Flexible thermochromic fabrics enabling dynamic colored display

Pan Li; Zhihui Sun; Rui Wang; Yuchen Gong; Yingting Zhou; Yuwei Wang; Xiaojuan Liu; Xianjun Zhou; Ju Ouyang; Mingzhi Chen; Chong Hou; Min Chen; Guangming Tao

doi:10.1007/s12200-022-00042-3

[1] Koo, J.H., Kim, D.C., Shim, H.J., Kim, T.H., Kim, D.H.: Flexible and stretchable smart display: materials, fabrication, device design, and system integration. Adv. Funct. Mater. 28(35), 1801834 (2018)

[2] Chen, M., Jiang, Y., Guizani, N., Zhou, J., Tao, G., Yin, J., Hwang, K.: Living with I-Fabric: smart living powered by intelligent fabric and deep analytics. IEEE Netw. 34(5), 156–163 (2020)

[3] Shi, X., Zuo, Y., Zhai, P., Shen, J., Yang, Y., Gao, Z., Liao, M., Wu, J., Wang, J., Xu, X., Tong, Q., Zhang, B., Wang, B., Sun, X., Zhang, L., Pei, Q., Jin, D., Chen, P., Peng, H.: Large-area display textiles integrated with functional systems. Nature 591(7849), 240–245 (2021)

[4] Chen, M., Zhou, J., Tao, G., Yang, J., Hu, L.: Wearable affective robot. IEEE Access 6, 64766–64776 (2018)

[5] Yang, J., Zhou, J., Tao, G., Alrashoud, M., Mutib, K.N., Al-Hammadi, M.: Wearable 3.0: from smart clothing to wearable affective robot. IEEE Netw. 33(6), 8–14 (2019)

[6] Li, S., Liu, D., Tian, N., Liang, Y., Gao, C., Wang, S., Zhang, Y.: High-performance temperature sensor based on silver nanowires. Mater. Today Commun. 20, 100546 (2019)

[7] Geng, X., Li, W., Wang, Y., Lu, J., Wang, J., Wang, N., Li, J., Zhang, X.: Reversible thermochromic microencapsulated phase change materials for thermal energy storage application in thermal protective clothing. Appl. Energy 217, 281–294 (2018)

[8] Zhang, W., Ji, X., Zeng, C., Chen, K., Yin, Y., Wang, C.: A new approach for the preparation of durable and reversible color changing polyester fabrics using thermochromic leuco dye-loaded silica nanocapsules. J. Mater. Chem. C 5(32), 32 (2017)

[9] Isapour, G., Lattuada, M.: Bioinspired stimuli-responsive colorchanging systems. Adv. Mater. 30(19), e1707069 (2018)

[10] Gong, X., Hou, C., Zhang, Q., Li, Y., Wang, H.: Thermochromic hydrogel-functionalized textiles for synchronous visual monitoring of on-demand in vitro drug release. ACS Appl. Mater. Interfaces 12(46), 51225–51235 (2020)

[11] Chen, Y., Xi, Y., Ke, Y., Li, W., Long, Y., Li, J., Wang, L.N., Zhang, X.: A skin-like stretchable colorimetric temperature sensor. Sci. China Mater. 61(7), 969–976 (2018)

[12] Wang, Y., Ren, J., Ye, C., Pei, Y., Ling, S.: Thermochromic silks for temperature management and dynamic textile displays. Nano-Micro. Lett. 13(1), 72 (2021)

[13] Chen, H.J., Huang, L.H.: An investigation of the design potential of thermochromic home textiles used with electric heating techniques. Math. Probl. Eng. 2015, 151573 (2015)

[14] Yetisen, A.K., Qu, H., Manbachi, A., Butt, H., Dokmeci, M.R., Hinestroza, J.P., Skorobogatiy, M., Khademhosseini, A., Yun, S.H.: Nanotechnology in textiles. ACS Nano 10(3), 3042–3068 (2016)

[15] Wu, J., Hu, R., Zeng, S., Xi, W., Huang, S., Deng, J., Tao, G.: Flexible and robust biomaterial microstructured colored textiles for personal thermoregulation. ACS Appl. Mater. Interfaces 12(16), 19015–19022 (2020)

[16] Ji, H., Liu, D., Cheng, H., Zhang, C., Yang, L., Ren, D.: Infrared thermochromic properties of monoclinic VO2 nanopowders using a malic acid-assisted hydrothermal method for adaptive camouflage. RSC Adv. 7(9), 5189–5194 (2017)

[17] Kim, H., Seo, M., Kim, J., Kwon, D., Choi, S., Kim, J.W., Myoung, J.: Highly stretchable and wearable thermotherapy pad with micropatterned thermochromic display based on Ag nanowire–single-walled carbon nanotube composite. Adv. Funct. Mater. 29(24), 1901061 (2019)

[18] Liu, R., He, L., Cao, M., Sun, Z., Zhu, R., Li, Y.: Flexible temperature sensors. Front. Chem. 9, 539678 (2021)

[19] Lee, G., Bae, G.Y., Son, J.H., Lee, S., Kim, S.W., Kim, D., Lee, S.G., Cho, K.: User-interactive thermotherapeutic electronic skin based on stretchable thermochromic strain sensor. Adv. Sci. (Weinh) 7(17), 2001184 (2020)

[20] Eslahi, N., Fatemi, T., Varsei, M., Bazgir, S.: Electrospinning of smart thermochromic nanofibers as sensors. Sci. Iran. 27(6), 6 (2020)

[21] He, Y., Li, W., Han, N., Wang, J., Zhang, X.: Facile flexible reversible thermochromic membranes based on micro/nanoencapsulated phase change materials for wearable temperature sensor. Appl. Energy 247, 615–629 (2019)

[22] Zou, X., Ji, H., Zhao, Y., Lu, M., Tao, J., Tang, P., Liu, B., Yu, X., Mao, Y.: Research progress of photo-/electro-driven thermochromic smart windows. Nanomaterials (Basel) 11(12), 3335 (2021)

[23] Yan, W., Dong, C., Xiang, Y., Jiang, S., Leber, A., Loke, G., Xu, W., Hou, C., Zhou, S., Chen, M., Hu, R., Shum, P.P., Wei, L., Jia, X., Sorin, F., Tao, X., Tao, G.: Thermally drawn advanced functional fibers: new frontier of flexible electronics. Mater. Today 35, 168–194 (2020)

[24] Barkaoui, S., Mankai, M., Miloud, N.B., Kraiem, M., Madureira, J., Verde, S.C., Boudhrioua, N.: E-beam irradiation of strawberries: investigation of microbiological, physicochemical, sensory acceptance properties and bioactive content. Innov. Food Sci. Emerg. 73, 102769 (2021)

[25] Inami, T., Tanimoto, Y., Minami, N., Yamaguchi, M., Kasai, K.: Color stability of laboratory glass-fiber-reinforced plastics for esthetic orthodontic wires. Korean J. Orthod. 45(3), 130–135 (2015)