@article{CTT100890912, author = {Yota Suzuki and Dwinanri Egyna and Tomoki Shibata and Takahito Nishimura and Akira Yamada}, title = {Mechanism analysis of CuInS2 and Cu(In,Ga)S2 growth via KCN- and H2S-free process and solar-cell application}, journal = {Japanese Journal of Applied Physics}, year = 2023, } @article{CTT100884123, author = {Dwinanri Egyna and Satoru Ito and Takahito Nishimura and Akira Yamada}, title = {Growth of Zn-Ge-O Thin-Film as a Transparent Conductive Oxide Buffer Material for Chalcopyrite Solar Cell}, journal = {Cryst. Research Technology}, year = 2022, } @article{CTT100864965, author = {Dwinanri Egyna and Kazuyoshi Nakada and Akira Yamada}, title = {Benefits of Low Electron-Affinity Material as the N-Type Layer for Cu(In,Ga)S2 Solar Cell}, journal = {Energies}, year = 2021, } @inproceedings{CTT100906952, author = {鈴木 陽太 and Dwinanri Egyna and 柴田 智樹 and 山田 裕太郎 and 西村 昂人 and 山田 明}, title = {Cu(In,Ga)S2 太陽電池のための低電 子親和力 Zn-Ge-O の開発}, booktitle = {}, year = 2023, } @inproceedings{CTT100884126, author = {Dwinanri Egyna and Ito Satoru and Takahito Nishimura and Akira Yamada}, title = {Zn-Ge-O thin-films as alternative n-type layers for chalcogenide solar cells}, booktitle = {}, year = 2022, } @inproceedings{CTT100884125, author = {Yota Suzuki and Dwinanri Egyna and Tomoki Shibata and Takahito Nishimura and Akira Yamada}, title = {Growth mechanism and fabrication of pure sulfide CuIn(Ga)S2 solar cell by sulfurization}, booktitle = {}, year = 2022, } @inproceedings{CTT100869112, author = {鈴木 陽太 and Egyna Dwinanri and 山田 明}, title = {粉末硫黄を用いた硫化法によるCuInS2の作製}, booktitle = {}, year = 2022, } @inproceedings{CTT100861583, author = {Dwinanri Egyna and Ryoma Yomeda and Kosuke Beppu and Takahiro Wada and Yamada Akira}, title = {Growth of Zn-Ge-O Thin Film as a Transparent Conductive Oxide With a Low Electron Affinity}, booktitle = {}, year = 2021, } @inproceedings{CTT100861392, author = {Dwinanri Egyna and Kazuyoshi Nakada and Akira Yamada}, title = {The Importance of Low Electron Affinity Materials as the n-type Layers of Cu(In, Ga)S2 Solar Cell Design}, booktitle = {}, year = 2021, } @inproceedings{CTT100845170, author = {Dwinanri Egyna and Kazuyoshi Nakada and Akira Yamada}, title = {The Advantage of Low Electron Affinity Materials as the Window Layer of Buffer-free CIGS2 Solar Cells}, booktitle = {}, year = 2021, } @inproceedings{CTT100809696, author = {Dwinanri Egyna and Kazuyoshi Nakada and Akira Yamada}, title = {Effect of Metallic Precursor Pre-Annealing Temperature on CuInS2 (CIS) Film Formation}, booktitle = {}, year = 2019, } @inproceedings{CTT100792445, author = {Dwinanri Egyna and Kazuyoshi Nakada and Akira Yamada}, title = {Effect of Annealing Temperature in H2S-free Sulfurization Method for CIS Fabrication}, booktitle = {}, year = 2019, } @misc{CTT100908334, author = {Dwinanri Egyna}, title = {Study of Zn-Ge-O Thin Film as Alternative Low Electron Affinity N-Type Material for Wide Band Gap Chalcogenide Solar Cell}, year = 2023, } @misc{CTT100900847, author = {Dwinanri Egyna}, title = {Study of Zn-Ge-O Thin Film as Alternative Low Electron Affinity N-Type Material for Wide Band Gap Chalcogenide Solar Cell}, year = 2023, } @misc{CTT100900846, author = {Dwinanri Egyna}, title = {Study of Zn-Ge-O Thin Film as Alternative Low Electron Affinity N-Type Material for Wide Band Gap Chalcogenide Solar Cell}, year = 2023, } @phdthesis{CTT100908334, author = {Dwinanri Egyna}, title = {Study of Zn-Ge-O Thin Film as Alternative Low Electron Affinity N-Type Material for Wide Band Gap Chalcogenide Solar Cell}, school = {東京工業大学}, year = 2023, } @phdthesis{CTT100900847, author = {Dwinanri Egyna}, title = {Study of Zn-Ge-O Thin Film as Alternative Low Electron Affinity N-Type Material for Wide Band Gap Chalcogenide Solar Cell}, school = {東京工業大学}, year = 2023, } @phdthesis{CTT100900846, author = {Dwinanri Egyna}, title = {Study of Zn-Ge-O Thin Film as Alternative Low Electron Affinity N-Type Material for Wide Band Gap Chalcogenide Solar Cell}, school = {東京工業大学}, year = 2023, }