ALINA UUSIKU

Researcher and grants management coordinator

Just as for general science practitioners, the participation of woman in green hydrogen is vital for greater future representations of all green economy leaders ~ Alina Uusiku.

UNAM/ NGHRI
WINDHOEK, NAMIBIA

Ended soon

Dr. Alina Uusiku is a researcher in the Namibian Green Hydrogen Research Institute (NGHRI) hosted at the University of Namibia (UNAM). Dr. Uusiku completed her Doctor of Philosophy in Engineering specializing in Applied Chemistry and Chemical Engineering from Kogakuin University in Tokyo, Japan. She additionally holds a Master of Science in Chemistry and a Bachelor of Science in Chemistry and Molecular & Physiological Biology from UNAM. Her research includes; electrochemical hydrogen production using Namibian raw material of copper electrodes, Fabrication of other functional nano materials with various energy requiring applications such as, conductive copper and copper based thin films for the application of green hydrogen production and fabrication of p-type Cu2O photo catalysts. She is also a grant and project management coordinator at UNAM. Dr. Uusiku has participated in the summer school on energy related projects. Where her involvement included teaching and laboratory training of high school students from different Asian countries, innovative methods of renewable energy and efficiencies in Tokyo under the leadership of Prof. Shirakawa Hideki, a Japanese Noble Prize award winner who discovered that certain plastics can be chemically altered to conduct electricity almost as readily as metals. Dr. Uusiku was also involved in teaching assistance of Lithium Ion Battery (LIB) course at Kogakuin University, Tokyo.

  • Researcher and grants management coordinator

  • Just as for general science practitioners, the participation of woman in green hydrogen is vital for greater future representations of all green economy leaders ~ Alina Uusiku.

  • UNAM/ NGHRI

  • WINDHOEK, NAMIBIA

  • 1. Alina Uusiku, Hiroki Nagai, and Mitsunobu Sato. Fabrication of conductive Cu thin film by Molecular Precursor Method using electrochemically prepared precursor solution. The 25th International SPACC Symposium, Okinawa, Japan, 2018/11/ 23–25.

    2. Alina Uusiku, Hiroki Nagai, and Mitsunobu Sato. Effect of applied voltage on the synthesis of Cu(II) complex of EDTA in aqueous solutions, from copper plates by electrochemical process. The 16th International Symposium on Advanced Technology (ISAT-16), Tokyo, Japan, 2017/11/01–02.

    3. Alina Uusiku, Hiroki Nagai, and Mitsunobu Sato. Direct preparation of aqueous solutions involving Cu(II) complex of EDTA, from copper plates by electrochemical process. The 24th International SPACC Symposium, Auckland, New Zealand, 2017/11/22–25.

    4. Alina Uusiku, M. R. Kiremire, L. S. Daniel. Synthesis and characterization of metal complexes of di-2-pyridyl ketone Schiff base ligands. The 22nd International SPACC Symposium, Windhoek, Namibia. 2015/11/15–17.

    5. Alina Uusiku, E. M. R. Kiremire, L. S. Daniel. The study of metal complexes of di-2-pyridyl ketone Schiff base ligands derived from s-methyldithiocarbazate fragment and its application to biological activity toward P. Falciparum. The 3rd Annual Science Research Conference, Windhoek, Namibia, 2015.

  • 1. Alina Uusiku, Hiroki Nagai, and Mitsunobu Sato, (2020); ‘’Highly photocatalytic p-type Cu2O thin films fabricated on a quartz glass substrate at 180°C in air, by spraying aqueous precursor solutions involving Cu(II) complexes.’’, Materials Technology:, 35, (9-10), 553 – 554.

    2. Alina Uusiku, Hiroki Nagai, and Mitsunobu Sato, (2020); Selective deposition of p-type Cu2O or conductive Cu thin film at 180°C in air on a quartz glass substrate: Development of an aqueous spray solution using two-compartment electrolysis system. Functional Materials Letters:, 13(3): 2051012.

  • uualina@yahoo.com

  • Alina Uusiku at LinkedIn, https://www.linkedin.com/feed/?nis=true&lipi=urn%3Ali%3Apage%3Ad_flagship3_profile_view_base%3BUGSC4vO2S92cC9fUtfjH9w%3D%3D

    alinah_hoodia at Instagram

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1. Alina Uusiku, Hiroki Nagai, and Mitsunobu Sato. Fabrication of conductive Cu thin film by Molecular Precursor Method using electrochemically prepared precursor solution. The 25th International SPACC Symposium, Okinawa, Japan, 2018/11/ 23–25.

2. Alina Uusiku, Hiroki Nagai, and Mitsunobu Sato. Effect of applied voltage on the synthesis of Cu(II) complex of EDTA in aqueous solutions, from copper plates by electrochemical process. The 16th International Symposium on Advanced Technology (ISAT-16), Tokyo, Japan, 2017/11/01–02.

3. Alina Uusiku, Hiroki Nagai, and Mitsunobu Sato. Direct preparation of aqueous solutions involving Cu(II) complex of EDTA, from copper plates by electrochemical process. The 24th International SPACC Symposium, Auckland, New Zealand, 2017/11/22–25.

4. Alina Uusiku, M. R. Kiremire, L. S. Daniel. Synthesis and characterization of metal complexes of di-2-pyridyl ketone Schiff base ligands. The 22nd International SPACC Symposium, Windhoek, Namibia. 2015/11/15–17.

5. Alina Uusiku, E. M. R. Kiremire, L. S. Daniel. The study of metal complexes of di-2-pyridyl ketone Schiff base ligands derived from s-methyldithiocarbazate fragment and its application to biological activity toward P. Falciparum. The 3rd Annual Science Research Conference, Windhoek, Namibia, 2015.

1. Alina Uusiku, Hiroki Nagai, and Mitsunobu Sato, (2020); ‘’Highly photocatalytic p-type Cu2O thin films fabricated on a quartz glass substrate at 180°C in air, by spraying aqueous precursor solutions involving Cu(II) complexes.’’, Materials Technology:, 35, (9-10), 553 – 554.

2. Alina Uusiku, Hiroki Nagai, and Mitsunobu Sato, (2020); Selective deposition of p-type Cu2O or conductive Cu thin film at 180°C in air on a quartz glass substrate: Development of an aqueous spray solution using two-compartment electrolysis system. Functional Materials Letters:, 13(3): 2051012.

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