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High Photo-Current Generation in a Three-Dimensional Silicon Quantum Dot Superlattice Fabricated by Combination of Bio-Template and Neutral Beam Etching for Quantum Dot Solar Cell

机译：通过对量子点太阳能电池的生物模板和中性光束蚀刻的组合制造的三维硅量子点超晶格中的高光电流产生

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A Quantum Dot Superlattice (QDSL) offers high prospect for new generation photovoltaics. We fabricated and characterized a 3-dimensional array of Si-NDs as a QDSL with a high-aspect ratio, clear interface, and uniform size by using our advanced top-down technology consisting of bio-template and neutral beam etching processes for high-efficiency solar cells. Conductive atomic force microscopy measurements revealed that the conductivity became higher as the arrangement was changed from single Si-ND to 2D and 3D arrays with the same matrix of SiC, i.e. the coupling of wave functions was changed. Moreover, we measured the contribution of 3D Si-NDs array in producing photocurrent inside a quantum dot solar cell and also observed a higher photo absorption of sunlight by 3D Si-NDs (30%) than by a 2D array of Si-NDs (10%).

机译：Quantum Dot Superlattice（QDSL）为新一代光伏提供了高前景。我们通过使用我们的高级自上而下技术，用高纵横比，清晰的界面和均匀尺寸来制造和表征三维Si-NDS的Si-NDS阵列。由生物模板和中性光束蚀刻工艺组成的高级自上而下技术。效率太阳能电池。导电原子力显微镜测量显示，随着该布置从具有相同SiC矩阵的单个Si-Nd到2D和3D阵列的布置改变了该布置，即波函数的耦合改变了导电性。此外，我们测量了3D Si-NDS阵列在量子点太阳能电池内产生光电流的贡献，并且还观察到3D Si-NDS（30％）的阳光照射的更高照片吸收，而不是通过2D Si-NDS（10 ％）。

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《IEEE Photovoltaic Specialists Conference》|2013年||共3页
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作者
Mohammad Maksudur Rahman; Makoto Igarashi; Weiguo Hu; Mohd Erman Syazwan; Yusuke Hoshi; Noritaka Usami; Seiji Samukawa;
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中图分类 TN2-53;
关键词
silicon; quantum dot; super lattice; mini band;

机译：硅;量子点;超级格;迷你乐队;

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专利

1. Quantum dot solar cells using 2-dimensional array of 6.4-nm-diameter silicon nanodisks fabricated using bio-templates and neutral beam etching [J] . Igarashi Makoto, Fairuz Budiman Mohd, Pan Wugen, Applied Physics Letters . 2012,第6期

机译：使用生物模板和中性束刻蚀制造的使用6.4纳米直径硅纳米盘的二维阵列的量子点太阳能电池
2. Quantum dot solar cells using 2-dimensional array of 6.4-nm-diameter silicon nanodisks fabricated using bio-templates and neutral beam etching [J] . Makoto Igarashi, Mohd Fairuz Budjman, Wugen Pan, Applied Physics Letters . 2012,第6期

机译：使用生物模板和中性束刻蚀制造的使用6.4纳米直径硅纳米盘的二维阵列的量子点太阳能电池
3. Quantum size effects in GaAs nanodisks fabricated using a combination of the bio-template technique and neutral beam etching [J] . Tamura Y., Kaizu T., Kiba T., Nanotechnology . 2013,第28期

机译：结合生物模板技术和中性束刻蚀制造的GaAs纳米盘中的量子尺寸效应
4. High photo-current generation in a three-dimensional silicon quantum dot superlattice fabricated by combination of bio-template and neutral beam etching for quantum dot solar cell [C] . Rahman M.M., Igarashi M., Weiguo Hu, IEEE Photovoltaic Specialists Conference . 2013

机译：生物模板与中性束刻蚀相结合制造的三维硅量子点超晶格中高光电流产生
5. Synthesis of chiral quantum dots and quantum dots for solar cells. [D] . Tohgha, Urice. 2015

机译：手性量子点和太阳能电池量子点的合成。
6. Generation of high photocurrent in three-dimensional silicon quantum dot superlattice fabricated by combining bio-template and neutral beam etching for quantum dot solar cells [O] . Makoto Igarashi, Weiguo Hu, Mohammad Maksudur Rahman, 2013

机译：生物模板与中性束刻蚀相结合制造的三维硅量子点超晶格中高光电流的产生
7. Generation of high photocurrent in three-dimensional silicon quantum dot superlattice fabricated by combining bio-template and neutral beam etching for quantum dot solar cells [O] . Makoto Igarashi, Weiguo Hu, Mohammad Maksudur Rahman, 2013

机译：生物模板与中性束刻蚀相结合制造的三维硅量子点超晶格中高光电流的产生

High Photo-Current Generation in a Three-Dimensional Silicon Quantum Dot Superlattice Fabricated by Combination of Bio-Template and Neutral Beam Etching for Quantum Dot Solar Cell

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