[1] BASSETT D C. Principles of polymer morphology[M]. Cambridge University Press, 1981. [2] HORⅡ F, KITAMARU R. Refined NMR analysis of the phase structure of solutioncrystallized linear polyethylene[J]. J Polym Sci Pol Phys, 1978, 16(2):265-270. [3] KITAMARU R, HORⅡ F, MURAYAMA K. Phase structure of lamellar crystalline polyethylene by solid-state high-resolution carbon-13 NMR detection of the crystalline-amorphous interphase[J]. Macromolecules, 1986, 19(3):636-643. [4] CHENG J, FONE M, REDDY V N, et al. Identification and quantitative analysis of the intermediate phase in a linear highdensity polyethylene[J]. J Polym Sci Pol Phys, 1994, 32(16):2683-2693. [5] HASHIMOTO T, SHIBAYAMA M, KAWAI H. Domain-boundary structure of styrene-isoprene block copolymer films cast from solution. 4. molecular-weight dependence of Lamellar microdomains[J]. Macromolecules, 1980, 13(5):1237-1247. [6] MCBRIERTY V J, DOUGLASS D C. Recent advances in the NMR of solid polymers[J]. J Polym Sci Macromol Rev, 1981, 16(1):295-366. [7] EDDY W. H, PER E K, PEDERSEN B. Crystallinity of polyethylene derived from solid-state proton NMR free induction decay[J]. J Phys Chem B, 1998, 102(28):5444-5450. [8] CHEN Y, YANG G, CHEN Q. Solid-state NMR study on the structure and mobility of the noncrystalline region of poly(3-hydroxybutyrate) and poly(3-hydroxybutyrate-co-3-hydroxyvalerate)[J]. Polymer, 2002, 43(7):2095-2099. [9] TANAKA H, NISHI T. Study of block copolymer interface by pulsed NMR[J]. J Chem Phys, 1985, 82(9):4326-4331. [10] ABRAGAM A, HEBEL L C. The principles of nuclear magnetism[M]. Clarendon Press, 1961:56-58. [11] LOOK D C, LOWE I J, NORTHBY J A. Nuclear magnetic resonance study of molecular motions in solid hydrogen sulfide[J]. J Chem Phys. 1966, 44(9):3441-3452. [12] ENGELSBERG M, LOWE I J. Free-inducation-decay measurements and determination of moments in CaF2[J]. Phys Rev B, 1974, 10(3):822-832. [13] KLÜVER W, RULAND W. NMR-studies of semicrystalline polymers using pulse techniques[M]. Steinkopff, 1978. [14] BERGMANN K, SCHMIEDBERGER H. A rapid method for the NMR-measurement of two-phase polymers[J]. Colloid Polym Sci, 1980, 258(1):24-26. [15] DADAYLI D, HARRIS R K, KENWRIGHT A M, et al. Solid-state 1H n.m.r. studies of polypropylene[J]. Polymer. 1994, 35(19):4083-4087. [16] KRISTIANSEN P E, HANSEN E W, PEDERSEN B. Phase distribution in polyethylene versus temperature probed by solid-state proton NMR free induction decay[J]. Polymer, 2000, 41(1):311-321. [17] PER E K, AND E W H, PEDERSEN B. Phase distribution during isothermal crystallization of polyethylene probed by solid-state proton NMR free induction decay[J]. J Phys Chem B, 1999, 103(18):3552-3558. [18] JAEGER C, HEMMANN F. EASY:a simple tool for simultaneously removing background, deadtime and acoustic ringing in quantitative NMR spectroscopy——part I:basic principle and applications[J]. Solid State Nucl Magn Reson, 2014, 57-58(1):22-28. [19] HUANG Z J, JIANG J, SHI L Y, et al. Dependences of confining size and interfacial curvature on the glass transition of polydimethylsiloxane in self-ssembled block copolymers[J]. Macromol Chem Phys, 2018, 219(3):1700518. [20] TENG C, XUE G. Unjamming transition and cold flow of polymer chains[J]. Acta Polym Sin, 2011, 11(9):1001-1006. [21] ZHU L L, WANG X L, GU Q, et al. Effects of residual surfactant on the glass transition behavior of polystyrene/gold nanocomposites[J]. Polymer, 2015, 77:14-20. [22] XIAO T, YAO Y F. Local and collective chain motions in semi-crystalline polyethylene-a solid-state NMR approach[J]. Chinese J Magn Reson, 2015, 32(2):208-227. [23] JIANG T T, FU X B, WU J Z, et al. Structure and dynamics in the polymer-ceramic interface of Li1.5Al0.5G1.5P3O12/polyether solid electrolyte:A solid state NMR study[J]. Chinese J Magn Reson, 2017, 34(4):429-438. 姜婷婷, 付晓彬, 吴金泽, 等. Li1.5Al0.5Ge1.5P3O12/高分子固体电解质表界面结构与分子运动的固体NMR研究[J]. 波谱学杂志, 2017, 34(4):429-438. [24] UEHARA H, KOMOTO T, YAMANOBE T. Relationship between solid-state molecular motion and morphology for ultrahigh molecular weight polyethylene crystallized under different conditions[J]. Macromolecules. 2000, 33(13):4861-4870. [25] RASTOGI S, YAO Y, RONCA S, et al. Unprecedented high-modulus high-strength tapes and films of ultrahigh molecular weight polyethylene via solvent-free route[J]. Macromolecules, 2011, 44(14):5558-5568. [26] YAO Y F, RASTOGI S, XUE H J, et al. Segmental mobility in the noncrystalline regions of nascent polyethylene synthesized using two different catalytic systems with implications on solid-state deformation[J]. Polymer, 2013, 54(1):411-422. |