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79. On Stress: Combining Human Factors and Biosignals to Inform the Placement and Design of a Skin-like Stress Sensor
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78. Spiral NeuroString: high-density soft bioelectronic fibers for multimodal sensing and stimulation
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77. Shape anisotropy-governed high-performance nanomagnetosol for in vivo magnetic particle imaging of lungs
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76. Technology roadmap for flexible sensors
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2022
75. A low-power stretchable neuromorphic nerve with proprioceptive feedback
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74. A tissue-like neurochemical sensor for brain and gut
J. Li, Y. Liu, L. Yuan, B. Zhang, E. S. Bishop, K. Wang, J. Tang, Y.-Q. Zheng, W. Xu, S.Niu, L.Beker, T. L. Li, G. Chen, M. Diyaolu, A-L Thomas, V. Mottini, J. B.-H. Tok, J. C. Y.Dunn, B. Cui, S. P. Pasca, Y. Cui, A. Habtezion, X. Chen, Z. Bao.
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73. Soft sensor tracks the neurochemical messengers dopamine and serotonin
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72. Anisotropic swimming and reorientation in liquid-crystalline polymers
Z. Lin, Z. Yu, J. Li, T. Gao.
Journal of Fluid Mechanics, 946, A30, 2022.
71. Biomedical applications of multifunctional magnetoelectric nanoparticles
E. H. Apu, M. Nafiujjaman, S. Sandeep, A. Makela, A. Khaleghi, S. Vainio, C. Contag, J. Li, B. Balasingham, T. Kim, N. Ashammakhi.
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69. Monolithic optical microlithography of high-density elastic circuits
Y.-Q. Zheng, Y. Liu, D. Zhong, S. Nikzad, S. Liu, Z.-A. Yu, D. Liu, H.-C. Wu, C. Zhu, J. Li, H. Tran, J. B.-H. Tok, Z. Bao.
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68. Magneto-acoustic hybrid nanorobots
S. Sanchez, J. Li.
Book Chapter of “Field-driven micro and nanorobots for biology and medicine”
Editors: Y. Sun, X. Wang, J. Yu.
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67. Soft capsule magnetic millirobots for region-specific drug delivery in the central nervous system
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Frontiers in Robotics and AI 8, 702566, 2021.
66. Design considerations of a wearable electronic-skin for mental health and wellness: balancing biosignals and human factors
Y. Khan, M. L Mauriello, P. Nowruzi, A. Motani, G. Hon, N. Vitale, J. Li, J. Kim, A. Foudeh, D. Duvio, E. Shols, M. Chesnut, J. Landay, J. Liphardt, L. Williams, K, D Sudheimer, B. Murmann, Z. Bao, P. E Paredes.
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65. Biodegradable implantable sensors: materials design, fabrication, and applications
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64. Ultra-compliant and tough thermochromic polymer for self-regulated smart windows
Q. Zhang, Y. Jiang, L. Chen, W. Chen, J. Li, Y. Cai, C. Ma, W. Xu, Y. Lu, X. Jia, Z. Bao.
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63. Electronic skins and machine learning for intelligent soft robots
B. Shih, D. Shah, J. Li, T.G. Thuruthel, Y.-L. Park, F. Iida, Z. Bao, R. Kramer-Bottiglio, M. T. Tolley.
Science Robotics 5, 41, eaaz9239, 2020.
62. Morphing electronics enable neuromodulation in growing tissue
Y. Liu, J. Li , S. Song , J. Kang, Y. Tsao, S. Chen, W. Xu, Y.-Q. Zheng, J. B.-H. Tok, P. M. George, Z. Bao.
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61. Intrinsically stretchable electrode array enabled in vivo electrophysiological mapping of atrial fibrillation at cellular resolution
J. Liu, X. Zhang, Y. Liu, M. Rodrigo, P.D. Loftus, J. Aparicio-Valenzuela, J. Zheng, T. Pong, K.J. Cyr, M. Babakhanian, J. Hasi, J. Li, Y. Jiang, C.J. Kenney, P.J. Wang, A.M. Lee, Z. Bao.
PNAS 117 (26), 14769-14778, 2020.
60. Small‐scale propellers deliver miniature versions of themselves
E. Karshalev, J. Yan, I. Campos, E. Sandraz, J. Li, J. Wang.
Small 16, 2000453, 2020.
59. Effective removal of inorganic and organic heavy metal pollutants with poly(amino acid)-based micromotors
T. Hou, S. Yu, M. Zhou, M. Wu, J. Liu, X. Zheng, J. Li, J. Wang, X. Wang.
Nanoscale 12, 5227–5232, 2020.
2019
58. A wireless body area sensor network based on stretchable passive tags
S. Niu, N. Matsuhisa, L. Beker, J. Li, S. Wang, J. Wang, Y. Jiang, X. Yan, Y. Yun, W. Burnett, A. S.Y. Poon, J. B.-H. Tok, X. Chen, Z. Bao.
Nature Electronics 2, 361–368, 2019.
57. Quantifying inactive lithium in lithium metal batteries
C. Fang, J. Li, Y. Zhang, J.Z. Lee, Y. Yang, F. Yang, J. Alvarado, M.A. Schroeder, L. Yang, M. Cai, J. Gu, K. Xu, X. Wang, Y.S. Meng.
Nature 572, 511–515, 2019.
56. A human microrobot interface based on acoustic manipulation
X. Lu, K. Zhao, W. Liu, D. Yang, H. Shen, H. Peng, X. Guo, J. Li, J. Wang.
ACS Nano 13, 10, 11443–11452, 2019.
55. Hybrid nanovehicles: one machine, two engines
C. Chen, F. Soto, E. Karshalev, J. Li, J. Wang.
Adv. Funct. Mater. 29, 1806290, 2019.
54. Self-propelled and targeted drug delivery of poly(aspartic acid)/iron–zinc microrocket in the stomach
M. Zhou, T. Hou, J. Li, S. Yu, Z. Xu, M. Yin, J. Wang, X. Wang.
ACS Nano 13,1324–1332, 2019.
53. Structure‐dependent optical modulation of propulsion and collective behavior of acoustic/light‐driven hybrid microbowls
S. Tang, F. Zhang, J. Zhao, W. Talaat, F. Soto, E. Karshalev, C. Chen, Z. Hu, X. Lu, J. Li, Z. Lin, H. Dong, X. Zhang, A. Nourhani, J. Wang.
Adv. Funct. Mater. 29, 1809003, 2019.
52. Parallel label‐free isolation of cancer cells using arrays of acoustic microstreaming traps
X. Lu, A. Martin, F. Soto, P. Angsantikul, J. Li, C. Chen, Y. Liang, J. Hu, L. Zhang, J. Wang.
Adv. Mater. Technol. 4, 1800374, 2019.
51. Motile micropump based on synthetic micromotors for dynamic micropatterning
X. Chang, C. Chen, J. Li, X. Lu, Y. Liang, D. Zhou, H. Wang, G. Zhang, T. Li, J. Wang, L. Li.
ACS Appl. Mater. Interfaces 1131, 28507-28514, 2019.
50. Fish-scale-like intercalated metal oxide-based micromotors as efficient water remediation agents
W. Liu, H. Ge, X. Chen, X. Lu, Z. Gu, J. Li, J. Wang.
ACS Appl. Mater. Interfaces 1117, 16164-16173, 2019.
2018
49. Biomimetic platelet‐camouflaged nanorobots for binding and isolation of biological threats
J. Li, P. Angsantikul, W. Liu, B. Esteban, X. Chang, E. Sandraz, Y. Liang, S. Zhu, Y. Zhang, C. Chen, W. Gao, L. Zhang, J. Wang.
Adv. Mater. 1704800, 2018.
48. Chemical/light‐powered hybrid micromotors with on‐the‐fly optical brakes
C. Chen, S. Tang, H. Teymourian, E. Karshalev, F. Zhang, J. Li, F. Mou, Y. Liang, J. Guan, J. Wang.
Angew. Chem. Int. Ed. 130, 8242–8246, 2018.
47. Electrochemical deposition tailors the catalytic performance of MnO2‐based micromotors
W. Liu, H. Ge, Z. Gu, X. Lu, J. Li, J. Wang.
Small 14, 1802771, 2018.
46. Bioinspired chemical communication between synthetic nanomotors
C. Chen, X. Chang, H. Teymourian, D.E. Ramírez, B. Esteban, X. Lu, J. Li, S. He, C. Fang, Y. Liang, F. Mou, J. Guan, J. Wang.
Angew. Chem. Int. Ed. 130, 247–251, 2018.
45. Micromotors go in vivo: from test tubes to live animals
B. Esteban, P. Angsantikul, J. Li, W. Gao, L. Zhang, J. Wang.
Adv. Funct. Mater. 1705640, 2018.
2017
44. Micro/nanorobots for biomedicine: delivery, surgery, sensing, and detoxification
J. Li, B. Esteban, W. Gao, L. Zhang, J. Wang.
Science Robotics 2, 4, eaam6431, 2017.
43. Micromotor-enabled active drug delivery for in vivo treatment of stomach infection
B. Esteban, P. Angsantikul, J. Li, M. Lopez, D.E. Ramírez, S. Thamphiwatana, C. Chen, J. Delezuk, R. Samakapiruk, V. Ramez, L. Zhang, J. Wang.
Nature Commun. 8, 272, 2017.
42. Micromotors spontaneously neutralize gastric acid for pH-responsive payload release
J. Li, P. Angsantikul, W. Liu, B. Esteban, S. Thamphiwatana, M. Xu, E. Sandraz, X. Wang, J. Delezuk, W. Gao, L. Zhang, J. Wang.
Angew. Chem. Int. Ed. 56, 2156–2161, 2017.
41. Metal-organic frameworks as micromotor with tunable engines and brakes
J. Li, X. Yu, M. Xu, W. Liu, E. Sandraz, H. Lan, J. Wang, S. Cohen.
J. Am. Chem. Soc. 139, 611–614, 2017.
40. Nanoconfined atomic layer deposition of TiO2/Pt nanotubes: toward ultrasmall highly efficient catalytic nanorockets
J. Li, W. Liu, J. Wang, I. Rozen, S. He, C. Chen, H.G. Kim, H.J. Lee, H.B.R. Lee, S.H. Kwon, T. Li, L. Li, J. Wang, Y. Mei.
Adv. Funct. Mater. 27, 1700598, 2017.
39. Highly efficient freestyle magnetic nanoswimmer
T. Li, J. Li, K.I. Morozov, Z. Wu, T. Xu, I. Rozen, A.M. Leshansky, L. Li, J. Wang.
Nano Lett. 17, 8, 5092-5098, 2017.
38. Topographical manipulation of microparticles and cells with acoustic microstreaming
X. Lu, F. Soto, J. Li, T. Li, Y. Liang, J. Wang.
ACS Appl. Mater. Interfaces 9, 38870−38876, 2017.
37. Autonomous collision-free navigation of microvehicles in complex and dynamically changing environments
T. Li, X. Chang, Z. Wu, J. Li, G. Shao, X. Deng, J. Qiu, B. Guo, G. Zhang, Q. He, L. Li, J. Wang.
ACS Nano 11, 9268–9275, 2017.
36. Chemotactic guidance of synthetic organic/inorganic payloads functionalized sperm micromotors
C. Chen, X. Chang, P. Angsantikul, J. Li, B. Esteban, E. Karshalev, W. Liu, F. Mou, S. He, R. Castillo, Y. Liang, J. Guan, L. Zhang, J. Wang.
Advanced Biosystems 1700160, 2017.
35. Localized plasmonic structured illumination microscopy with an optically trapped microlens
A. Bezryadina, J. Li, J. Zhao, A. Kothambawala, J. Ponsetto, E. Huang, J. Wang, Z. Liu.
Nanoscale 9, 14907-14912, 2017.
2016
34. Swimming micro-robot optical nanoscopy
J. Li, W. Liu, T. Li, I. Rozen, J. Zhao, B. Bahari, B. Kante, J. Wang.
Nano Lett. 16, 6604–6609, 2016.
33. Enteric micromotor can selectively position and spontaneously propel in the gastrointestinal tract
J. Li, S. Thamphiwatana, W. Liu, B. Esteban, P. Angsantikul, E. Sandraz, J. Wang, T. Xu, F. Soto, V. Ramez, X. Wang, W. Gao, L. Zhang, J. Wang.
ACS Nano 10, 9536–9542, 2016.
32. Rocket science on the nanoscale
J. Li, I. Rozen, J. Wang.
ACS Nano 10, 5619–5634, 2016.
31. Magnetically propelled fish-like nanoswimmers
T. Li, J. Li, H. Zhang, X. Chang, W. Song, Y. Hu, D. Zhou, E. Sandraz, G. Zhang, L. Li, J. Wang.
Small 12, 6098–6105, 2016.
30. Transient micromotors that disappear when no longer needed
C. Chen, E. Karshalev, J. Li, F. Soto, R. Castillo, I. Campos, F. Mou, J. Guan, J. Wang.
ACS Nano 10, 10389–10396, 2016.
2015
29. Magneto-acoustic hybrid nanomotor
J. Li, T. Li, T. Xu, M. Kiristi, W. Liu, Z. Wu, J. Wang.
Nano Lett. 15, 4814–4821, 2015.
28. Self-propelled nanomotors autonomously seek and repair cracks
J. Li, O. Shklyaev, T. Li, W. Liu, H. Shum, I. Rozen, A. C. Balazs, J. Wang.
Nano Lett. 15, 7077–7085, 2015.
27. Water-powered cell-mimicking Janus micromotor
Z. Wu, J. Li, BEF de Ávila, T. Li, W. Gao, Q. He, L. Zhang, J. Wang.
Adv. Funct. Mater. 25, 7497–7501, 2015.
26. 3D-printed artificial microfish
W. Zhu, J. Li, Y. J. Leong, I. Rozen, X. Qu, R. Dong, Z. Wu, W. Gao, P. H. Chung, J. Wang, S. Chen.
Adv. Mater. 27, 4411–4417, 2015.
25. Whispering-gallery nanocavity plasmon-enhanced Raman spectroscopy
J. Zhang, J. Li, S. Tang, Y. Fang, J. Wang, G. Huang, R. Liu, L. Zheng, X. Cui, Y. Mei.
Sci. Rep. 5, 15012, 2015.
24. Vapor-driven propulsion of catalytic micromotors
R. Dong, J. Li, I. Rozen, B. Ezhilan, T. Xu, C. Christianson, W. Gao, D. Saintillan, B. Ren, J. Wang.
Sci. Rep. 5, 13226, 2015.
23. Self-propelled screen-printable catalytic swimmers
R. Kumar, M. Kiristi, F. Soto, J. Li, V. V Singh, J. Wang.
RSC Adv. 5, 78986–78993, 2015.
22. Micromotor-based on–off fluorescence detection of sarin and soman simulants
V. V. Singh, K. Kaufmann, J. Orozco, J. Li, M. Galarnyk, G. Arya, J. Wang.
Chem. Commun. 51, 11190, 2015.
21. Cell-membrane-coated synthetic nanomotors for effective biodetoxification
Z. Wu, T. Li, W. Gao, T. Xu, B. Jurado‐Sánchez, J. Li, W. Gao, Q. He, L. Zhang, J. Wang.
Adv. Funct. Mater. 25, 3881–3887, 2015.
20. Microengine-assisted electrochemical measurements at printable sensor strips
S. Cinti, G. Valdés-Ramírez, W. Gao, J. Li, G. Pallesch, J. Wang.
Chem. Commun. 51, 8668–8671, 2015.
19. Multifunctional silver-exchanged zeolite micromotors for catalytic detoxification of chemical and biological threats
V. Singh, B. Jurado-Sánchez, S. Sattayasamitsathit, J. Orozco, J. Li, M. Galarnyk, Y. Fedorak, J. Wang.
Adv. Funct. Mater. 25, 2147–2155, 2015.
18. Artificial micromotors in the mouse’s stomach: a step toward in vivo use of synthetic motors
W. Gao, R. Dong, S. Thamphiwatana, J. Li, W. Gao, L. Zhang, J. Wang.
ACS Nano 9, 117–123, 2015.
2014
17. Turning erythrocytes into functional micromotors
Z. Wu, T. Li, J. Li, W. Gao, T. Xu, C. Christianson, W. Gao, M. Galarnyk, Q. He, L. Zhang, J. Wang.
ACS Nano 8, 12041–12048, 2014.
16. Water-driven micromotors for rapid photocatalytic degradation of biological and chemical warfare agents
J. Li, V. V. Singh, S. Sattayasamitsathit, J. Orozco, K. Kaufmann, R. Dong, W. Gao, B. Jurado-Sanchez, Y. Fedorak, J. Wang.
ACS Nano 8, 11118–11125, 2014.
15. Nanomotor lithography
J. Li, W. Gao, R. Dong, A. Pei, S Sattayasamitsathit, J. Wang.
Nature Commun. 5, 5026, 2014.
14. Template electrosynthesis of tailored-made helical nanoswimmers
J. Li, S. Sattayasamitsathit, R. Dong, W. Gao, R. Tam, X. Feng, S. Ai, J. Wang.
Nanoscale 6, 9415–9420, 2014.
13. Hierarchical nanoporous microtubes for high-speed catalytic microengines
J. Li, Z. Liu, G. Huang, Z. An, G. Chen, J. Zhang, M. Li, R. Liu, Y. Mei.
NPG Asia Mater. 6, e94, 2014.
12. Ultrasound-modulated bubble propulsion of chemically-powered microengines
T. Xu, F. Soto, W. Gao, V. Garcia-Gradilla, J. Li, X. Zhang, J. Wang.
J. Am. Chem. Soc. 136, 8552–8555, 2014.
2013
11. Dry released nanotubes and nanoengines by particle assisted rolling
J. Li, J. Zhang, W. Gao, G. Huang, Z. Di, R. Liu, J. Wang, Y. Mei.
Adv. Mater. 25, 3715–3721, 2013.
10. Novel techniques for modifying microtube surfaces with various periodic structures ranging from nano to microscale
Z. Liu, J. Li, B.-R. Lu, Y. Chen, R. Liu, G. Huang, Y. Mei.
J. Vac. Sci. Technol. 31, 011806, 2013.
9. Seawater-driven magnesium based Janus micromotors for environmental remediation
W. Gao, X. Feng, A. Pei, Y. Gu, J. Li, J. Wang.
Nanoscale 5, 4696–4700, 2013.
8. Small-scale heat detection using catalytic microengines irradiated by laser
Z. Liu, J. Li, J. Wang, G. Huang, R. Liu, Y. Mei.
Nanoscale 5, 1345–1352, 2013.
2012
7. A new technique for ferroelectric microfluidic channels by rolling method
J. Li, Z. Liu, B.-R. Lu, G. Huang, Y. Chen, Y. Mei, R. Liu.
Microelectron. Eng. 98, 623–625, 2012.
6. Humido-responsive nanostructures prepared by nanoimprinting
M. Ye, J. Li, J. Li, W. Li, B.-R. Lu, G. Huang, Y. Mei, Y. Chen, R. Liu.
Microelectron. Eng. 98, 634–637, 2012.
5. Ordering and modification of nanopores in porous anodic aluminum membranes
Z. Liu, G. Huang, M. Li, J. Li, Y. Chen, Y. Mei, R. Liu.
Microelectron. Eng. 97, 147–149, 2012.
4. Dielectric Fresnel zone plates on optical fibers for micro-focusing applications
B.-R. Lu, J. Li, H. Guo, C. Gao, E. Huq, X.-P. Qu, Y. Chen, R. Liu.
Microelectron. Eng. 88, 2650–2652, 2011.
3. Nanoimprint of ordered ferro/piezoelectric P(VDF-TrFE) nanostructures
J.-R. Fang, Z. Shen, S. Yang, Q. Lu, J. Li, Y. Chen, R. Liu.
Microelectron. Eng. 88, 2033–2036, 2011.
2011
2. Magnetic and meniscus-effect control of catalytic rolled-up micromotors
J. Li, B.-R. Lu, Z. Shen, Z. Xu, H. Li, J. Wen, Z. Li, X.-P. Qu, Y. Chen, Y. Mei, R. Liu.
Microelectron. Eng. 8, 1792–1794, 2011.
1. Dynamics of catalytic tubular microjet engines: dependence on geometry and chemical environment
J. Li, G. Huang, M. Ye, M. Li, R. Liu, Y. Mei.
Nanoscale 3, 5083–5089, 2011.