Journal of Colloid and Interface Science, 517:221–229, 2018.

[12]    G. D’Angelo, V. Conti Nibali, C. Crupi, S. Rifici, U. Wanderlingh, A. Paciaroni, F. Sacchetti, and C. Branca. Probing intermolecular interactions in phospholipid bilayers by far-infrared spectroscopy. Journal of Physical Chemistry B, 121(6):1204–1210, 2017.

[13]    V.C. Nibali, K. Khouzami, U. Wanderlingh, C. Branca, and G. D’Angelo. Study of the interaction of water with phospholipid bilayers by ftir spectroscopy. AAPP Atti della Accademia Peloritana dei Pericolanti, Classe di Scienze Fisiche, Matematiche e Naturali, 95(2):A8–A812, 2017.

[14]    U. Wanderlingh, C. Branca, C. Crupi, V.C. Nibali, G. La Rosa, S. Rifici, J. Ollivier, and G. D’Angelo. Molecular dynamics of popc phospholipid bilayers through the gel to fluid phase transition: An incoherent quasi-elastic neutron scattering study. Journal of Chemistry, 2017, 2017.

[15]    D. Lombardo, P. Calandra, E. Bellocco, G. Laganà, D. Barreca, S. Magazù, U. Wanderlingh, and M.A. Kiselev. Effect of anionic and cationic polyamidoamine (pamam) dendrimers on a model lipid membrane. Biochimica et Biophysica Acta – Biomembranes, 1858(11):2769–2777, 2016.

[16]    C. Branca, G. D’Angelo, C. Crupi, K. Khouzami, S. Rifici, G. Ruello, and U. Wanderlingh. Role of the oh and nh vibrational groups in polysaccharide-nanocomposite interactions: A ftir-atr study on chitosan and chitosan/clay films. Polymer, 99:614–622, 2016.

[17]    G. D’Angelo, C. Branca, G. Carini, G. Ceccio, C. Crupi, S. Rifici, G. Ruello, U. Wanderlingh, and L. Torrisi. Structural investigation and laser plasma diagnostics of borate glasses containing silver nanoparticles. Journal of Instrumentation, 11(5), 2016.

[18]    S. Rifici, G. D’Angelo, C. Crupi, C. Branca, V. Conti Nibali, C. Corsaro, and U. Wanderlingh. Influence of alcohols on the lateral diffusion in phospholipid membranes. Journal of Physical Chemistry B, 120(7):1285–1290, 2016.

[19]    C. Branca, U. Wanderlingh, G. D’Angelo, C. Crupi, and S. Rifici. Study of the dynamical behavior of sodium alginate/myoglobin aqueous solutions: A dynamic light scattering study. Journal of Molecular Liquids, 209:294–300, 2015.

[20]    C. Branca, C. Crupi, G. D’Angelo, K. Khouzami, S. Rifici, A. Visco, and U. Wanderlingh. Effect of montmorillonite on the rheological properties of dually crosslinked guar gum-based hydrogels. Journal of Applied Polymer Science, 132(5), 2015.

[21]     S. Rifici, C. Corsaro, C. Crupi, V.C. Nibali, C. Branca, G. D’Angelo, and U. Wanderlingh. Lipid diffusion in alcoholic environment. Journal of Physical Chemistry B, 118(31):9349–9355, 2014.

[22]    U. Wanderlingh, G. D’Angelo, C. Branca, V. Conti Nibali, A. Trimarchi, S. Rifici, D. Finocchiaro, C. Crupi, J. Ollivier, and H.D. Middendorf. Multi-component modeling of quasielastic neutron scattering from phospholipid membranes. Journal of Chemical Physics, 140(17), 2014.

[23]    C. Crupi, G. Di Marco, L. Torrisi, C. Branca, G. Carini, U. Wanderlingh, and G. D’Angelo. Uv-vis-nir spectral optical properties of silver iodide borate glasses. volume 508, 2014.

[24]    M.C. Abramo, C. Caccamo, M. Cavero, D. Costa, G. Pellicane, R. Ruberto, and U. Wanderlingh. Effective protein-protein interaction from structure factor data of a lysozyme solution. Journal of Chemical Physics, 139(5), 2013.

[25]    C. Branca, L. Auditore, D. Loria, M. Trimarchi, and U. Wanderlingh. Radiation synthesis and characterization of poly(ethylene oxide)/chitosan hydrogels. Journal of Applied Polymer Science, 127(1):217–223, 2013.

[26]    S. Rifici, U. Wanderlingh, G. D’angelo, C. Crupi, A. Trimarchi, and V. Conti Nibali. Effects of medium-chain alcohols on the structure of phospholipid bilayers. volume 176, pages 373–380, 2012.

[27]    M.C. Abramo, C. Caccamo, D. Costa, G. Pellicane, R. Ruberto, and U. Wanderlingh. Effective interactions in lysozyme aqueous solutions: A small-angle neutron scattering and computer simulation study. Journal of Chemical Physics, 136(3), 2012.

[28]    M.C. Abramo, C. Caccamo, M. Calvo, V. Conti Nibali, D. Costa, R. Giordano, G. Pellicane, R. Ruberto, and U. Wanderlingh. Molecular dynamics and small-angle neutron scattering of lysozyme aqueous solutions. Philosophical Magazine, 91(13-15):2066–2076, 2011.

[29]    C. Crupi, G. D’Angelo, U. Wanderlingh, and C. Vasi. Raman spectroscopic and low-temperature calorimetric investigation of the low-energy vibrational dynamics of hen egg-white lysozyme. Philosophical Magazine, 91(13-15):1956–1965, 2011.

[30]    S. Rifici, C. Crupi, G. D’Angelo, G. Di Marco, G. Sabatino, V. Conti Nibali, A. Trimarchi, and U. Wanderlingh. Effects of a short length alcohol on the dimyristoylphosphatidylcholine system. Philosophical Magazine, 91(13-15):2014–2020, 2011.

[31]    U. Wanderlingh, G. D’Angelo, V. Conti Nibali, C. Crupi, S. Rifici, C. Corsaro, and G. Sabatino. Interaction of alcohol with phospholipid membrane: Nmr and xrd investigations on dppc-hexanol system. Spectroscopy, 24(3-4):375–380, 2010.

[32]    C. Crupi, G. D’Angelo, U. Wanderlingh, V. Conti Nibali, and C. Vasi. Low frequency dynamics of lysozyme: A raman scattering and low temperature specific heat study. Spectroscopy, 24(3-4):201–205, 2010.

[33]    U.N. Wanderlingh, F. Albergamo, R.L. Hayward, and H.D. Middendorf. Neutron scattering from model peptides and small oligopeptides at high energy transfers. Nuclear Instruments and Methods in Physics Research, Section A: Accelerators, Spectrometers, Detectors and Associated Equipment, 600(1):285–287, 2009.

[34]    G. D’angelo, U. Wanderlingh, V.C. Nibali, C. Crupi, C. Corsaro, and G. Di Marco. Physical study of dynamics in fully hydrated phospholipid bilayers. Philosophical Magazine, 88(33-35):4033–4046, 2008.

[35]    M.T.F. Telling, C. Corsaro, U.N. Wanderlingh, and H.D. Middendorf. Low-temperature dynamics of hydrated peptides. Chemical Physics, 345(2-3):245–249, 2008.

[36]    D. Majolino, C. Corsaro, V. Crupi, V. Venuti, and U. Wanderlingh. Water diffusion in nanoporous glass: An nmr study at different hydration levels. Journal of Physical Chemistry B, 112(13):3927–3930, 2008.

[37]    U. Wanderlingh, G. D’Angelo, V.C. Nibali, M. Gonzalez, C. Crupi, and C. Mondelli. Influence of gramicidin on the dynamics of dmpc studied by incoherent elastic neutron scattering. Journal of Physics Condensed Matter, 20(10), 2008.

[38]    R. Giordano, J. Teixeira, M. Triscari, and U. Wanderlingh. Porosimetric and particle-size measurements by small-angle neutron scattering. European Journal of Mineralogy, 19(2):223–228, 2007.

[39]    F. Mallamace, M. Broccio, C. Corsaro, A. Faraone, U. Wanderlingh, L. Liu, C.-Y. Mou, and S.H. Chen. The fragile-to-strong dynamic crossover transition in confined water: Nuclear magnetic resonance results. Journal of Chemical Physics, 124(16), 2006.

[40]    C. Corsaro, V. Crupi, D. Majolino, S.F. Parker, V. Venuti, and U. Wanderlingh. Inelastic neutron scattering study of water in hydrated lta-type zeolites. Journal of Physical Chemistry A, 110(3):1190–1195, 2006.

[41]    C. Corsaro, V. Crupi, D. Majolino, P. Migliardo, V. Venuti, U. Wanderlingh, T. Mizota, and M. Telling. Diffusive dynamics of water in ion-exchanged zeolites. Molecular Physics, 104(4):587–598, 2006.

[42]    C. Corsaro, V. Crupi, F. Longo, D. Majolino, V. Venuti, and U. Wanderlingh. Mobility of water in linde type a synthetic zeolites: An inelastic neutron scattering study. Journal of Physics Condensed Matter, 17(50):7925–7934, 2005.

[43]    C. Corsaro, V. Crupi, F. Longo, D. Majolino, V. Venuti, and U. Wanderlingh. Elastic neutron scattering study of water dynamics in ion-exchanged type- a zeolites. Physical Review E – Statistical, Nonlinear, and Soft Matter Physics, 72(6), 2005.

[44]    V. Crupi, D. Majolino, P. Migliardo, V. Venuti, U. Wanderlingh, T. Mizota, and M. Telling. Neutron scattering study and dynamic properties of hydrogen-bonded liquids in mesoscopic confinement. 2. the zeolitic water case. Journal of Physical Chemistry B, 108(14):4314–4323, 2004.

[45]    C. Branca, C. Corsaro, F. Frusteri, V. Magazù, A. Mangione, F. Migliardo, and U. Wanderlingh. Structural and vibrational properties of carbon nanotubes by tem and infrared spectroscopy. Diamond and Related Materials, 13(4-8):1249–1253, 2004.

[46]    V. Crupi, D. Majolino, P. Migliardo, V. Venuti, and U. Wanderlingh. A ft-ir absorption analysis of vibrational properties of water encaged in naa zeolites: Evidence of a ”structure maker” role of zeolitic surface. European Physical Journal E, 12(SUPPL. 1):47–50, 2003.

[47]    U.N. Wanderlingh, C. Corsaro, R.L. Hayward, M. Béec, and H.D. Middendorf. Proton mobilities in crambin and glutathione s-transferase. Chemical Physics, 292(2-3):445–450, 2003.

[48]     U.N. Wanderlingh, F. Albergamo, R.L. Hayward, and H.D. Middendorf. Biophysical applications of neutron compton scattering. Applied Physics A: Materials Science and Processing, 74(SUPPL.II):S1283–S1286, 2002.

[49]    C. Branca, S. Magazu, F. Migliardo, G. Romeo, V. Villari, U. Wanderlingh, and D. Colognesi. Neutron-scattering study of the vibrational behavior of trehalose aqueous solutions. Applied Physics A: Materials Science and Processing, 74(SUPPL.I):S452–S453, 2002.

[50]    H.D. Middendorf, U.N. Wanderlingh, R.L. Hayward, and F. Albergamo. Neutron compton scattering from aligned collagen fibres. Physica A: Statistical Mechanics and its Applications, 304(1-2):266–270, 2002.

[51]    U.N. Wanderlingh, R. Giordano, A.J. Dianoux, and F. Wanderlingh. Iqens dynamics in hydrated crambin. Physica A: Statistical Mechanics and its Applications, 304(1-2):276–282, 2002.

[52]    A. Faraone, S. Magazù, R.E. Lechner, S. Longeville, G. Maisano, D. Majolino, P. Migliardo, and U. Wanderlingh. Quasielastic neutron scattering from trehalose aqueous solutions. Journal of Chemical Physics, 115(7):3281–3286, 2001.

[53]    S. Magazu, C. Branca, F. Migliardo, P. Migliardo, E. Vorobieva, and U. Wanderlingh. Qens study of trehalose/water/acrylamide-acrylic acid. Physica B: Condensed Matter, 301(1-2):134–137, 2001.

[54]    U.N. Wanderlingh, R. Giordano, M.T. Sciortino, and A.J. Dianoux. Protein and solvent dynamics in hydrated crambin. volume 10, pages Pr7–325–Pr7–328, 2000.

[55]    U.N. Wanderlingh, R. Giordano, M.T. Sciortino, and A.J. Dianoux. Dynamics of proteins, iqens study on d2o hydrate crambin. Physica B: Condensed Matter, 276-278:522–523, 2000.

[56]    S. Magazù, R.E. Lechner, S. Longeville, G. Maisano, D. Majolino, P. Migliardo, and U. Wanderlingh. Diffusive dynamics in trehalose aqueous solutions by qens. Physica B: Condensed Matter, 276-278:475–476, 2000.

[57]    H.D. Middendorf, R.L. Hayward, U.N. Wanderlingh, A.C. Evans, E.B. Starikov, and A. Rupprecht. Neutron compton scattering from dna. Nuovo Cimento della Societa Italiana di Fisica D – Condensed Matter, Atomic, Molecular and Chemical Physics, Biophysics, 20(12 SUPPL.):2215–2220, 1999.

[58]    V. Crupi, D. Majolino, P. Migliardo, and U. Wanderlingh. Hydration water in macromolecules of biological interest: An incoherent quasi elastic neutron scattering. Journal of Molecular Structure, 480-481:141–145, 1999.

[59]     M. Broccio, F. Della Rovere, A. Granata, U. Wanderlingh, A. Zirilli, A. Tanzariello, G. Pirrone, and G. Broccio. Free radical erythrocyte damage in tumoral disease assessed by he-ne laser and optical microscope through ’heinz bodies’ method. Anticancer Research, 18(2 A):1075–1078, 1998.

[60]    U. Wanderlingh, R. Giordano, and W.W. Kagunya. Dynamics of hydration water in lysozyme. Physica B: Condensed Matter, 234-236:210–212, 1997.

[61]    S. Magazu, M.P. Jannelli, P. Migliardo, and U. Wanderlingh. Chain length dependence and h-bond effects on diffusive processes of alcohols by iqens, dls and nmr. Physica B: Condensed Matter, 234-236:355–356, 1997.

[62]    V. Crupi, S. Magazu, D. Majolino, P. Migliardo, and U. Wanderlingh. Selective study of the diffusive dynamics of hydration water in polymeric aqueous solutions. Physica B: Condensed Matter, 234-236:256–257, 1997.

[63]    U.N. Wanderlingh, A.L. Fielding, and H.D. Middendorf. Neutron compton scattering from selectively deuterated acetanilide. Physica B: Condensed Matter, 241-243:1169–1171, 1997.

[64]    U.N. Wanderlingh, R. Giordano, and W.W. Kagunya. Iqens from hydrated lysozyme. Physica B: Condensed Matter, 241-243:1172–1174, 1997.

[65]    V. Crupi, S. Magazu, D. Majolino, P. Migliardo, U. Wanderlingh, and W.W. Kagunya. Incoherent quasi-elastic neutron scattering in water-peg solutions. Physica B: Condensed Matter, 241-243:979–981, 1997.

[66]    E. Bardez, R. Giordano, M.P. Jannelli, P. Migliardo, and U. Wanderlingh. Hydrogen-bond effects induced by alcohol on the structure and dynamics of ionic reverse micelles. Journal of Molecular Structure, 383(1-3):183–190, 1996.

[67]    R. Giordano, S. Magazú, G. Maisano, D. Majolino, P. Migliardo, C. Vasi, and U. Wanderlingh. Diffusive motion and h-bond effects on liquid poly(ethylene oxide) and on its aqueous solutions. Physica B: Physics of Condensed Matter, 213-214(C):515–517, 1995.

[68]    R. Giordano, P. Migliardo, U. Wanderlingh, and E. Bardez. Growth processes in ionic microemulsions by sans. Physica B: Physics of Condensed Matter, 213-214(C):585–587, 1995.

[69]    R. Giordano, J. Teixeira, and U. Wanderlingh. Dynamics of water on protein surfaces. Physica B: Physics of Condensed Matter, 213-214(C):769–771, 1995.

[70]    S. Magazu, G. Maisano, D. Majolino, P. Migliardo, C. Vasi, and U. Wanderlingh. Iqens diffusive behaviour and hydrogen bond effects on polymer-water systems. Physica Scripta, 1995(T57):175–178, 1995.

[71]    R.L. Hayward, H.D. Middendorf, U. Wanderlingh, and J.C. Smith. Dynamics of crystalline acetanilide: Analysis using neutron scattering and computer simulation. The Journal of Chemical Physics, 102(13):5525–5541, 1995.

[72]    U. Wanderlingh, R. Giordano, and G. Giunta. Structure in protein solution changing the ph. Il Nuovo Cimento D, 16(9):1493–1498, 1994.

[73]    U. Wanderlingh, R. Giordano, and J. Teixeira. Quasi-elastic neutron scattering of hydrated myoglobin. Journal of Molecular Structure, 296(3):271–274, 1993.

[74]    R. Giordano, P. Migliardo, U. Wanderlingh, E. Bardez, and C. Vasi. Structural properties of micellar solutions. Journal of Molecular Structure, 296(3):265–269, 1993.

[75]    R. Giordano, F. Wanderlingh, U. Wanderlingh, and J. Teixeira. Influence of ph and temperature on the structure in macromolecular solutions. a preliminary sans study on lysozyme. volume 3, pages 237–240, 1993.

[76]    R. Giordano, A. Grasso, J. Teixeira, and U. Wanderlingh. Sans on lysozyme and lactoglobulin solutions. Physica B: Physics of Condensed Matter, 180-181(PART 2):762–764, 1992.

[77]    R. Giordano, A. Grasso, J. Teixeira, F. Wanderlingh, and U. Wanderlingh. Small-angle neutron scattering in lysozyme solutions. Physical Review A, 43(12):6894–6899, 1991.

[78]    R. Giordano, G. Salvato, F. Wanderlingh, and U. Wanderlingh. Quasielastic and inelastic neutron scattering in macromolecular solutions. Physical Review A, 41(2):689–696, 1990.

[79]    F. Farsaci, M.E. Fontanella, G. Salvato, F. Wanderlingh, R. Giordano, and U. Wanderlingh. Dynamical behaviour of structured macromolecular solutions. Physics and Chemistry of Liquids, 20(4):205–220, 1989.