Chemistry Reference
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54. Huang D, Colucci DM, McKenna GB (2002) Dynamic fragility in polymers: a comparison in
isobaric and isochoric conditions. J Chem Phys 116:3925-3934
55. Beiner M, Huth H, Schroter K (2001) Crossover region of dynamic glass transition: general
trends and individual aspects. J Non-Cryst Solids 279:126-135
56. Roland CM, Santangelo PG, Ngai KL (1999) The application of the energy landscape model
to polymers. J Chem Phys 111:5593-5598
57. Nogales A, Denchev Z, Sics I, Ezquerra TA (2000) Influence of the crystalline structure in the
segmental mobility of semicrystalline polymers: poly(ethylene naphthalene-2,6-dicarboxyl-
ate). Macromolecules 33:9367-9375
58. Bravard SP, Boyd RH (2003) Dielectric relaxation in amorphous poly(ethylene terephthalate)
and poly(ethylene 2,6-naphthalene dicarboxylate) and their copolymers. Macromolecules
36:741-748
59. Struik LCE (1978) Physical aging in amorphous polymers and other materials. Elsevier, Am-
sterdam
60. Nemilov SV (2000) Physical ageing of silicate glasses at room temperature: general regulari-
ties as a basis for the theory and the possibility of a priori calculation of the ageing rate. Glass
Phys Chem 26:511-530
61. Nemilov SV (2001) Physical ageing of silicate glasses at room temperature: the choice of
quantitative characteristics of the process and the ranking of glasses by their tendency to age-
ing. Glass Phys Chem 27:214-227
62. Nemilov SV, Johari GP (2003) A mechanism for spontaneous relaxation of glass at room
temperature. Philos Mag 21:3117-3132
63. Tanaka Y, Yamamoto T (2012) Enthalpy relaxation of comb-like polymer analysed by com-
bining activation energy spectrum and TNM models. J Non-Cryst Solids 358:1687-1698
64. Petrie SEB (1972) Thermal behavior of annealed organic glasses. J Polym Sci Part A-2
10:1255-1272
65. Chen K, Vyazovkin S (2009) Isoconversional kinetics of glass aging. J Phys Chem B
113:4631-4635
66. Vyazovkin S, Dranca I (2007) Effect of physical aging on nucleation of amorphous indo-
methacin. J Phys Chem B 111:7283-7287
67. Donth E (2001) The glass transition: relaxation dynamics in liquids and disordered materials.
Springer, Berlin
68. Rault J (2003) Ageing of glass: role of the Vogel-Fulcher-Tamman law. J Phys Condens Mat-
ter 15: S1193-S1213
69. McKenna GB, Simon SL (2002) The glass transition- its measurement and underlying phys-
ics. In: Cheng SZD (ed) Handbook of thermal analysis and calorimetry, vol 3. Elsevier, Am-
sterdam, pp 49-109
70. Vyazovkin S, Chen K (2007) Increase in effective activation energy during physical aging of
a glass. Chem Phys Lett 448:203-207
71. Tombari E, Presto S, Salvetti G, Johari GP (2002) Spontaneous decrease in heat capacity of a
glass. J Chem Phys 117:8436-8441
72. Fukao K, Sakamoto A, Kubota Y, Saruyama Y (2005) Aging phenomena in poly(methyl
methacrylate) by dielectric spectroscopy and temperature modulated DSC. J Non-Cryst Sol-
ids 351:2678-2684
73. Faivre A, Niquet G, Maglione M, Fornazero J, Jal JF, David L (1999) Dynamics of sorbitol
and maltitol over a wide time temperature range. Eur Phys J B 10:277-286
74. Carpentier L, Descamps M (2003) Dynamic decoupling and molecular complexity of glass-
forming maltitol. J Phys Chem B 107:271-275
75. Cangialosi D, Wubbenhorst M, Schut H, van Veen A, Picken SJ (2004) Dynamics of polycar-
bonate far below the glass transition temperature: a positron annihilation lifetime study. Phys
Rev B 69:134206-1-134206-9
76. Hu L, Yue YZ (2008) Secondary relaxation behavior in a strong glass. J Phys Chem B
112:9053
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