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·710· 精细化工 FINE CHEMICALS 第 38 卷

度的智能窗、室温变色的环保装饰材料、实时监测 [23] MINO N, TAMURA H, OGAWA K. Photoreactivity of 10,12-
人体体温及健康状况的可穿戴产品、大面积监测设 pentacosadiynoic acid monolayers and color transitions of the
polymerized monolayers on an aqueous subphase[J]. Langmuir, 1992,
备温度的二维可视化温度传感器等。 8(2): 594-598.
[24] CARPICK R W, SASAKI D Y, MARCUS M S, et al. Polydiacetylene
参考文献： films: A review of recent investigations into chromogenic transitions
and nanomechanical properties[J]. Journal of Physics: Condensed
[1] SEEBOTH A, LOTZSCH D, RUHMANN R, et al. Thermochromic
polymers-function by design[J]. Chemical Reviews, 2014, 114(5): Matter, 2004, 16(23): 679-697.
3037-3068. [25] KIM J M, LEE J S, CHOI H, et al. Rational design and in-situ FTIR
[2] HOUSTON E J. On the change of color produced in certain chemical analyses of colorimetrically reversible polydiacetylene supramolecules[J].
compounds by heat[J]. Chemical News, 1871, 24: 177-180. Macromolecules, 2005, 38(22): 9366-9376.
[3] DAY J H. Thermochromism[J]. Chemical Reviews, 1963, 63(1): 65-80. [26] KIM M J, ANGUPILLAI S, MIN K, et al. Tuning of the
[4] DAY J H. Thermochromism of inorganic compounds[J]. Chemical topochemical polymerization of diacetylenes based on an odd/even
Reviews, 1968, 68(6): 649-657. effect of the peripheral alkyl chain: Thermochromic reversibility in a
[5] WANG S F, LIU M S, KONG L B, et al. Recent progress in VO 2 thin film and a single-component ink for a fountain pen[J]. ACS
smart coatings: Strategies to improve the thermochromic properties[J]. Applied Materials & Interfaces, 2018, 10(29): 24767-24775.
Progress in Materials Science, 2016, 81: 1-54. [27] MERGU N, KIM H, HEO G, et al. Development of naphthalimide-
[6] WEN J T, ROPER J M, TSUTSUI H. Polydiacetylene supramolecules: functionalized thermochromic conjugated polydiacetylenes and their
Synthesis, characterization, and emerging applications[J]. Industrial reversible green-to-red chromatic transition in the solid state[J]. Dyes
& Engineering Chemistry Research, 2018, 57(28): 9037-9053. and Pigments, 2019, 164: 355-362.
[7] SUI R (孙蕊), YAO L (姚琳), HE J H (贺军辉), et al. Thermochromic [28] BALAKRISHNAN S, LEE S, KIM J M. Thermochromic reversibility of
smart coatings[J]. Progress in Chemistry (化学进展), 2019, 31(12): conjugated polymers derived from a diacetylenic lipid containing
1712-1728. lithium salt[J]. Journal of Materials Chemistry, 2010, 20(12): 2302-2304.
[8] SONG X L (宋晓丽), LI Z M (李字明), CHEN J W (陈靖文), et al. [29] YU L, HSU S L. A spectroscopic analysis of the role of side chains in
Smart applications of thermochromic materials for intelligent society: controlling thermochromic transitions in polydiacetylenes[J].
Latest development and future perspective[J]. Fine Chemicals (精细 Macromolecules, 2012, 45(1): 420-429.
化工), 2020, 37(3): 452-461. [30] WANG Q (王青), WANG G (王刚), HUANG X Y (黄霞芸), et al.
3+
[9] WANG K J, AMIN K, AN Z S, et al. Advanced functional polymer Fabrication of melamine/Tb -intercalated polydiacetylene nanosheets
materials[J]. Materials Chemistry Frontiers, 2020, 4(7): 1803-1915. and their thermochromic reversibility[J]. Chinese Journal of Chemical
[10] LÖTZSCH D, EBERHARDT V, RABE C. Chromogenic materials[M]. Physics (中国化学物理学报), 2020, 33(3): 357-365.
Weinheim: Wiley-VCH Verlag GmbH & Co. KGaA, 2016. [31] PHONCHAI N, KHANANTONG C, KIELAR F, et al. Low-
[11] PARK I S, PARK H J, KIM J M. A soluble, low-temperature temperature reversible thermochromic polydiacetylene/zinc(Ⅱ)/zinc
thermochromic and chemically reactive polydiacetylene[J]. ACS oxide nanocomposites for colorimetric sensing[J]. ACS Applied Nano
Applied Materials & Interfaces, 2013, 5(17): 8805-8812. Materials, 2019, 2(7): 4489-4498.
[12] MCCONNELL A J, WOOD C S, NEELAKANDAN P P, et al. [32] NOPWINYUWONG A, BOONSUPTHIP W, PECHYEN C, et al.
Stimuli-responsive metal-ligand assemblies[J]. Chemical Reviews, Formation of polydiacetylene/silica nanocomposite as a colorimetric
2015, 115(15): 7729-7793. indicator: Effect of time and temperature[J]. Advances in Polymer
[13] HERBERT K M, SCHRETTL S, ROWAN S J, et al. 50th Anniversary Technology, 2013, 32(S1): 724-731.
perspective: Solid-state multistimuli, multiresponsive polymeric [33] ZHANG Y N (张亚娜), WANG J L (王俊林), LI X M (李小妹), et al.
materials[J]. Macromolecules, 2017, 50(22): 8845-8870. Reversible thermochromic properties of polydiacetylene/α-FeOOH
[14] ZHANG F (张凤), GUAN P (管萍), HU X L (胡小玲). Color-changing nanocomposites[J]. Fine Chemicals (精细化工), 2019, 36(4): 609-615.
mechanism and application development of organic reversible [34] KAMPHAN A, KHANANTONG C, TRAIPHOL N, et al. Structural-
thermochromic materials[J]. Materials Reports (材料导报), 2012, thermochromic relationship of polydiacetylene (PDA)/polyvinylpyrrolidone
26(9): 76-80. (PVP) nanocomposites: Effects of PDA side chain length and PVP
[15] WANG S, GAO W, HU X Y, et al. Supramolecular strategy for smart molecular weight[J]. Journal of Industrial and Engineering Chemistry,
windows[J]. Chemical Communications, 2019, 55(29): 4137-4149. 2017, 46: 130-138.
[16] ZHOU Y, DONG X X, MI Y Y, et al. Hydrogel smart windows[J]. [35] HAN N, WOO H J, KIM S E, et al. Systemized organic functional
Journal of Materials Chemistry A, 2020, 8(20): 10007-10025. group controls in polydiacetylenes and their effects on color changes[J].
[17] INAN H, POYRAZ M, INCI F, et al. Photonic crystals: Emerging Journal of Applied Polymer Science, 2017, 134(30): 45011.
biosensors and their promise for point-of-care applications[J]. Chemical [36] MAPAZI O, MATABOLA P K, MOUTLOALI R M, et al. A
Society Reviews, 2017, 46(2): 366-388. urea-modified polydiacetylene-based high temperature reversible
[18] CHEN X F, SHEN Z H, WAN X H, et al. Mesogen-jacketed liquid thermochromic sensor: Characterisation and evaluation of properties
crystalline polymers[J]. Chemical Society Reviews, 2010, 39(8): as a function of temperature[J]. Sensors and Actuators B: Chemical,
3072-3101. 2017, 252: 671-679.
[19] QIAN X M, STÄDLER B. Recent developments in polydiacetylene- [37] YE Q, YOU X, ZOU G, et al. Morphology, structure and chromatic
based sensors[J]. Chemistry of Materials, 2019, 31(4): 1196-1222. properties of azobenzene-substituted polydiacetylene supramolelular
[20] LECLERC M. Optical and electrochemical transducers based on assemblies[J]. Journal of Materials Chemistry, 2008, 18(24): 2775-2780.
functionalized conjugated polymers[J]. Advanced Materials, 1999, [38] ZHANG L, YUAN Y Z, TIAN X H, et al. A thermally reversible
11(18): 1491-1498. supramolecular system based on biphenyl polydiacetylene[J]. Chinese
[21] WEGNER G. Topochemische reaktionen von monomeren mit konjugierten Chemical Letters, 2015, 26(9): 1133-1136.
dreifachbindungen/tochemical reactions of monomers with conjugated [39] NIU R, MENG X L, YANG D D, et al. Preparation of reversible
triple bonds[J]. Zeitschrift für Naturforschung B, 1969, 24(16): 824-832. thermochromism supramolecules of 4-aminophenol-modified
[22] JELINEK R, RITENBERG M. Polydiacetylenes-recent molecular polydiacetylene[J]. Arabian Journal for Science and Engineering,
advances and applications[J]. RSC Advances, 2013, 3(44): 21192-21201. 2015, 40(10): 2867-2872.

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