Lopresto V. Crashworthiness design and evaluation of civil aircraft structures. Prog Aerosp Sci 2024; 148:101000.

Padfield GD , Lawrence B . The birth of the practical aeroplane: an appraisal of the Wright brothers’ achievements in 1905. Aeronaut J 2022; 109(1098):421-37.

Ahmad F , Al Awadh M , Noor S . Optimum alternate material selection methodology for an aircraft skin. Chin J Aeronauti 2023; 36(7):476-88.

Murugan S , Saavedra Flores EI , Adhikari S , Friswell MI . Optimal design of variable fiber spacing composites for morphing aircraft skins. Compos Struct 2012; 94(5):1626-33.

Le VT , Ha NS , Goo NS . Advanced sandwich structures for thermal protection systems in hypersonic vehicles: a review. Compos Part B Eng 2021; 226:109301.

Liu YY , Jing ZG , Liu Q , Li A , Teng CA , Cheung Y , et al. Differential—pressure fiber—optic airflow sensor for wind tunnel testing. Opt Express 2020; 28(17):25101-13.

Huang YA , Zhu C , Xiong WN , Wang Y , Jiang YG , Qiu L , et al. Flexible smart sensing skin for “Fly—by—Feel” morphing aircraft. Sci China Technol Sci 2021; 65(1):1-29.

Kwon H , Park Y , Kim JH , Kim CG . Embedded fiber Bragg grating sensor—based wing load monitoring system for composite aircraft. Struct Health Monit 2019; 18(4):1337-51.

Groo L , Inman DJ , Sodano HA . In Situ damage detection for fiber‐reinforced composites using integrated Zinc Oxide Nanowires. Adv Funct Mater 2018; 28(35):1802846.

Jiang S , Shen YP , Wang SL , Jiang W , Liu Y , Wu QZ . Flexible piezoelectric composite sensor for impact monitoring of curved structures. Sens Actuators A Phys 2023; 362:114655.

Zhu LQ , Sun GK , Bao WM , You Z , Meng FY , Dong ML . Structural deformation monitoring of flight vehicles based on optical fiber sensing technology: a review and future perspectives. Engineering 2022; 16:39-55.

Wang JX , Wei XY , Shi JL , Bai NN , Wan X , Li B , et al. High—resolution flexible iontronic skins for both negative and positive pressure measurement in room temperature wind tunnel applications. Nat Commun 2024; 15(1):7094.

Qiu L , Lin XD , Wang Y , Yuan SF , Shi WL . A mechatronic smart skin of flight vehicle structures for impact monitoring of light weight and low—power consumption. Mech Syst Signal Process 2020; 144:106829.

Ji JJ , Zhu JF , Niu BY , Lu J , Huang YA . Full—field deformation perception via flexible sensing film integrating modified inverse finite element method. IEEE Trans Instrum Meas 2024; 73:7503111.

Wang Y , Hu SG , Xiong T , Huang YA , Qiu L . Recent progress in aircraft smart skin for structural health monitoring. Struct Health Monit 2021; 21(5):2453-80.

Xiong WN , Zhu C , Guo DL , Hou C , Yang ZX , Xu ZY , et al. Bio—inspired, intelligent flexible sensing skin for multifunctional flying perception. Nano Energy 2021; 90(Part A):106550.

Tariq MR , Ahmad M , Naik M , Khan I , Zhang BL . A comprehensive review of the advancement of transition metal oxide nanocomposites for microwave absorption. Coord Chem Rev 2025; 533:216535.

Wang XY , Xing XF , Zhu HS , Li J , Liu T . State of the art and prospects of Fe₃O₄/carbon microwave absorbing composites from the dimension and structure perspective. Adv Colloid Interface Sci 2023; 318:102960.

Kim SH , Lee SY , Zhang YL , Park SJ , Gu JW . Carbon‐based radar absorbing materials toward stealth technologies. Adv Sci 2023; 10(32):2303104.

Tan X , Gu WH , Tao Z , Chen XL , Li SY , Xia AL , et al. Carbon—based materials for radar—infrared compatible stealth technology. Chem Eng J 2025; 507:160168.

Lu XK , Li X , Cao YC , Zhu WL , Wang YJ , Ren ZW , et al. 1D CNT—expanded 3D carbon foam/Si₃N₄ sandwich heterostructure: utilizing the polarization compensation effect for keeping stable electromagnetic absorption performance at elevated temperature. ACS Appl Mater Interfaces 2022; 14(34):39188—98.

Lu XK , Li X , Wang YJ , Hu W , Zhu WJ , Zhu DM , et al. Construction of ZnIn₂S₄ nanosheets/3D carbon heterostructure with Schottky contact for enhancing electromagnetic wave absorption performance. Chem Eng J 2022; 431(Part 2):134078.

Lu XK , Zhu DM , Li X , Li MH , Chen Q , Qing YC . Gelatin—derived N—doped hybrid carbon nanospheres with an adjustable porous structure for enhanced electromagnetic wave absorption. Adv Compos Hybrid Mater 2021;4(4):946-56.

Lu XK , Zhu DM , Li X , Wang YJ . Architectural design and interfacial engineering of CNTs@ZnIn₂S₄ heterostructure/cellulose aerogel for efficient electromagnetic wave absorption. Carbon 2022; 197:209-17.

Wu HJ , Liu JL , Liang HS , Zang DY . Sandwich—like Fe₃O₄/Fe₃S₄ composites for electromagnetic wave absorption. Chem Eng J 2020; 393:124743.

Lv HL , Yao YX , Li SC , Wu GL , Zhao B , Zhou XD , et al. Staggered circular nanoporous graphene converts electromagnetic waves into electricity. Nat Commun 2023; 14(1):1982.

Li QG , Zhang J , Liu LH , He C , Zhu WR . Graphene—based optically transparent metasurface for microwave and terahertz cross—band stealth utilizing multiple stealth strategies. Carbon 2024; 219:118833.

Li WC , Li CS , Lin LH , Wang Y , Zhang JS . All—dielectric radar absorbing array metamaterial based on silicon carbide/carbon foam material. J Alloys Compd 2019; 781:883—91.

Qin J , Shi YZ , Jiang SB , Gao YS , Yao SP , Wang ZS , et al. Ultrabroadband and >93% microwave absorption enabled by “doped” water meta‐atom lattice with subwavelength thickness. Adv Mater 2024; 36(52):2411153.

Chen QK , Zhao SJ , Han Y , Wang YC , Mei DQ , Li Q , et al. Adaptive Metaskins for active and passive thermal camouflage. Adv Mater 2026; 38(1):e06934.

Bo YW , Zhang Q , Bai PJ , Cui H , Liu LL , Wang GF , et al. Flexible active pixel—matrix ultrafast thermal camouflage using square—wave temperature. Joule 2024; 8(7):2160-9.

Li XL , Sheng XX , Fang Y , Hu XP , Gong S , Sheng MJ , et al. Wearable Janus‐Type film with integrated all‐season active/passive thermal management, thermal camouflage, and ultra‐high electromagnetic shielding efficiency tunable by origami process. Adv Funct Mater 2023; 33(18):2212776.

Yang N , Xu CY . An ultrathin polymer—derived UHTCs coating on CFRP substrate: Effective electromagnetic wave absorber. Compos Commun 2023; 43:101713.

Liu XM , Liu HQ , Wu HJ , Zhou Q , Liang HS , Liu GQ , et al. Structural electromagnetic absorber based on MoS₂/PyC‐Al₂O₃ ceramic metamaterials. Small 2023; 19(33):2300664.

Chen WF , Yan X . Progress in achieving high—performance piezoresistive and capacitive flexible pressure sensors: a review. J Mater Sci Technol 2020; 43:175-88.

Chen JW , Zhu YT , Huang JR , Zhang JX , Pan D , Zhou JY , et al. Advances in responsively conductive polymer composites and sensing applications. Polym Rev 2020; 61(1):157—93.

Ren JF , Huang X , Han RL , Sun YX , Chen GX , Li QF , et al. Ultrahigh‐resolution multimodal tactile sensors enabled by multi‐scale conductive network construction and band engineering for intelligent perception. Adv Funct Mater 2025; 35(52):e12937.

Zhan YF , Xia L , Yang H , Zhou N , Ma GS , Zhang T , et al. Tunable electromagnetic wave absorbing properties of carbon nanotubes/carbon fiber composites synthesized directly and rapidly via an innovative induction heating technique. Carbon 2021; 175:101-11.

Chang Y , Wang L , Li RY , Zhang ZC , Wang Q , Yang JL , et al. First decade of interfacial Iontronic sensing: from droplet sensors to artificial skins. Adv Mater 2021; 33(7):2003464.

Wu GC , Li X , Bao RR , Pan CF . Innovations in tactile sensing: microstructural designs for superior flexible sensor performance. Adv Funct Mater 2024; 34(44):2405722.

Tong W , Song B , Hao L , Xing R , Jun Y , Liu X , et al. Multiscale construction of wave—absorbing carbon nanomaterials. Discov Nano 2025; 20(1):107.

Han H , Lou ZC , Wang QY , Xu L , Li YJ . Introducing rich heterojunction surfaces to enhance the high—frequency electromagnetic attenuation response of flexible fiber—based wearable absorbers. Adv Fiber Mater 2024; 6(3):739-57.

Yang ZW , Wang JX , Wan X , Xu HC , Zhang CY , Lu XK , et al. Microbubble—based fabrication of resilient porous ionogels for high—sensitivity pressure sensors. Microsyst Nanoeng 2024; 10(1):177.

Sengupta D , Mastella M , Chicca E , Kottapalli AGP . Skin—inspired flexible and stretchable electrospun carbon nanofiber sensors for neuromorphic sensing. ACS Appl Electron Mater 2022; 4(1):308-15.

Lv HL , Yao YX , Yuan MY , Chen GY , Wang YC , Rao LJ , et al. Functional nanoporous graphene superlattice. Nat Commun 2024; 15(1):1295.

Khalid MY , Umer R , Zweiri YH , Kim JK . Rise of graphene in novel piezoresistive sensing applications: a review on recent development and prospect. Mater Sci Eng Rep 2025; 163:100891.

Xia YX , Gao WW , Gao C . A review on graphene‐based electromagnetic functional materials: electromagnetic wave shielding and absorption. Adv Funct Mater 2022; 32(42):2204591.

Chen QC , Xiong YK , Wang YZ , Wang JL , Zhou SH , Sun GH , et al. Architecturally partitioned core‐sheath woven fabric for integrated electromagnetic wave absorption and self‐powered non‐contact sensing. Adv Funct Mater 2025; 36(15):e18158.

Wei H , Li WH , Bachagha K . Component optimization and microstructure design of carbon nanotube—based microwave absorbing materials: a review. Carbon 2024; 217:118651.

Zhang T , Zhao DC , Wang LJ , Meng R , Zhao H , Zhou PY , et al. A facile precursor pyrolysis route to bio—carbon/ferrite porous architecture with enhanced electromagnetic wave absorption in S—band. J Alloys Compd 2020; 819:153269.

Bai Jl , Xie ZC , Zhang PF , Wang SC , Liu ZH , Yao XM et al. Porous SiCN_nw/C/Si₃N₄ ceramics with controlled component and structure for electromagnetic wave absorption. Compos Part B Eng 2025; 294:112164.

Zhao XQ , Zhang PL , Zhang S , Yu W , Wang ZY , Hu N , et al. Breathable, robust, and flexible hierarchical design of multifunctional integrated smart textiles for human health management. Chem Eng J 2025; 507:160736.

Lu H , Zhao JW , Zhu PX , Song WJ , Zhu SQ , Zhu RR , et al. Neural network‐assisted metasurface design for broadband remote invisibility. Adv Funct Mater 2025; 35(45):2506085.

Qian C , Zheng B , Shen YC , Jing L , Li EP , Shen L , et al. Deep—learning—enabled self—adaptive microwave cloak without human intervention. Nat Photonics 2020; 14(6):383—90.

Wu B , Qian C , Wang ZD , Lin PJ , Li EP , Chen HS . MetaSeeker: sketching an open invisible space with self—play reinforcement learning. Light Sci Appl 2025; 14(1):211.

Li SJ , Pan KC , Du J , Liu ZF , Qiu J . Coral‐inspired terahertz‐infrared Bi‐stealth electronic skin. Angew Chem Int Ed 2024; 63(26):e202406177.

Bajaj P , Kundu D , Singh D . Frequency selective surface—based electromagnetic absorbers: trends and perspectives. Wirel Pers Commun 2023; 131(3):1881-912.

Huang YH , Li YZ , Pan KW , Fang YX , Chan KC , Xiao XY , et al. A direct laser—synthesized magnetic metamaterial for low—frequency wideband passive microwave absorption. Int J Extreme Manuf 2023; 5(3):035503.

Deng KX , Wu HH , Song B , Li Y , Hao JH , Ji YX , et al. 3D—printed conical structure absorber based on NFG/Fe₃Si/SiCnw ternary composites for multifunctional integrated electromagnetic microwave absorption. Compos Part B Eng 2024; 274:111243.

Wang YR , Su RY , Chen JQ , Wang WQ , Zhang XQ , Xu H , et al. 3D printed bioinspired flexible absorber: toward high—performance electromagnetic absorption at 75—110 GHz. ACS Appl Mater Interfaces 2023; 15(46):53996-4005.

Kamat AM , Pei YT , Kottapalli AGP . Bioinspired cilia sensors with graphene sensing elements fabricated using 3D printing and casting. Nanomaterials 2019; 9(7):954.

Pratap A , Rajabi Kouchi F, Burgoyne H , Curtis M , Rektor A , Seol ML , et al. Direct writing of PVBVA/Ti₃C₂T_x (MXene) triboelectric nanogenerators for energy harvesting and sensing applications. Nano Energy 2025; 142(Part A):111206.

Li JQ , Li M , Chen ZF , Shao SS , Gu WB , Gu Y , et al. Large area roll—to—roll printed semiconducting carbon nanotube thin films for flexible carbon—based electronics. Nanoscale 2023; 15(11):5317-26.