APA
Yamamoto S., Gallage R., Ogata Y., Kusano Y., Kobayashi N., Ogawa T., Hayashi N., Kohara K., Takahashi M. & Takano M. (20140218). Quantitative understanding of thermal stability of α''-Fe16N2. : Chemical communications (Cambridge, England).
Chicago
Yamamoto Shinpei, Gallage Ruwan, Ogata Yasunobu, Kusano Yoshihiro, Kobayashi Naoya, Ogawa Tomoyuki, Hayashi Naoaki, Kohara Kaori, Takahashi Migaku and Takano Mikio. 20140218. Quantitative understanding of thermal stability of α''-Fe16N2. : Chemical communications (Cambridge, England).
Harvard
Yamamoto S., Gallage R., Ogata Y., Kusano Y., Kobayashi N., Ogawa T., Hayashi N., Kohara K., Takahashi M. and Takano M. (20140218). Quantitative understanding of thermal stability of α''-Fe16N2. : Chemical communications (Cambridge, England).
MLA
Yamamoto Shinpei, Gallage Ruwan, Ogata Yasunobu, Kusano Yoshihiro, Kobayashi Naoya, Ogawa Tomoyuki, Hayashi Naoaki, Kohara Kaori, Takahashi Migaku and Takano Mikio. Quantitative understanding of thermal stability of α''-Fe16N2. : Chemical communications (Cambridge, England). 20140218.