Odunmbaku博士毕业于四川大学物理学院,研究内容主要包括电器件的制造和表征,电荷载流子迁移率的测量,无机纳米材料的合成,以及填充各种亚稳铁相的碳纳米结构的磁性研究相关磁性化合物。
2005-2010 |
尼日利亚科文纳特大学 |
化学工程专业 |
学士 |
2012-2014 |
英国拉夫堡大学 |
化学工程专业 |
硕士 |
2015-2019 |
四川大学 |
凝聚态物理 |
博士 |
钙钛矿太阳能电池材料与器件
[1] S. G. Jian Dong, N. Luo, S. Grasso, J. Guo, L. Lei, J. Wen, S. Wang, A. Taallah, Y. He, O. Odunmbaku, F. S. Boi, (2020). Ferromagnetic correlation in hydrogen doped highly oriented pyrolytic graphite. Diamond and Related Materials, 109,108030.
[2] O. Odunmbaku, J. Xia, J. Borowiec, S. Wang, A. Taallah, Y. He, F.S. Boi (2019). Temperature driven magnetic transitions in FePd3 filled monolayer carbon foam and Fe3C/α-Fe filled carbon nanotubes, Journal of Applied Physics, 125, 024302.
[3] O. Odunmbaku, F.S. Boi, J. Guo, M. Lan, Y. He, T. Yu, S. Wang, G. Xiang (2018). Chlorine-assisted synthesis of Fe3C-filled mm-long vertically aligned arrays of multiwall carbon nanotubes, Materials Research Express, 6, 015040.
[4] F.S. Boi, M. Liu, J. Xia, O. Odunmbaku, A. Taallah, J. Wen (2019). Temperature driven anomalous unit-cell c-axis shifts in highly oriented pyrolytic graphite measured at the magic-angle. Carbon, 145, 690-693.
[5] J. Xia, O. Odunmbaku, A. Taallah, S. Wang, F.S. Boi (2019). Cl-assisted corrugation effects in the carbon layers of Fe3C-filled carbon nanotubes buckypapers, Materials Today Communications, 19, 76–79.
[6] F.S. Boi, M. Liu, J.C. Xia, O. Odunmbaku, A. Taallah, J. Wen (2019). Anomalous c-axis shifts and symmetry enhancement in highly oriented pyrolytic graphite at the magic angle. Carbon, 150, 27-31.
[7] G. Shuai, O. Odunmbaku, F.S. Boi (2020). Unusual butterfly-shaped hysteresis and defect-induced ferromagnetic transitions in highly oriented pyrolytic graphite with variable Bernal ordering. Carbon, 158, 857-863.
[8] A. Taallah, J. Wen, S. Wang, S. Grasso, Y. He, J. Xia, G. Shuai, O. Odunmbaku, A. Corrias, F.S. Boi (2020). Unusual butterfly-shaped magnetization signals and spin-glass-like behaviour in highly oriented pyrolytic graphite. Carbon, 167, 85-91.
[9] F.S. Boi, X. Zhang, O. Odunmbaku, J. Xia, A. Taallah, M. Baxendale (2019). Magnetic ordering and interactions in iron-filled carbon foam. Materials Today Chemistry, 12, 261-265.
[10] A. Taallah, O. Odunmbaku, J. Xia, J. Borowiec, X. Zhang, G. Min, F.S. Boi (2019). Temperature-induced selective-defect nucleation in (Cu3− XCoX) Pt filled graphitic carbon foams by controlled Raman-laser irradiation. Materials Research Express, 6(7), 075602.
[11] X. Zhang, D. Medranda, O. Odunmbaku, A. Taallah, F.S. Boi (2018). Wustite-induced formation of sp3-rich faceted carbon foam: The key role of cooling rate on sp3-abundance (and oxide crystal-habit) control. Materials Today Communications, 16, 250-257.
[12] M. V. Bandulasena, G. T. Vladisavljević, O. G. Odunmbaku, B. Benyahia, (2017). Continuous synthesis of PVP stabilized biocompatible gold nanoparticles with a controlled size using a 3D glass capillary microfluidic device. Chemical Engineering Science.
学术会议交流:
A. Taallah, O. Odunmbaku, S. Ivaturi, J. Wen, M. Liu, X. Zhang, D. Medranda, S. Wang, F.S. Boi (2019). Water-assisted structural manipulation of ferromagnetically filled carbon onions: The case of high pressure Fe3O4. AIP Conference Proceedings, 2115, 030119.