Page 457 - Book Hosokawa Nanoparticle Technology Handbook
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2 GENERATION OF METAL NANOPARTICLES APPLICATIONS
Figure 2.4
Iron nanoparticles TEM image.
However, the produced nanoparticles are easily
oxidized when exposed to an air. Widely applications
such as electrical, magnetical, and optical can be
accomplished by building properly production line.
References
[1] The Chemical Society of Japan (Ed.): Ultrafine
Particle Science and Application, JSSP, 28 (1985).
[2] M. Uda: Research Report, Nisshin Steel Co., Ltd., 61,
90–99 (1989).
[3] M. Ozawa, S. Ohno, H. Okuyama, M. Uda and
E. Ozawa: Report of NRIM, 10, 157–172 (1989).
[4] H. Shimoda, S. Shiozaki: The Society of Powder
Technology, Japan, the 40th of round-table discussion
texts, 53–54 (2005).
[5] M. Uda, S. Ohno, E. Ozawa, H. Okuyama and Y. Sakka:
Report of NRIM, 7, 59–73 (1986).
[6] S. Ohno, M. Uda: J. Jpn. Inst. Metals, 53(9), 946–952
(1989).
[7] M. Uda, S. Ohno: J. Surf. Sci. Soc. Jpn., 5(4),
412–420 (1984).
[8] M. Uda: J. Jpn. Inst. Metals, 22(5), 412–420 (1983).
[9] H. Okuyama, S. Ohno, K. Honma, M. Ozawa and
M. Uda: J. High Temp. Soc. Jpn., 15(4), 143–150 (1989).
Figure 2.5 [10] N. Nakajima, J. Noma and H. Shimoda: POWTEX
Chrome nanoparticles TEM image. OSAKA 2005, Kurimoto Ltd. Exhibition Panel.
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