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�D1 Schematic illustration of photo-thermal dual-curing and crosslinked networks of silicone elastomers.

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�D2 (a) G'' and G'''' during in situ rheological test; (b) real-time infrared spectra (FTIR) of TE�CIN samples

  ͨ�^׃�ؼt�⣨VT-IR�����ӑB��Cе������DMA���������ɳ��О���C�ˏ����w�����ĄӑB�����ԣ��D3����ͨ�^�����w���x���I�ĄӑB���x���ؽM���Ɍ��ЙC�菗���w�Ĕ�������Ч�ޏ����ޏ�Ч�ʿ��_97%���ϣ��Ҷ���ޏͺ����ޏ�Ч���Կ��_92%���ϣ��D4���D5�����������Ƃ���p��“�ЙC�菗���w���Ѓ����Ļ������������պ����w���쏊�ȿɻ֏�90%��������λ��պ����쏊���Կɻ֏�85% ���ϡ����պ����w�Ծ��Ѓ��������ޏ����ܣ�����ޏͺ��ޏ�Ч���Կ��_90%���ϣ��D6����

�D3 VT-IR spectra of TE�CIN10, (a) peak shift as heated from 40 to 120 ��C by 10 ��C/min, (b) peak shift during cooled from 120 to 40 ��C by 10 ��C/min. Variation of storage modulus E�� under various temperatures as a function of time, (c) IN samples, (d) TE�CIN10 samples. Normalized stress-relaxation curves, (g) TE�CIN10 samples under different temperatures and (h) elastomers containing various ionic bonds at 60 ��C, (c) Linear fitting of relaxation time (��) versus temperature according to the Arrhenius'' equation, (d) Stress relaxation activation energy (Ea) of samples with various ionic bonds.

�D4 Illustration of self-healing mechanism.

�D5 (a) Repeated macro-repairing of damaged TE�CIN10 samples. Stress-strain curves of virgin and self-healed silicone elastomers, (b) epeatedly healed TE�CIN10 samples, (c) TE�CIN10, TE�CIN20 and TE�CIN30 samples healed at 100 ��C for 12 h.

�D6 Photographs for the reprocessing of TE�CIN10 samples. (b-c) Stress-strain curves of virgin and reprocessed silicone elastomers, (b) repeatedly reprocessed TE�CIN10 samples from 80 meshes, (c) self-healing properties of repeated reprocessed TE�CIN10 samples.

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�D7 Transmittance of (a) silicone elastomers containing various ionic bonds, (b) TE�CIN10 samples with different healing times, (c) stress-strain curves and (d) storage modulus E'' and tan �� of TE�CIN10 samples after hydro-thermally treated.

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�D8 (a) Schematic of SLA-based 3D printing. (b) 3D printed various geometries from TE�CIN10 formula with different pigments, ��GDUT�� with 1.0 wt% RP�C355, ��Toothed Gears�� in turn with 0.05 wt% BP�C825, 0.05 wt% RP�C355, and 1.0 wt.% BP�C825, ��Ascendant�� with 0.05 wt% RP�C355. (c) Photographs of self-healing 3D printed ��Ascendant��. (d) Stress-strain curves of repeatedly self-healed 3D printed samples after 100 ��C for 12 h.

  ��ˣ�ͨ�^����-ϩ���ٹ�ۺϼ�������x�ӽ�“�Ĺ⡪���p��“��ʽ���ɹ����Ƃ������͸���ȼ���ˮ�����ܵ����ޏͿɻ���3D��ӡ�ЙC�菗���w�����L�r�g��ӡ���ď��s�Y���ď����w���ܼ�������Ҫ���x�����ܭh�������Lʹ�É��������ͳɱ�������ڿ���ӑB�x�Ӿ����T���Ŀ��ٹ̻����ޏ��ЙC������ṩһ�N���еķ�����

  Փ��朽ӣ�https://doi.org/10.1016/j.cej.2020.124142

  ���������n�}�M�����з����߷��ӹ⻯�W����������-ϩ���c�����W��3D��ӡ�����w��3D��ӡ���ޏͲ��ϺͶ๦�ܹ����l�������P�ɹ��l���ڡ�Progress in Polymer Science������Journal of Materials Chemistry C����Polymer Chemistry����Langmuir������Journal of Photochemistry & Photobiology A: Chemistry������ChemPhotoChem����Angewandte Chemie International Edition, Chemistry - ChemPhotoChem���͡�Progress in Organic Coatings����ԓ�I��TOP���H�����ڿ��ϡ�

Yan Yang, Zushan Ye, Xiaoxuan Liu*, Jiahui Su*. A Healable Waterborne Polyurethane Synergistically Cross-Linked by Hydrogen Bonds and Covalent Bonds for Composite Conductor. Journal of Materials Chemistry C, 2020, DOI: 10.1039/D0TC00551G

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Yang Y, Zhang T, Liu X*. et al. Preparation and photochromic behavior of spiropyran-containing fluorinated polyacrylate hydrophobic coatings. Langmuir, 2018, 4 (51): 15812-15819

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Xiang, H.; Yin, J.; Lin, G.; Liu, X*. et al., Photo-crosslinkable, self-healable and reprocessable rubbers. Chemical. Engineering Journal. 2019, 358, 878-890.

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https://doi.org/10.1016/j.porgcoat. 2019.105372