Page 166 - Read Online

P. 166

Lee et al. Soft Sci 2024;4:38 https://dx.doi.org/10.20517/ss.2024.36 Page 27 of 31

Electron 2023;6:307-18. DOI
20. Cho H, Lee B, Jang D, Yoon J, Chung S, Hong Y. Recent progress in strain-engineered elastic platforms for stretchable thin-film
devices. Mater Horiz 2022;9:2053-75. DOI PubMed
21. Chen J, Wang J, Ji K, et al. Flexible, stretchable, and transparent InGaN/GaN multiple quantum wells/polyacrylamide hydrogel-based
light emitting diodes. Nano Res 2022;15:5492-9. DOI
22. Shankar U, Oberoi D, Bandyopadhyay A. A review on the alternative of indium tin oxide coated glass substrate in flexible and
bendable organic optoelectronic device. Polym Advan Technol 2022;33:3078-111. DOI
23. Chen J, Liu CT. Technology advances in flexible displays and substrates. IEEE Access 2013;1:150-8. DOI
24. Yoo J, Li S, Kim DH, Yang J, Choi MK. Materials and design strategies for stretchable electroluminescent devices. Nanoscale Horiz
2022;7:801-21. DOI PubMed
25. Baeg K, Lee J. Flexible electronic systems on plastic substrates and textiles for smart wearable technologies. Adv Mater Technol
2020;5:2000071. DOI
26. Jiao R, Wang R, Wang Y, et al. Vertical serpentine interconnect-enabled stretchable and curved electronics. Microsyst Nanoeng
2023;9:149. DOI PubMed PMC
27. Ye C, Stewart BG, Sitaraman SK. Stretchability of serpentine interconnect on polymer substrate for flexible electronics: a geometry
and material sensitivity analysis. In: 2020 IEEE 70th Electronic Components and Technology Conference (ECTC); 2020 Jun 03-30;
Orlando, USA. IEEE; 2020. pp. 1533-41. DOI
28. Li D, Cui T, Jian J, et al. Lantern-inspired on-skin helical interconnects for epidermal electronic sensors. Adv Funct Mater
2023;33:2213335. DOI
29. Yang Z, Zhai Z, Song Z, et al. Conductive and elastic 3D helical fibers for use in washable and wearable electronics. Adv Mater
2020;32:e1907495. DOI PubMed
30. Xu R, He Y, Li X, Lu M, Chen Y. Snap-fit mechanical metamaterials. Appl Mater Today 2023;30:101714. DOI
31. Pan F, Li Y, Li Z, Yang J, Liu B, Chen Y. 3D pixel mechanical metamaterials. Adv Mater 2019;31:e1900548. DOI PubMed
32. Meng K, Parry G, Hurier M, Ben Dahmane N, Coupeau C. Elastic-plastic buckling of gold thin films into straight-sided blisters. Surf
Coat Tech 2024;482:130642. DOI
33. Lee DW, Lee JH, Jin J. Innovative evolution of buckling structures for flexible electronics. Compos Struct 2018;204:487-99. DOI
34. Sarabia-Vallejos MA, Cerda-Iglesias FE, Pérez-Monje DA, et al. Smart polymer surfaces with complex wrinkled patterns: reversible,
non-planar, gradient, and hierarchical structures. Polymers 2023;15:612. DOI PubMed PMC
35. Jin H, Lu W, Cordill MJ, Schmidegg K. In situ study of cracking and buckling of chromium films on PET substrates. Exp Mech
2011;51:219-27. DOI
36. Chen S, Chen J, Zhang X, Li ZY, Li J. Kirigami/Origami: unfolding the new regime of advanced 3D microfabrication/
nanofabrication with “folding”. Light Sci Appl 2020;9:75. DOI PubMed PMC
37. Xu L, Shyu TC, Kotov NA. Origami and Kirigami nanocomposites. ACS Nano 2017;11:7587-99. DOI PubMed
38. Zhai Z, Wu L, Jiang H. Mechanical metamaterials based on Origami and Kirigami. Appl Phys Rev 2021;8:041319. DOI
39. Park J, Lim H, Yea J, et al. Kirigami-inspired gas sensors for strain-insensitive operation. Results Eng 2024;21:101805. DOI
40. Yoo PJ, Suh KY, Park SY, Lee HH. Physical self-assembly of microstructures by anisotropic buckling. Adv Mater 2002;14:1383-7.
DOI
41. Singh JP, Chu H, Abell J, Tripp RA, Zhao Y. Flexible and mechanical strain resistant large area SERS active substrates. Nanoscale
2012;4:3410-4. DOI PubMed
42. Bian J, Zhou L, Yang B, Yin Z, Huang Y. Theoretical and experimental studies of laser lift-off of nonwrinkled ultrathin polyimide
film for flexible electronics. Appl Surf Sci 2020;499:143910. DOI
43. Tao X, Zhang K, Stuart BW, Assender HE. Elastic (acrylate/polydimethylsiloxane) substrate-to-coating interlayers for improving the
mechanical resilience of thermoelectric films on poly(ethylene terephthalate) during roll-to-roll manufacture and in service operation.
Surf Coat Tech 2022;434:128167. DOI
44. Kwon D, Kim DM, Choi SM, et al. Effect of the orientation and bending stiffness of nanopatterned films on wrinkling. Macromol
Res 2018;26:374-9. DOI
45. Drack M, Graz I, Sekitani T, Someya T, Kaltenbrunner M, Bauer S. An imperceptible plastic electronic wrap. Adv Mater 2015;27:34-
40. DOI PubMed PMC
46. Ohara A, Okumura K. Bending of polymer films: a method for obtaining a compressive modulus of thin films. Soft Matter
2024;20:8589-600. DOI PubMed
47. Li YF, Chou SY, Huang P, et al. Stretchable organometal-halide-perovskite quantum-dot light-emitting diodes. Adv Mater
2019;31:e1807516. DOI PubMed
48. Kim MY, Kim HW, Oh C, Park SH, Kim BS. Stretchable oxide thin-film transistors with a mechanically and electrically reliable
wavy structure for skin electronics. ACS Appl Electron Mater 2024;6:435-46. DOI
49. Mishra S, Verma A. Variable density wrinkling in polymer thin film by gradient stress induced in the elastomeric substrate. Bull
Mater Sci 2024;47:3156. DOI
50. Zhang Q, Yin J. Spontaneous buckling-driven periodic delamination of thin films on soft substrates under large compression. J Mech
Phys Solids 2018;118:40-57. DOI
51. Zhao Y, Fang F. Bio-inspired hierarchical wrinkles for tunable infrared reflectance. Surf Interfaces 2024;45:103832. DOI

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