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Publications

[journal articles]  [patents]

Journal publications

(* Contributed equally)

56. Q. He*, S. Ferracin*, J. R. Raney, “Programmable metamaterials for mechanical computing and robotics,” Nature Computational Science 2024; (in press).
55. X. Zhu*, J. Liu*, Y. Hua, O. Tertuliano, J. R. Raney, “Improving damage tolerance and energy absorption via bamboo-inspired void patterns,” Bioinspiration & Biomimetics 2024; 19:056005.
54. A. B. M. T. Haque*, S. Ferracin*, J. R. Raney, “Reprogrammable mechanics via individually switchable bistable unit cells in a chiral metamaterial,” Advanced Materials Technologies 2024; 2400474.
53. Y. Liu, J. Liu, J. R. Raney, P. Wang, “Quantum computing for solid mechanics and structural engineering – a demonstration with variational quantum eigensolver,” Extreme Mechanics Letters 2024; 67:102117.
52. W. Jiao, H. Shu, V. Tournat, H. Yasuda, J. R. Raney, “Phase transitions in 2D multistable mechanical metamaterials via collisions of soliton-like pulses,” Nature Communications 2024; 15:333.
51. P. Jiao, J. Mueller, J. R. Raney, X. Zheng, A. H. Alavi, “Mechanical metamaterials and beyond,” Nature Communications 2023; 14:6004.
50. H. Yasuda*, H. Shu*, W. Jiao, V. Tournat, J. R. Raney, “Nucleation of transition waves via collisions of elastic vector solitons,” Applied Physics Letters 2023; 123(5):051701.
49. Q. He*, R. Yin*, Y. Hua, W. Jiao, C. Mo, H. Shu, J. R. Raney, “A modular strategy for distributed, embodied control of electronics-free soft robots,” Science Advances 2023; 9(27):eade9247.
48. B. Deng, H. Shu, J. Li, C. Mo, J. R. Raney, V. Tournat, K. Bertoldi, “Non-linear waves at the free surface of flexible mechanical metamaterials,” Applied Physics Letters 2023; 123(1):011703.
47. C. Mo, P. Perdikaris, J. R. Raney, “Accelerated design of architected materials with multi-fidelity Bayesian optimization,” Journal of Engineering Mechanics 2023; 149(6):04023032.
46. C. Mo, R. Yin, H. Long, J. R. Raney, “Effect of the fiber-matrix bond on the failure characteristics of glass fiber-polydimethylsiloxane composites,” Journal of Composite Materials 2023; 57(4):521-530.
45. Y. Wang, R. Yin, L. Jin, M. Liu, Y. Gao, J. R. Raney, S. Yang, “3D printed photoresponsive liquid crystal elastomer composites for free-form actuation,” Advanced Functional Materials 2023; 33(4):2210614.
44. C. Mo, R. Yin, J. R. Raney, “Direct ink writing of tough, stretchable silicone composites,” Soft Matter 2022; 18:7341-7347.
43. C. Mo, H. Long, J. R. Raney, “Tough, aorta-inspired soft composites,” Proceedings of the National Academy of Sciences 2022; 119(28):e2123497119.
42. H. Yasuda, K. Johnson, V. Arroyos, K. Yamaguchi, J. R. Raney, J. Yang, “Leaf-like origami with bistability for self-adaptive grasping motion,” Soft Robotics 2022; 9(5):938-947.
41. C. Mo, J. R. Raney, J. Bassani, “Finite deformation near a crack tip terminated at an interface between two neo-Hookean sheets,” J. Mech. Phys. Solids 2022; 158:104653.
40. H. Yasuda, E. G. Charalampidis, P. K. Purohit, P. G. Kevrekidis, J. R. Raney, “Wave manipulation using a bistable chain with reversible impurities,” Phys. Rev. E 2021; 104:054209.
39. Y. Miyazawa, H. Yasuda, H. Kim, J. H. Lynch, K. Tsujikawa, T. Kunimine, J. R. Raney, J. Yang, “Heterogeneous origami architected materials with variable stiffness,” Communications Materials 2021; 2:110.
38. H. Yasuda, P. R. Buskohl, A. Gillman, T. D. Murphey, S. Stepney, R. A. Vaia, J. R. Raney, “Mechanical computing,” Nature 2021; 598:39-48.
37. B. Deng, J. R. Raney, K. Bertoldi, V. Tournat, “Nonlinear waves in flexible elastic metamaterials,” Journal of Applied Physics 2021;130:040901.
36. L. M. Korpas*, R. Yin*, H. Yasuda, J. R. Raney, “Temperature-responsive multistable metamaterials,” ACS Applied Materials & Interfaces 2021;13(26):31163-31170.
35. C. X. Hong, M. Cioban, H. Yasuda, E. Meer, L. A. Arya, J. R. Raney, “Mechanical characterization of ring pessary folding,” Journal of Medical and Biological Engineering 2021;41:343.
34. B. Chem, Y. Jiang, C. Liu, J. R. Raney, C. Reina, “Dynamic behavior of soft, resonant metamaterials: experiments and simulations,” Journal of Applied Physics 2021;129:135104.
33. H. Yasuda, K. Yamaguchi, Y. Miyazawa, R. Wiebe, J. R. Raney, J. Yang, “Data-driven prediction and analysis of chaotic origami dynamics,” Communications Physics 2020;3:168.
32. H. Yasuda*, L. M. Korpas*, J. R. Raney, “Transition waves and formation of domain walls in multistable mechanical metamaterials,” Phys. Rev. Applied 2020;13:054067.
31. C. Mo, Y. Jiang, J. R. Raney, “Microstructural evolution and failure in short fiber soft composites: Experiments and modeling,” Journal of the Mechanics and Physics of Solids 2020;141:103973.
30. X. A. Zhang, Y. Jiang, R. B. Venkatesh, J. R. Raney, K. J. Stebe, S. Yang, D. Lee, “Scalable manufacturing of bending-induced surface wrinkles,” ACS Applied Materials & Interfaces 2020;12(6):7658-7664.
29. C. Mo, J. R. Raney, “Spatial programming of defect distributions to enhance material failure characteristics,” Extreme Mechanics Letters 2020;34:100598.
28. Y. Jiang, J. R. Raney, “3D printing of amylopectin-based natural fiber composites,” Adv. Mater. Technol. 2019;4:1900521.
27. B. Deng*, C. Mo*, V. Tournat, K. Bertoldi, J. R. Raney, “Focusing and mode separation of elastic vector solitons in a 2D soft mechanical metamaterial,” Phys. Rev. Lett. 2019;123:024101.
26. C. Mo*, J. Singh*, J. R. Raney, P. K. Purohit, “Cnoidal wave propagation in an elastic metamaterial,” Phys. Rev. E 2019;100:013001.
25. Y. Jiang, L. M. Korpas, J. R. Raney, “Bifurcation-based embodied logic and autonomous actuation,” Nature Communications 2019;10:128.
24. J. Mueller, J. R. Raney,  D. M. Kochmann, K. Shea, “Stiffness-independent toughening of beams through coaxial interfaces,” Advanced Science 2018;5:1800728.
23. J. Mueller, J. R. Raney, K. Shea, J. A. Lewis, “Architected lattices with high stiffness and toughness via multicore-shell 3D printing,” Advanced Materials 2018;30(12):1705001.
22. J. R. Raney*, B. G. Compton*, J. Mueller, T. J. Ober, K. Shea, J. A. Lewis, “Rotational 3d printing of damage-tolerant composites with programmable mechanics,” PNAS 2018;115(6):1198-1203.
21. A. D. Valentine, T. A. Busbee, J. W. Boley, J. R. Raney, A. Chortos, A. Kotikian, J. D. Berrigan, M. F. Durstock, J. A. Lewis, “Hybrid 3D Printing of Soft Electronics,” Advanced Materials 2017;29(40):1703817.
20. B. Deng, J. R. Raney, V. Tournat, K. Bertoldi, “Elastic vector solitons in soft architected materials,” Phys. Rev. Lett. 2017;118:204102.
19. S. Malek, J. R. Raney, J. A. Lewis, L. J. Gibson, “Lightweight 3D cellular composites inspired by balsa,” Bioinspiration & Biomimetics 2017;12(2):026014.
18. J. R. Raney, N. Nadkarni, C. Daraio, D. M. Kochmann, J. A. Lewis, K. Bertoldi, “Stable propagation of mechanical signals in soft media using stored elastic energy,” PNAS 2016;113(35):9722-9727.
17. R. Thevamaran, J. R. Raney, C. Daraio, “Rate-sensitive strain localization and impact response of vertically-aligned carbon nanotube foams with microscale heterogeneous bands,” Carbon 2016;101:184-190.
16. J. R. Raney, J. A. Lewis, “Printing mesoscale architectures,” MRS Bulletin 2015;40(11):943-50.
15. S. Shan*, S. H. Kang*, J. R. Raney*, P. Wang, F. Candido, J. A. Lewis, K. Bertoldi, “Multistable architected materials for trapping elastic strain energy,” Advanced Materials 2015;27(29):4296-4301.
(* Contributed equally)
14. A. Misra, P. Kumar, J. R. Raney, A. Singhal, L. Lattanzi, C. Daraio, “Effect of fluid medium on mechanical behavior of carbon nanotube foam,” Applied Physics Letters 2014;104:221910.
13. L. Lattanzi, L. De Nardo, J. R. Raney, C. Daraio, “Geometry-induced mechanical properties of carbon nanotube foams,” Advanced Engineering Materials 2014;16(8):1026-31.
12. S. Pathak, J. R. Raney, C. Daraio, “Effect of morphology on the strain recovery of vertically aligned carbon nanotube arrays: an in situ study,” Carbon 2013;63(1):303-16.
11. J. R. Raney, F. Fraternali, C. Daraio, “Rate-independent dissipation and loading direction effects in compressed carbon nanotube arrays,” Nanotechnology 2013;24:255707.
10. T. Blesgen, F. Fraternali, J. R. Raney, C. Daraio, “Multiscale mass-spring models of carbon nanotube arrays accounting for Mullins-like behavior and permanent deformation,” Multiscale Modeling and Simulation 2013;11(2):545-65.
9. F. Fraternali, J. R. Raney, C. Daraio, “Modeling microscale instabilities in compressed carbon nanotube bundles using multistable spring models,” Composite Structures 2013;96(1):745-50.
8. J. R. Raney, R. Y. Wang, C. Daraio, “Control of microstructural heterogeneities in carbon nanotube foams,” Carbon 2013;52(1):193-200.
7. T. Blesgen, F. Fraternali, J. R. Raney, A. Amendola, C. Daraio, “Continuum limits of bistable spring models of carbon nanotube arrays accounting for material damage,” Mechanics Research Communications 2012;45:58-63.
6. J. R. Raney, H.-L. Zhang, D. E. Morse, C. Daraio, “In situ synthesis of metal oxides in carbon nanotube arrays and mechanical properties of the resulting structures,” Carbon 2012;50(12):4432-40.
5. L. Lattanzi, J. R. Raney, L. De Nardo, A. Misra, C. Daraio, “Nonlinear viscoelasticity of freestanding and polymer-anchored vertically aligned carbon nanotube foams,” Journal of Applied Physics 2012;111:074314.
4. A. Misra, J. R. Raney, L. De Nardo, A. E. Craig, C. Daraio, “Synthesis and characterization of carbon nanotube-polymer multilayer structures,” ACS Nano 2011;5(10):7713-21.
3. A. Misra, J. R. Raney, A. E. Craig, C. Daraio, “Effect of density variation and non-covalent functionalization on the compressive behavior of carbon nanotube arrays,” Nanotechnology 2011;22:425705.
2. J. R. Raney, F. Fraternali, A. Amendola, C. Daraio, “Modeling and in situ identification of material parameters for layered structures based on carbon nanotube arrays,” Composite Structures 2011;93(11):3013-8.
1. J. R. Raney, A. Misra, C. Daraio, “Tailoring the microstructure and mechanical properties of arrays of aligned multiwall carbon nanotubes by utilizing different hydrogen concentrations during synthesis,” Carbon 2011;49(11):3631-8.

Patents

Issued:

7. “3D printed core-shell filament and method of 3D printing a core-shell filament,” J. A. Lewis, J. Mueller, J. R. Raney, K. Shea, US 11,207,831, issued 12/28/2021.
6. “Composite laminates incorporating vertically aligned carbon nanotubes for ballistic and low velocity impact protection,” J. E. Christoph, D. A. Jack, J. R. Raney, US 10,247,523 B2, issued 4/2/2019.
5. “Foam structure with nominally-aligned arrays of carbon nanotubes” A. Misra, C. Daraio, J. R. Raney, US 10,125,022, issued 11/13/2018.
4. “Multilayer foam structures of nominally-aligned carbon nanotubes (CNTs)” C. Daraio, A. Misra, J. R. Raney, US 9,616,635, issued 4/11/2017.
3. “Method for controlling microstructural arrangement of nominally-aligned arrays of carbon nanotubes” A. Misra, C. Daraio, J. R. Raney, US 9,505,615, issued 11/29/2016.
2. “Carbon nanotube foams with controllable mechanical properties,” J. R. Raney and C. Daraio, US 9,499,903, issued 11/22/2016.
1. “Carbon nanotube foams with controllable mechanical properties,” J. R. Raney and C. Daraio, US 9,045,343, issued 6/2/2015.

Pending:

5. “Embodied logic and actuation in soft, stimuli-responsive structures poised near bifurcation points,” J. R. Raney, L. M. Korpas, Y. Jiang patent application filed 4/3/2019.
4. “Core-shell nozzle for three-dimensional printing and method of use,” J. A. Lewis, J. Mueller, J. R. Raney, K. Shea, provisional patent filed (12/8/2016), 62/431,723.
3. “Architecture for Achieving Stable Wave Propagation Through a Soft Material,” J. R. Raney, N. Nadkarni, C. Daraio, D. M. Kochmann, J. A. Lewis, K. Bertoldi, PCT filed (10/25/2016).
2. “Shape Recoverable and Reusable Energy Absorbing Materials and Structures,” S. H. Kang, S. Shan, K. Bertoldi, J. R. Raney, J. A. Lewis, PCT filed (4/24/15).
1. “Three-dimensional (3d) printed composite structure and 3d printable composite ink formulation” B. G. Compton, J. A. Lewis, J. R. Raney, T. Ober, International Application No. PCT/US2015/15148 (filed 2/10/2015).

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