Follow
Baoxing Xu
Title
Cited by
Cited by
Year
A self‐healable, highly stretchable, and solution processable conductive polymer composite for ultrasensitive strain and pressure sensing
T Wang, Y Zhang, Q Liu, W Cheng, X Wang, L Pan, B Xu, H Xu
Advanced Functional Materials 28 (7), 1705551, 2018
4772018
Multilayer polypyrrole nanosheets with self‐organized surface structures for flexible and efficient solar–thermal energy conversion
X Wang, Q Liu, S Wu, B Xu, H Xu
Advanced Materials 31 (19), 1807716, 2019
4142019
Epidermal photonic devices for quantitative imaging of temperature and thermal transport characteristics of the skin
L Gao, Y Zhang, V Malyarchuk, L Jia, KI Jang, R Chad Webb, H Fu, Y Shi, ...
Nature communications 5 (1), 4938, 2014
3002014
An epidermal stimulation and sensing platform for sensorimotor prosthetic control, management of lower back exertion, and electrical muscle activation
B Xu, A Akhtar, Y Liu, H Chen, WH Yeo, II Sung Park, B Boyce, H Kim, ...
Advanced Materials (Deerfield Beach, Fla.) 28 (22), 4462, 2016
2732016
Micromechanical modelling of the effect of plastic deformation on the mechanical behaviour in pseudoelastic shape memory alloys
XM Wang, BX Xu, ZF Yue
International Journal of Plasticity 24 (8), 1307-1332, 2008
1492008
Phase transformation behavior of pseudoelastic NiTi shape memory alloys under large strain
X Wang, B Xu, Z Yue
Journal of Alloys and Compounds 463 (1-2), 417-422, 2008
862008
Determining engineering stress–strain curve directly from the load–depth curve of spherical indentation test
B Xu, X Chen
Journal of Materials Research 25 (12), 2297-2307, 2010
772010
Ultrahigh sensitive Au‐doped silicon nanomembrane based wearable sensor arrays for continuous skin temperature monitoring with high precision
M Sang, K Kang, Y Zhang, H Zhang, K Kim, M Cho, J Shin, JH Hong, ...
Advanced Materials 34 (4), 2105865, 2022
732022
Lattice mismatch dominant yet mechanically tunable thermal conductivity in bilayer heterostructures
Y Gao, Q Liu, B Xu
ACS nano 10 (5), 5431-5439, 2016
702016
Effect of wall roughness on fluid transport resistance in nanopores
B Xu, Y Li, T Park, X Chen
The Journal of chemical physics 135 (14), 2011
692011
Nanoscale fluid mechanics and energy conversion
X Chen, B Xu, L Liu
Applied Mechanics Reviews 66 (5), 050803, 2014
642014
Large-deformation and high-strength amorphous porous carbon nanospheres
W Yang, S Mao, J Yang, T Shang, H Song, J Mabon, W Swiech, JR Vance, ...
Scientific reports 6 (1), 24187, 2016
622016
Wafer-recyclable, environment-friendly transfer printing for large-scale thin-film nanoelectronics
DS Wie, Y Zhang, MK Kim, B Kim, S Park, YJ Kim, PP Irazoqui, X Zheng, ...
Proceedings of the National Academy of Sciences 115 (31), E7236-E7244, 2018
572018
3D printed microheater sensor‐integrated, drug‐Encapsulated microneedle patch system for pain management
M Yin, L Xiao, Q Liu, SY Kwon, Y Zhang, PR Sharma, L Jin, X Li, B Xu
Advanced healthcare materials 8 (23), 1901170, 2019
542019
Actuating water droplets on graphene via surface wettability gradients
Q Liu, B Xu
Langmuir 31 (33), 9070-9075, 2015
522015
Indentation fatigue behaviour of polycrystalline copper
BX Xu, ZF Yue, J Wang
Mechanics of Materials 39 (12), 1066-1080, 2007
522007
Bioresorbable, miniaturized porous silicon needles on a flexible water-soluble backing for unobtrusive, sustained delivery of chemotherapy
H Kim, HS Lee, Y Jeon, W Park, Y Zhang, B Kim, H Jang, B Xu, Y Yeo, ...
ACS nano 14 (6), 7227-7236, 2020
512020
Mitigating impact/blast energy via a novel nanofluidic energy capture mechanism
B Xu, Y Qiao, X Chen
Journal of the Mechanics and Physics of Solids 62, 194-208, 2014
512014
Experimental and numerical study of the method to determine the creep parameters from the indentation creep testing
YJ Liu, B Zhao, BX Xu, ZF Yue
Materials Science and Engineering: A 456 (1-2), 103-108, 2007
512007
A conceptual thermal actuation system driven by interface tension of nanofluids
B Xu, Y Qiao, T Park, M Tak, Q Zhou, X Chen
Energy & Environmental Science 4 (9), 3632-3639, 2011
492011
The system can't perform the operation now. Try again later.
Articles 1–20