[1] Giorgio F. Signorini, Pier Francesco Fracassi, Roberto Righini, and Raffaele Guido Della Valle. Energy decay mechanisms and anharmonic lattice dynamics: the case of solid nitrogen. Chem. Phys., 100:315–329, 1985. URL http://srv.chim.unifi.it/u/signo/papers/Signorini-1985-ChemPhys-anharm_N2.pdf.
[2] Gianni Cardini, Giorgio F. Signorini, Pier R. Salvi, and Roberto Righini. Molecular dynamics and head-tail disorder in the Raman Spectrum of crystalline N2O. Chem. Phys. Letters, 142:570–574, 1987. URL http://srv.chim.unifi.it/u/signo/papers/Cardini-1987-CPL-disordered_N2O.pdf.
[3] Giorgio F. Signorini, J.L. Barrat, and M.L. Klein. Structural relaxation and dynamical correlations in a molten salt near the liquid-glass transition: a molecular dynamics study. J. Chem. Phys., 92:1294–1303, 1990. URL http://srv.chim.unifi.it/u/signo/papers/Signorini-1990-JChemPhys_92_1294-glass.pdf.
[4] Giorgio F. Signorini, Roberto Righini, and Vincenzo Schettino. Lattice dynamics of the orthorhombic phase of KClO4: Ewald’s method in molecular coordinates. Chem. Phys., 154:245–261, 1991. URL http://srv.chim.unifi.it/u/signo/papers/Signorini-1991-ChemPhys-Ewald_KClO4.pdf.
[5] Piero Procacci, Giorgio F. Signorini, and R.G. Della Valle. Efficient calculation of high-order self-energy corrections to phonon linewidths: application to α-Nitrogen. Phys.Rev.B,, 47:11124–11133, 1993. URL http://srv.chim.unifi.it/u/signo/papers/Procacci-1993-PhysRevB-high_order_self_energy.pdf.
[6] Claudia Taiti, Paolo Foggi, Giorgio F. Signorini, and Vincenzo Schettino. Vibrational relaxation of a MnO4- impurity mode in KClO4 crystal. Chem.Phys.Lett., 212:283–288, 1993. doi: 10.1016/0009-2614(93)89327-E. URL http://srv.chim.unifi.it/u/signo/papers/Taiti-1993-CPL-MnO4.pdf.
[7] Claudia Taiti, Paolo Foggi, Giorgio F. Signorini, and Vincenzo Schettino. Linewidth temperature dependence of the ν1 mode of MnO4- ion doped in KClO4 crystal. In Emilio Castellucci, Roberto Righini, and Paolo Foggi, editors, Coherent Raman Spectroscopy. World Scientific, 1993.
[8] M. Jordan, A. Schuch, Roberto Righini, Giorgio F. Signorini, and Hans J. Jodl. Phonon relaxation processes in NaNO3 at high pressure and low temperature. J.Chem.Phys., 101:3436–3443, 1994. URL http://srv.chim.unifi.it/u/signo/papers/Jordan-1994-JChemPhys_101_3436-phonon_NaNO3_highp_lowT.pdf.
[9] Giorgio F. Signorini, Maurizio Becucci, and Emilio Castellucci. Raman linewidths in ferroelectric NaNO2. Chemical Physics, 187:263–273, 1994. ISSN 0301-0104. doi: 10.1016/0301-0104(94)89009-9. URL http://srv.chim.unifi.it/u/signo/papers/Signorini-1994-ChemPhys-NaNO2.pdf.
[10] M.Semling, M.Jordan, K.Syassen, Hans J. Jodl, and Giorgio F. Signorini. Luminescence spectra of matrix isolated N2 at high pressure and low temperature. J. Chem. Phys., 106:1336–1345, 1997. URL http://srv.chim.unifi.it/u/signo/papers/Semling-1997-JChemPhys_-luminescence_N2_matrix.pdf.
[11] Raffaele Guido Della Valle, Giorgio F. Signorini, and Piero Procacci. Vibrational density of states and homogeneous linewidth in molecular crystals: many-phonon processes in nitrogen. Phys. Rev. B, 55:14855–14864, 1997. URL http://srv.chim.unifi.it/u/signo/papers/DellaValle-1997-PhysRevB-many_phonon_proc_in_N2.pdf.
[12] Giorgio F. Signorini, Claudia Taiti, and Barbara Caldarone. Anharmonic linewidth calculation in 1,4-dibromobenzene and disordered 1,4-bromochlorobenzene. Mol. Cryst. Liq. Cryst., 307:189, 1997. URL http://srv.chim.unifi.it/u/signo/papers/Signorini-1997-MCLC-DBB_BCB.pdf.
[13] Angela Zoppi, Giorgio F. Signorini, Luca Bachechi, and Franco Lucarelli. Characterization of painting materials from eritrea rock art sites with non-destructive spectroscopic techniques. Journal of Cultural Heritage, 3:299–308, 2002. URL http://srv.chim.unifi.it/u/signo/papers/Zoppi-2002-JCH-Eritrea.pdf.
[14] Giorgio F. Signorini, Riccardo Chelli, Piero Procacci, and Vincenzo Schettino. Energetic fitness of histidine protonation states in PDB structures. Journal of Physical Chemistry B, 108:12252–12257, 2004. URL http://srv.chim.unifi.it/u/signo/papers/Signorini-2004-JPC-histidine.pdf.
[15] P. Procacci, S. Marsili, A. Barducci, Giorgio F. Signorini, and R. Chelli. Crooks equation for steered molecular dynamics using a Nosé-Hoover thermostat. J. Chem. Phys., 125:164101, 2006. URL http://srv.chim.unifi.it/u/signo/papers/Procacci-2006-JChemPhys_125_164101-Crooks.pdf.
[16] S. Marsili, Giorgio F. Signorini, R. Chelli, M. Marchi, and P. Procacci. Orac: A molecular dynamics simulation program to explore free energy surfaces in biomolecular systems at the atomistic level. J. Comput. Chem., 31:1106–1116, 2010. ISSN 0192-8651. doi: 10.1002/jcc.21388. URL http://srv.chim.unifi.it/u/signo/papers/Marsili-2010-JCC-ORAC.pdf.
[17] R. Chelli and Giorgio F. Signorini. Serial generalized ensemble simulations of biomolecules with self-consistent determination of weights. Journal of Chemical Theory and Computation, 8(3):830–842, 2012. doi: 10.1021/ct2008457. URL http://srv.chim.unifi.it/u/signo/papers/Chelli-2012-JCTC-SGE.pdf.
[18] R. Chelli and Giorgio F. Signorini. Erratum: Serial generalized ensemble simulations of biomolecules with self-consistent determination of weights. Journal of Chemical Theory and Computation, 8(7):2552–2552, 2012. doi: 10.1021/ct300445j. URL http://srv.chim.unifi.it/u/signo/papers/Chelli-2012-JCTC-SGE_erratum.pdf.
[19] Carlo Guardiani, Giorgio F. Signorini, Roberto Livi, Anna Maria Papini, and Piero Procacci. Conformational landscape of n-glycosylated peptides detecting autoantibodies in multiple sclerosis, revealed by hamiltonian replica exchange. The Journal of Physical Chemistry B, 116(18):5458–5467, 2012. doi: 10.1021/jp301442n. URL http://srv.chim.unifi.it/u/signo/papers/Guardiani-2012-JPCB-glycopeptide.pdf.
[20] Giorgio F. Signorini, Edoardo Giovannelli, Yannick G. Spill, Michael Nilges, and Riccardo Chelli. Convective replica-exchange in ergodic regimes. Journal of Chemical Theory and Computation, 10(3):953–958, 2014. doi: 10.1021/ct401033g. URL http://srv.chim.unifi.it/u/signo/papers/Signorini-2014-JCTC-convective_RE.pdf.
[21] Giorgio F. Signorini. Open source ad sustainability: the role of university. In Leal Filho W. and Bardi U., editors, Sustainability in University Campuses: learning, skills building and best practice. Springer, Cham, Switzerland, 2019. doi: 10.1007/978-3-030-15864-4_27. URL http://www.chim.unifi.it/u/signo/OpenSource/SYMPO-2018/symp2.pdf.
[22] Giorgio F. Signorini. Open Source and Sustainability: the Role of Universities. arXiv e-prints, art. arXiv:1910.06073, Oct 2019. URL https://arxiv.org/abs/1910.06073.