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210 results on '"Lin, Ting-Han"'

1. Forming Long-range Order of Semiconducting Polymers through Liquid-phase Directional Molecular Assemblies

Author

Pham, Minh Nhat, Su, Chun-Jen, Huang, Yu-Ching, Lin, Kun-Ta, Huang, Ting-Yu, Lai, Yu-Ying, Wang, Chen-An, Liaw, Yong-Kang, Lin, Ting-Han, Jeng, U-Ser, Ruan, Jrjeng, Luo, Chan, Huang, Ye, Bazan, Guillermo C., and Hsu, Ben B. Y.

Subjects
Condensed Matter - Soft Condensed Matter
Abstract

Intermolecular interactions are crucial in determining the morphology of solution-processed semiconducting polymer thin films. However, these random interactions often lead to disordered or short-range ordered structures. Achieving long-range order in these films has been a challenge due to limited control over microscopic interactions in current techniques. Here, we present a molecular-level methodology that leverages spatial matching of intermolecular dynamics among solutes, solvents, and substrates to induce directional molecular assembly in weakly bonded polymers. Within the optimized dynamic scale of 2.5 \r{A} between polymer side chains and self-assembled monolayers (SAMs) on nanogrooved substrates, our approach transforms random aggregates into unidirectional fibers with a remarkable increase in the anisotropic stacking ratio from 1 to 11. The Flory-Huggins-based molecular stacking model accurately predicts the transitioning order on various SAMs, validated by morphologic and spectroscopic observations. The enhanced structural ordering spans over 3 orders of magnitude in length, raising from the smallest 7.3 nm random crystallites to >14 um unidirectional fibers on sub-millimeter areas. Overall, this study provides insights into the control of complex intermolecular interactions and offers enhanced molecular-level controllability in solution-based processes., Comment: 40 pages, 6 figures, 2 tables

Published
2024

9. The global response: How cities and provinces around the globe tackled Covid-19 outbreaks in 2021

Author

Jain, Nityanand, Hung, I-Chun, Kimura, Hitomi, Goh, Yi Lin, Jau, William, Huynh, Khoa Le Anh, Panag, Deepkanwar Singh, Tiwari, Ranjit, Prasad, Sakshi, Manirambona, Emery, Vasanthakumaran, Tamilarasy, Amanda, Tan Weiling, Lin, Ho-Wei, Vig, Nikhil, An, Nguyen Thanh, Uwiringiyimana, Emmanuel, Popkova, Darja, Lin, Ting-Han, Nguyen, Minh Anh, Jain, Shivani, Umar, Tungki Pratama, Suleman, Mohamed Hoosen, Efendi, Elnur, Kuo, Chuan-Ying, Bansal, Sikander Pal Singh, Kauškale, Sofja, Peng, Hui-Hui, Bains, Mohit, Rozevska, Marija, Tran, Thang Huu, Tsai, Meng-Shan, Pahulpreet, Jiraboonsri, Suvinai, Tai, Ruo-Zhu, Khan, Zeeshan Ali, Huy, Dang Thanh, Kositbovornchai, Supitsara, Chiu, Ching-Wen, Nguyen, Thi Hien Hau, Chen, Hsueh-Yen, Khongyot, Thanawat, Chen, Kai-Yang, Quyen, Dinh Thi Kim, Lam, Jennifer, Dila, Kadek Agus Surya, Cu, Ngan Thanh, Thi, My Tam Huynh, Dung, Le Anh, Thi, Kim Oanh Nguyen, Thi, Hoai An Nguyen, Trieu, My Duc Thao, Thi, Yen Cao, Pham, Thien Trang, Ariyoshi, Koya, Smith, Chris, and Huy, Nguyen Tien

Published
2022
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12. Forming Long-Range Order of Semiconducting Polymers through Liquid-Phase Directional Molecular Assemblies

Author

Pham, Minh Nhat, primary, Su, Chun-Jen, additional, Huang, Yu-Ching, additional, Lin, Kun-Ta, additional, Huang, Ting-Yu, additional, Lai, Yu-Ying, additional, Wang, Chen-An, additional, Liaw, Yong-Kang, additional, Lin, Ting-Han, additional, Wan, Keng-Cheng, additional, He, Cheng-Tai, additional, Huang, Yu-Han, additional, Yang, Yong-Ping, additional, Wei, Hsuan-Yen, additional, Jeng, U-Ser, additional, Ruan, Jrjeng, additional, Luo, Chan, additional, Huang, Ye, additional, Bazan, Guillermo C., additional, and Hsu, Ben B. Y., additional

Published
2024
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20. Gas‐Solid Phase Reaction Derived Silver Bismuth Iodide Rudorffite: Structural Insight and Exploring Photocatalytic Potential of CO2 Reduction.

Author

Chang, Jia‐Mao, Lin, Ting‐Han, Hsiao, Kai‐Chi, Chiang, Kuo‐Ping, Chang, Yin‐Hsuan, and Wu, Ming‐Chung

Subjects
*EXTENDED X-ray absorption fine structure, *SILVER iodide, *SOLAR cells, *CLEAN energy, *REDUCTION potential, *X-ray absorption near edge structure, *SURFACE potential
Abstract

Photocatalytic reduction of CO2 is a promising strategy to mitigate the effects of global warming by converting CO2 into valuable energy‐dense products. Silver bismuth iodide (SBI) is an attractive material owing to its tunable bandgap and favorable band‐edge positions for efficient CO2 photoreduction. In this study, SBI materials, including AgBi2I7, AgBiI4, Ag2BiI5, and Ag3BiI6 are first synthesized, through gas‐solid reaction by controlling the stoichiometric ratio of reactants. The X‐ray absorption near edge structure (XANES) and extended X‐ray absorption fine structure (EXAFS) results revealed that the distance between Ag‐I is proportional to the degree of Ag ions delocalization, which occupies the vacant sites. That greatly retards the charge recombination at vacant sites. In addition, the surface potential via photo‐assisted Kelvin probe force measurements of various SBI catalysts shows that Ag3BiI6 exhibits the highest surface potential change due to the rich delocalized Ag ions. This results in effective charge carrier transport and prevention of charge recombination at vacant sites. Taking the above advantages, the averaged CO and CH4 production rates for Ag3BiI6 achieved 0.23 and 0.10 µmol g−1 h−1, respectively. The findings suggest that Ag3BiI6 has a high potential as a novel photocatalyst for CO2 reduction and sheds light on the possibility of solving environmental contamination and sustainable energy crises. [ABSTRACT FROM AUTHOR]

Published
2024
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21. Recent Advances in Metal Oxide Electron Transport Layers for Enhancing the Performance of Perovskite Solar Cells.

Author

Liao, Ying-Han, Chang, Yin-Hsuan, Lin, Ting-Han, Lee, Kun-Mu, and Wu, Ming-Chung

Subjects
SOLAR cells, ENERGY levels (Quantum mechanics), ELECTRON mobility, PEROVSKITE, STANNIC oxide, ELECTRON transport
Abstract

Perovskite solar cells (PSCs) have attracted considerable interest owing to their low processing costs and high efficiency. A crucial component of these devices is the electron transport layer (ETL), which plays a key role in extracting and transmitting light-induced electrons, modifying interfaces, and adjusting surface energy levels. This minimizes charge recombination in PSCs, a critical factor in their performance. Among the various ETL materials, titanium dioxide (TiO2) and tin dioxide (SnO2) stand out due to their excellent electron mobility, suitable band alignment, high transparency, and stability. TiO2 is widely used because of its appropriate conduction band position, easy fabrication, and favorable charge extraction properties. SnO2, on the other hand, offers higher electron mobility, better stability under UV illumination, and lower processing temperatures, making it a promising alternative. This paper summarizes the latest advancements in the research of electron transport materials, including material selection and a discussion of electron collection. Additionally, it examines doping techniques that enhance electron mobility and surface modification technologies that improve interface quality and reduce recombination. The impact of these parameters on the performance and passivation behavior of PSCs is also examined. Technological advancements in the ETL, especially those involving TiO2 and SnO2, are currently a prominent research direction for achieving high-efficiency PSCs. This review covers the current state and future directions in ETL research for PSCs, highlighting the crucial role of TiO2 and SnO2 in enhancing device performance. [ABSTRACT FROM AUTHOR]

Published
2024
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25. Role-Playing with Robot Characters: Increasing User Engagement through Narrative and Gameplay Agency.

Author

Ng, Spencer, Lin, Ting-Han, Li, You, and Sebo, Sarah

Subjects
HUMAN-robot interaction, AUDIENCE response, AUDIENCE participation, PARTICIPATORY culture, ROLE playing
Abstract

Live entertainment is moving towards a greater participatory culture, with dynamic narratives told through audience interaction. Robot characters offer a unique opportunity to mitigate the challenges of creating personalized entertainment at scale. However, robots often cannot react to audience responses, limiting opportunities for audience participation. In this work, we explore methods to increase user agency in live entertainment experiences with robot characters to improve user engagement and enjoyment. In a between-subjects study (N=60), we create an immersive story where users role-play as detectives with two distinct robot characters. Users either (1) have greater involvement and self-identification in the story by talking with the robots in-character (narrative condition), (2) have a more active role in solving puzzles (gameplay condition), or (3) follow along without being prompted by the robots for input (control condition). Our results show that increasing user agency in a role-playing experience, in either its narrative or its gameplay, improves users' flow state, sense of autonomy and competence, verbal engagement, and perceptions of the robot characters' engagement. Increasing narrative agency also led to longer unprompted reactions from participants, while gameplay agency improved feelings of immersion and relatedness with the robots. These findings suggest that creating either narrative or gameplay agency can improve user engagement, which can extend to broader robot interactions where gameplay elements and role-playing in stories can be incorporated. [ABSTRACT FROM AUTHOR]

Published
2024
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38. Electrospun SnO 2 /WO 3 Heterostructure Nanocomposite Fiber for Enhanced Acetone Vapor Detection.

Author

Lin, Ting-Han, Chang, Yin-Hsuan, Hsieh, Ting-Hung, Huang, Yu-Ching, and Wu, Ming-Chung

Subjects
*ACETONE, *STANNIC oxide, *METHYL methacrylate, *VOLATILE organic compounds, *FIBERS, *VAPORS
Abstract

Volatile organic compounds (VOCs), often invisible but potentially harmful, are prevalent in industrial and laboratory settings, posing health risks. Detecting VOCs in real-time with high sensitivity and low detection limits is crucial for human health and safety. The optical sensor, utilizing the gasochromic properties of sensing materials, offers a promising way of achieving rapid responses in ambient environments. In this study, we investigated the heterostructure of SnO2/WO3 nanoparticles and employed it as the primary detection component. Using the electrospinning technique, we fabricated a sensing fiber containing Ag NPs, poly(methyl methacrylate) (PMMA), and SnO2/WO3 (PMMA-Ag-SnO2/WO3) for acetone vapor detection. Following activation via UV/ozone treatment, we observed charge migration between WO3 and SnO2, resulting in a substantial generation of superoxide radicals on SnO2 nanoparticles. This phenomenon facilitates structural deformation of the fiber and alters the oxidation state of tungsten ions, ultimately leading to a significant change in extinction when exposed to acetone vapor. As a result, PMMA-Ag-SnO2/WO3 fiber achieves a detection limit of 100 ppm and a response time of 1.0 min for acetone detection. These findings represent an advancement in the development of sensitive and selective VOC sensing devices. [ABSTRACT FROM AUTHOR]

Published
2023
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46. Submillisecond Laser Annealing Induced Surface and Subsurface Restructuring of Cu–Ni–Pd Trimetallic Nanocatalyst Promotes Thermal CO2 Reduction

Author

Bhalothia, Dinesh, primary, Hsiung, Wei-Hao, additional, Yang, Shou-Shiun, additional, Yan, Che, additional, Chen, Pei-Chi, additional, Lin, Ting-Han, additional, Wu, Shun-Chi, additional, Chen, Po-Chun, additional, Wang, Kuan-Wen, additional, Lin, Ming-Wei, additional, and Chen, Tsan-Yao, additional

Published
2021
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47. Photocatalytic activity of nitrogen-doped TiO2-based nanowires: a photo-assisted Kelvin probe force microscopy study

Author

Wu, Ming-Chung, Liao, Hsueh-Chung, Cho, Yu-Cheng, Hsu, Che-Pu, Lin, Ting-Han, Su, Wei-Fang, Sápi, András, Kukovecz, Ákos, Kónya, Zoltán, Shchukarev, Andrey, Sarkar, Anjana, Larsson, William, Mikkola, Jyri-Pekka, Mohl, Melinda, Tóth, Géza, Jantunen, Heli, Valtanen, Anna, Huuhtanen, Mika, Keiski, Riitta L., and Kordás, Krisztián

Published
2014
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