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Magnetic Particle Imaging
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Jing ZHONG
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Paper
.Jing Zhong*, Meinhard Schilling and Frank Ludwig, Magnetic nanoparticle temperature imaging with a scanning magnetic particle spectrometer, Measurement Science and Technology, 29, 115903 (2018).
.Jing Zhong*, Meinhard Schilling and Frank Ludwig. Magnetic nanoparticle thermometry independent of Brownian relaxation, Journal of Physics D - Appllied Physics, 51, 015001 (2018).
.Jing Zhong*, Jan Dieckhoff, Meinhard Schilling, and Frank Ludwig. Influence of static magnetic field strength on the temperature resolution of a magnetic nanoparticle thermometer, Journal Appllied Physics., 120, 143902 (2016).
.Jing Zhong*, Hengjun Liu, Hisataka Maruyama, Taisue Masuda, and Fumihito Arai. Continuous-wave laser-assisted injection of single magnetic nanobeads into living cells, Sensors and Actuators B - Chemical, 230, 298 (2016).
.Shiqiang Pi, Jing Zhong, Kai Wei, and Wenzhong Liu. Optimal Anti-Noise Ability and High Sensitivity in Magnetic Nanothermometry, IEEE Transactions on Nanotechnology, 15, 409 (2016).
.Ming Zhou, Jing Zhong*, Wenzhong Liu, Zhongzhou Du, Zhixing Huang, Ming Yang, and Paulo C. Morais. Study of magnetic nanoparticle spectrum for magnetic nanothermometry, IEEE Transactions on Magnetics, 51, 6101006 (2015).
.Shiqiang Pi, Wenzhong Liu*, Jing Zhong, Qing Xiang, and Paulo C. Morais, Towards real-time and remote magnetonanothermometry with temperature accuracy better than 0.05K, Sensors and Actuators A: Physical, 234, 163 (2015).
.Jing Zhong, Wenzhong Liu*, Ling Jiang, Ming Zhou, and Paulo C. Morais. Real-time magnetic nanothermometry: The use of magnetization of magnetic nanoparticles assessed under low frequency triangle-wave magnetic fields, Review of Scientific Instruments, 85, 094905 (2014).
.Jing Zhong, Wenzhong Liu, Li Kong and Paulo C. Morais. A new approach for highly accurate, remote temperature probing using magnetic nanoparticles. Scientific Reports, 4, 6338 (2014).
.Zhongzhou Du, Wenzhong Liu, Jing Zhong*, Ming Zhou, Pu Zhang, and Paulo C. Morais. Signature of cluster disruption within magnetic fluid samples: The key information provided by initial susceptibility measurements, Journal of Applied Physics, 115, 194310 (2014).
.Jing Zhong, Wenzhong Liu*, Zhongzhou Du, Paulo C. Morais, Qing Xiang and Qingguo Xie. A noninvasive, remote and precise method for temperature and concentration estimation using magnetic nanoparticles, Nanotechnology, 23, 075703 (2012).
.Jing Zhong, Wenzhong Liu*, Wenzhong Liu, Yin Li, Mian Wu, and Paulo C. Morais. Ferrofluid clustering driven by dilution: An alternating current susceptibility investigation, Journal of Applied Physics, 111, 064317, (2012).
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