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[37] Liu JY; Chen X; Sun BN; Guo HY; Guo YH; Zhang SY; Tao R*; Yang QS*; Tang JD*, Stretchable strain sensor of composite hydrogels with high fatigue resistance and low hysteresis, Journal of Materials Chemistry A, 2022, 10, 25564.

[36] Yang H#; Chen X#; Tang JD*; Vlassak JJ*, Fracture tolerance induced by dynamic bonds in polymers, Journal of the Mechanics and Physics of Solids, 2022, 169, 105083.

[35] Tang JD*; Chen X; Men LB; Wang ZJ*, Effect of fiber geometry on fracture and fatigue of composite hydrogels, Journal of Applied Mechanics-Transactions of the ASME, 2022, 89, 091006.

[34] Zhang LM; Jia K; Wang J; Zhao JY; Tang JD; Hu J, Stretchable and transparent ionogel-based heaters, Materials Horizons, 2022, 9, 1911.

[33] Tang JD*; Sun BN, Reprogrammable Shape Transformation of Magnetic Soft Robots Enabled by Magnetothermal Effect, Applied Physics Letters, 2022, 120, 02419.

[32] Yang H; Li CH; Tang JD*, Soft elastomer coatings for ionogels, Extreme Mechanics Letters, 2022, 54, 101761.

[31] Liu FK; Suo ZG*; Tang JD*, How Does a Glass Fabric Tear under Cyclic Force? Journal of the Mechanics and Physics of Solids, 2022, 158, 104659.

[30] Liu K#; Yang H#; Huang GB#; Shi AH; Lu Q; Wang SP; Qiao W; Wang HH; Ke MY; Ding HF; Li T; Zhang YC; Yu JW; Ren BY; Wang RF; Wang KL; Feng H; Suo ZG*; Tang JD*; Lv Y*, Adhesive anastomosis for organ transplantation, Bioactive Materials, 2022, 13, 206-268.

[29] Tang JD#; Sun BN#; Yin QF; Yang M; Hu J*; Wang TJ*, 3D Printable, Tough, Magnetic Hydrogels with Programmed Magnetization for Fast Actuation, Journal of Materials Chemistry B, 2021, 9, 9183-9190.

[28] Sun BN#; Jia R#; Yang H; Chen X; Tan K; Deng Q*; Tang JD*, Magnetic Arthropod Millirobots Fabricated by 3D-printed Hydrogels, Advanced Intelligent Systems, 2021, 2100139.

[27] Tang JD#; Zeng LS#; Liu ZS*, Fabrication of patterned magnetic hydrogels by ion transfer printing, Soft Matter, 2021, 17, 8059-8067. (Back cover).

[26] Tang JD#; Yin QF#; Shi MT; Yang M; Yang H; Sun BN; Guo BL; Wang TJ*, Programmable shape transformation of 3D printed magnetic hydrogel composite for hyperthermia cancer therapy, Extreme Mechanics Letters, 2021, 46, 101305.

[25] Yang H#; Ji MK#; Yang M; Shi MXZ; Pan YD; Zhou YF; Qi HJ; Suo ZG*;Tang JD*, Fabricating hydrogels to mimic biological tissues of complex shapes and high fatigue resistance, Matter, 2021, 4, 1935-1946.

[24] Lu TQ; Wang ZT; Tang JD; Zhang WL; Wang TJ*, A pseudo-elasticity theory to model the strain-softening behavior of tough hydrogels, Journal of the Mechanics and Physics of Solids, 2020, 137, 103832.

[23] Li CH#; Yang H#; Suo ZG*; Tang JD*, Fatigue-Resistant elastomers, Journal of the Mechanics and Physics of Solids, 2020, 134, 103751.

[22] Zhou YF; Zhang WL; Hu J; Tang JD; Jin CY; Suo ZG*; Lu TQ*, The Stiffness-Threshold Conflict in Polymer Networks and a Resolution, Journal of Applied Mechanics-Transactions of the ASME, 2020, 87, 031002.

[21] Sheng H#; Wang XM#; Kong N#; Wang X; Yang H; Wu XT; Wu KL; Li CH; Hu J; Tang JD; Zhou JX; Duan SM; Wang H*; Suo ZG*, Neural interfaces by hydrogels, Extreme Mechanics Letters, 2019, 30, 100510.

[20] Tang JD; Yin QF; Qiao YC; Wang TJ*, Shape Morphing of Hydrogels in Alternating Magnetic Field, ACS Applied Materials& Interfaces, 2019, 11, 21194−21200.

[19] Yang H; Li CH; Tang JD*; Suo ZG*, Strong and Degradable Adhesion of Hydrogels, ACS Applied Bio Materials, 2019, 2, 1781-1786.

[18] Yang H#; Li CH#; Yang M#; Pan YD; Yin QF; Tang JD*; Qi HJ; Suo ZG*, Printing Hydrogels and Elastomers in Arbitrary Sequence with Strong Adhesion, Advanced Functional Materials, 2019, 29, 1901721.

[17] Tang JD; Qiao YC; Chu YH; Tong ZF; Zhou YF; Zhang WL; Xie SJ; Hu J*; Wang TJ*, Magnetic double-network hydrogels for tissue hyperthermia and drug release. Journal of Materials Chemistry B, 2019, 7, 1311-1321.

[16] Zhang WL; Hu J; Tang JD; Wang ZT; Wang JK; Lu TQ*; Suo ZG*, Fracture Toughness and Fatigue Threshold of Tough Hydrogels. ACS Macro Letters, 2019, 8, 17-23.

[15] Wang ZT#; Tang JD#; Bai RB; Zhang WL; Lian TD; Lu TQ*; Wang TJ, A phenomenological model for shakedown of tough hydrogels under cyclic loads. Journal of Applied Mechanics-Transactions of the ASME. 2018, 85,091005.

[14] Le Floch, P; Shi MXZ; Tang JD; Liu JJ; Suo ZG*, Stretchable Seal. ACS Applied Materials& Interfaces, 2018, 10, 27333-27343.

[13] Chu YH*; Chen JK; Tang JD, SiC nanowire-induced fabrication of fine-grained and highly-density SiC coating by pressure-less reactive sintering. Journal of Alloys and Compounds, 2018, 755, 206-210.

[12] Tang JD; Li CH; Li HM; Lv ZY; Sheng H; Lu TQ; Wang TJ*, Phase-separation induced extraordinary toughening of magnetic hydrogels. Journal of Applied Physics. 2018, 123, 185105.

[11] Tang JD; Tong ZF; Xia YK; Liu M; Lv ZY; Gao Y; Lu TQ; Xie SJ; Pei YM*; Fang DN; Wang TJ*. Super tough magnetic hydrogels for remotely triggered shape morphing. Journal of Materials Chemistry B, 2018, 6, 2713-2722.

[10] Zhang WL; Liu X; Wang JK; Tang JD; Hu J; Lu TQ*; Suo ZG*, Fatigue of double-network hydrogels. Engineering Fracture Mechanics, 2018, 187, 74-93.

[9] Bai RB; Yang QS; Tang JD; Morelle XP; Vlassak J; Suo ZG*, Fatigue fracture of tough hydrogels. Extreme Mechanics Letters, 2017, 15, 91-96.

[8]Chen YF; Ai SG; Tang JD; Pei YM; Tang LQ*; Fang DN*, Characterizing the viscoelastic Properties of Hydrogel Thin Films by Bulge Test. Journal of Applied Mechanics-Transactions of the ASME, 2017, 84, 061005.

[7] Chu YH*; Chen PC; Tang JD; Rao PG, Engineer in situ growth of alpha-Al2O3 whiskers by axial screw dislocations. Crystal Growth & Design, 2017, 17, 1999-2005.

[6] Tang JD; Li JY; Vlassak JJ*; Suo ZG*, Fatigue fracture of hydrogels. Extreme Mechanics Letters. 2017, 10, 24-31.

[5] Pan B; Tang JD; Tarumi R; Shang FL; Wang YB; Zhang WJ; Zhang XY, Theoretical analysis on the nonlinear free vibration of a tri-cross string. Shock and Vibration, 2017, 3935686.

[4] Tang JD; Chen X; Pei YM*; Fang DN*, Pseudoelasticity and nonideal mullins effect of nanocomposite hydrogels. Journal of Applied Mechanics, 2016, 83, 111010-1.

[3] Tang JD; Li JY; Vlassak JJ*; Suo ZG*, Adhesion between highly stretchable materials. Soft Matter, 2016, 12, 1093-1099.

[2] Tang JD; Xu G; Sun YY; Pei YM*; Fang DN*, Dissipative properties and chain evolution of highly strained nanocomposite hydrogel. Journal of Applied Physics, 2014, 116, 244901.

[1] Tang JD; Yu ZJ; Sun YY; Pei YM*; Fang DN*, A bulge-induced dehydration failure mode of nanocomposite hydrogel. Applied Physics Letters, 2013, 103, 161903.