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National United University

3 ARTICLES PUBLISHED IN JoVE

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Engineering

A High Performance Impedance-based Platform for Evaporation Rate Detection
Wei-Lung Chou 1, Pee-Yew Lee 2, Cheng-You Chen 2, Yu-Hsin Lin 3, Yung-Sheng Lin 4
1Department of Safety, Health and Environmental Engineering, Hungkuang University, 2Institute of Materials Engineering, National Taiwan Ocean University, 3Instrument Technology Research Center, National Applied Research Laboratories, 4Department of Chemical Engineering, National United University

This paper presents an impedance-based apparatus for evaporation rate detection of solutions. It offers clear advantages over a conventional weight loss approach: a fast response, high-sensitivity detection, a small sample requirement, multiple sample measurements, and easy disassembly for cleaning and reuse purposes.

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Engineering

Well-aligned Vertically Oriented ZnO Nanorod Arrays and their Application in Inverted Small Molecule Solar Cells
Ming-Yi Lin 1, Shang-Hsuan Wu 2, Li-Jen Hsiao 3, Widhya Budiawan 2, Shih-Lun Chen 4, Wei-Chen Tu 4, Chia-Yen Lee 1, Yia-Chung Chang 2, Chih-Wei Chu 2
1Department of Electrical Engineering, National United University, 2Research Center of Applied Science, Academia Sinica, 3Department of Graduate Institute of Photonics and Optoelectronics, National Taiwan University, 4Department of Electronic Engineering, Chung Yuan Christian University

This manuscript describes how to design and fabricate efficient inverted SMPV1:PC71BM solar cells with ZnO nanorods (NRs) grown on a high quality Al-doped ZnO (AZO) seed layer. The well-aligned vertically oriented ZnO NRs exhibit high crystalline properties. The power conversion efficiency of solar cells can reach 6.01%.

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Chemistry

Growth of Gold Dendritic Nanoforests on Titanium Nitride-coated Silicon Substrates
Ming-Hua Shiao 1, Jian-Jia Zeng 2, Hung Ji Huang 1, Bo-Huei Liao 1, Yu-Hsiang Tang 1, Yung-Sheng Lin 2
1Taiwan Instrument Research Institute, National Applied Research Laboratories, 2Department of Chemical Engineering, National United University

This study presents a feasible procedure for synthesizing gold dendritic nanoforests on titanium nitride/silicon substrates. The thickness of gold dendritic nanoforests increases linearly within 15 min of a synthesis reaction.

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