[1] Fleck N A, Deshpande V S and Ashby M F 2010 Micro-architectured materials: past, present and future Proc. R. Soc. A 466 2495–516

[2] Lee J H, Singer J P and Thomas E L 2012 Micro-/nanostructured mechanical metamaterials Adv. Mater. 24 4782–810

[3] Schaedler T A and Carter W B 2016 Architected cellular materials Annu. Rev. Mater. Res. 46 187–210

[4] Rashed M G, Ashraf M, Mines R A W and Hazell P J 2016 Metallic microlattice materials: a current state of the art on manufacturing, mechanical properties and applications Mater. Des. 95 518–33

[5] Yu X L, Zhou J, Liang H Y, Jiang Z Y and Wu L L 2018 Mechanical metamaterials associated with stiffness, rigidity and compressibility: a brief review Prog. Mater. Sci. 94 114–73

[6] Surjadi J U, Gao L B, Du H F, Li X, Xiong X, Fang N X and Lu Y 2019 Mechanical metamaterials and their engineering applications Adv. Eng. Mater. 21 1800864

[7] Zhang X, Wang Y J, Ding B and Li X Y 2020 Design, fabrication, and mechanics of 3D micro-/nanolattices Small 16 1902842

[8] Schaedler T A, Jacobsen A J, Torrents A, Sorensen A E, Lian J, Greer J R, Valdevit L and Carter W B 2011 Ultralight metallic microlattices Science 334 962–5

[9] Zheng X Y et al 2014 Ultralight, ultrastiff mechanical metamaterials Science 344 1373–7

[10] Zheng X Y et al 2016 Multiscale metallic metamaterials Nat. Mater. 15 1100–6

[11] Meza L R, Das S and Greer J R 2014 Strong, lightweight, and recoverable three-dimensional ceramic nanolattices Science 345 1322–6

[12] Bauer J, Hengsbach S, Tesari I, Schwaiger R and Kraft O 2014 High-strength cellular ceramic composites with 3D microarchitecture Proc. Natl Acad. Sci. USA 111 2453–8

[13] Eckel Z C, Zhou C Y, Martin J H, Jacobsen A J, Carter W B and Schaedler T A 2016 Additive manufacturing of polymer-derived ceramics Science 351 58–62

[14] Vyatskikh A, Delalande S, Kudo A, Zhang X, Portela C M and Greer J R 2018 Nat. Commun. 9 593

[15] Jackson J A et al 2018 Field responsive mechanical metamaterials Sci. Adv. 4 eaau6419

[16] Bauer J, Schroer A, Schwaiger R and Kraft O 2016 Approaching theoretical strength in glassy carbon nanolattices Nat. Mater. 15 438–43

[17] Kudo A, Misseroni D, Wei Y C and Bosi F 2019 Compressive response of non-slender octet carbon microlattices Front. Mater. 6 169

[18] Zhou Y F, Yao C Z, Yang Q L, Guo L and Jiang L 2016 Mechanical properties of diamond-structured polymer microlattices coated with the silicon nitride film Adv. Eng. Mater. 18 236–40

[19] Mieszala M, Hasegawa M, Guillonneau G, Bauer J, Raghavan R, Frantz C, Kraft O, Mischler S, Michler J and Philippe L 2017 Micromechanics of amorphous metal/polymer hybrid structures with 3D cellular architectures: size effects, buckling behavior, and energy absorption capability Small 13 1602514

[20] Fan Q Q, Gao Y, Zhao Y G, Yang Q L, Guo L and Jiang L 2018 Fabrication of diamond-structured composite materials with Ni-P-diamond particles by electroless plating Mater. Lett. 215 242–5

[21] Song J, Gao L B, Cao K, Zhang H T, Xu S, Jiang C C, Surjadi J U, Xu Y M and Lu Y 2018 Metal-coated hybrid meso-lattice composites and their mechanical characterizations Compos. Struct. 203 750–63

[22] Surjadi J U, Gao L B, Cao K, Fan R and Lu Y 2018 Mechanical enhancement of core-shell microlattices through high-entropy alloy coating Sci. Rep. 8 5442

[23] Gao L B et al 2018 High-entropy alloy (HEA)-coated nanolattice structures and their mechanical properties Adv. Eng. Mater. 20 1700625

[24] Zhang X, Yao J H, Liu B, Yan J, Lu L, Li Y, Gao H J and Li X Y 2018 Three-dimensional high-entropy alloy–polymer composite nanolattices that overcome the strength–recoverability trade-off Nano Lett. 18 4247–56

[25] Zheng X Y, Deotte J, Alonso M P, Farquar G R, Weisgraber T H, Gemberling S, Lee H, Fang N and Spadaccini C M 2012 Rev. Sci. Instrum. 83 125001

[26] Ge Q, Li Z Q, Wang Z L, Kowsari K, Zhang W, He X N, Zhou J L and Fang N X 2020 Projection micro stereolithography based 3D printing and its applications Int. J. Extreme Manuf. 2 022004

[27] Deshpande V S, Fleck N A and Ashby M F 2001 Effective properties of the octet-truss lattice material J. Mech. Phys. Solids 49 1747–69

[28] O’Masta M R, Dong L, St-Pierre L, Wadley H N G and Deshpande V S 2017 The fracture toughness of octet-truss lattices J. Mech. Phys. Solids 98 271–89

[29] Karam G N and Gibson L J 1995 Elastic buckling of cylindrical shells with elastic cores—I. Analysis Int. J. Solids Struct. 32 1259–83

[30] Deshpande V S, Ashby M F and Fleck N A 2001 Foam topology: bending versus stretching dominated architectures Acta Mater. 49 1035–40

[31] Timoshenko S P and Gere J M 2009 Theory of Elastic Stability (North Chelmsford, MA: Courier Corporation)

[32] Gough G S, Elam C F, Tipper G H and De Bruyne N A 1940 The stabilisation of a thin sheet by a continuous supporting medium Aeronaut. J. 44 12–43

[33] Allen H G 1969 Analysis and Design of Structural Sandwich Panels (Amsterdam: Elsevier)

[34] Feng X B, Fu W, Zhang J Y, Zhao J T, Li J, Wu K, Liu G and Sun J 2017 Effects of nanotwins on the mechanical properties of AlxCoCrFeNi high entropy alloy thin films Scr. Mater. 139 71–76