Magnetic Nanoparticle Hyperthermia: Maximizing Specific Loss Power for Magnetic Hyperthermia by Hard–Soft Mixed Ferrites (Small 29/2018),Small

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Magnetic Nanoparticle Hyperthermia: Maximizing Specific Loss Power for Magnetic Hyperthermia by Hard–Soft Mixed Ferrites (Small 29/2018)
Small ( IF 13.3 ) Pub Date : 2018-07-19 , DOI: 10.1002/smll.201870133
Shuli He _{1,

2,

3} , Hongwang Zhang ₂ , Yihao Liu _{1,

4} , Fan Sun ₂ , Xiang Yu ₁ , Xueyan Li ₁ , Li Zhang ₁ , Lichen Wang ₁ , Keya Mao ₄ , Gangshi Wang ₄ , Yunjuan Lin ₄ , Zhenchuan Han ₄ , Renat Sabirianov ₅ , Hao Zeng ₂

Affiliation

In article number 1800135, Hao Zeng and co‐workers design and develop biocompatible magnetic nanoparticles with maximized specific and intrinsic loss power, by alloying hard and soft ferrites to engineer their effective anisotropy. The very high intrinsic loss power enables a dilute solution of nanoparticles to be heated above the hyperthermia temperature within minutes at an ultralow AC magnetic field of 3 kA m⁻¹. Bone cement incorporating low dosage of nanoparticles is heated efficiently.

中文翻译：

磁性纳米热疗：通过硬-软混合铁氧体最大化磁性热疗的比损失功率（2018年2月29日，小）

曾浩和他的同事在文章1800135中，通过对硬铁氧体和软铁氧体进行合金化处理，设计出有效的各向异性，从而设计和开发出具有最大比损耗和固有损耗功率的生物相容性磁性纳米粒子。极高的固有损耗功率使纳米颗粒的稀溶液能够在数分钟内在3 kA m ^-1的超低交流磁场中被加热到高温以上。掺入低剂量纳米颗粒的骨水泥被有效地加热。

更新日期：2018-07-19

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