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161 results on '"Lee, Wonjong"'

1. Escaping Local Minima: Hybrid Artificial Potential Field with Wall-Follower for Decentralized Multi-Robot Navigation

Author

Kim, Joonkyung, Park, Sangjin, Lee, Wonjong, Kim, Woojun, Doh, Nakju, and Nam, Changjoo

Subjects
Computer Science - Robotics
Abstract

We tackle the challenges of decentralized multi-robot navigation in environments with nonconvex obstacles, where complete environmental knowledge is unavailable. While reactive methods like Artificial Potential Field (APF) offer simplicity and efficiency, they suffer from local minima, causing robots to become trapped due to their lack of global environmental awareness. Other existing solutions either rely on inter-robot communication, are limited to single-robot scenarios, or struggle to overcome nonconvex obstacles effectively. Our proposed methods enable collision-free navigation using only local sensor and state information without a map. By incorporating a wall-following (WF) behavior into the APF approach, our method allows robots to escape local minima, even in the presence of nonconvex and dynamic obstacles including other robots. We introduce two algorithms for switching between APF and WF: a rule-based system and an encoder network trained on expert demonstrations. Experimental results show that our approach achieves substantially higher success rates compared to state-of-the-art methods, highlighting its ability to overcome the limitations of local minima in complex environments, Comment: 7 pages, 7 figures

Published
2024

18. Correction to “Adjusted Bulk and Interfacial Properties in Highly Stable Semitransparent Perovskite Solar Cells Fabricated by Thermocompression Bonding between Perovskite Layers”

Author

Jung, Hee-Yun, primary, Oh, Eun Sung, additional, Kim, Dong Jun, additional, Shim, Hongjae, additional, Lee, Wonjong, additional, Yoon, Soon-Gil, additional, Lim, Jongchul, additional, Yun, Jae Sung, additional, Kim, Taek-Soo, additional, and Yang, Tae-Youl, additional

Published
2024
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25. Elucidating Interfacial Hole Extraction and Recombination Kinetics in Perovskite Thin Films.

Author

Kim, Sunkyu, Lee, Wonjong, Irshad, Zobia, Yun, Siwon, Han, Hyeji, Adnan, Muhammad, Chang, Hyo Sik, and Lim, Jongchul

Subjects
*THIN films, *PEROVSKITE, *INTERFACE dynamics, *TRANSPORT theory, *CONCENTRATION gradient, *CHARGE carrier mobility, *CHARGE density waves, *OPEN-circuit voltage
Abstract

Hybrid organic–inorganic perovskite solar cells (PSCs) are receiving huge attention owing to their marvelous advantages, such as low cost, high efficiency, and superior optoelectronics characteristics. Despite their promising potential, charge-carrier dynamics at the interfaces are still ambiguous, causing carrier recombination and hindering carrier transport, thus lowering the open-circuit voltages (Voc) of PSCs. To unveil this ambiguous phenomenon, we intensively performed various optoelectronic measurements to investigate the impact of interfacial charge-carrier dynamics of PSCs under various light intensities. This is because the charge density can exhibit different mobility and charge transport properties depending on the characteristics of the charge transport layers. We explored the influence of the hole transport layer (HTL) by investigating charge transport properties using photoluminescence (PL) and time-resolved (TRPL) to unveil interfacial recombination phenomena and optoelectronic characteristics. We specifically investigated the impact of various thicknesses of HTLs, such as 2,2′,7,7′-tetrakis[N,N-di(4-methoxyphenyl)amino]-9,9′-spirobifluorene (spiro-OMeTAD), and poly(triaryl)amine (PTAA), on FA0.83MA0.17Pb(Br0.05I0.95)3 perovskite films. The HTLs are coated on perovskite film by altering the HTL's concentration and using F4-TCNQ and 4-tert-butylpyridine (tBP) and lithium bis(trifluoromethanesulfonyl)imide (LiTFSi) as dopants both for spiro-OMeTAD and PTAA. These HTLs diversified the charge concentration gradients in the absorption layer, thus leading to different recombination rates based on the employed laser intensities. At the same time, the generated charge carriers are rapidly transferred to the interface of the HTL/absorption layer and accumulate holes at the interface because of inefficient capacitance and mobility differences caused by differently doped HTL thicknesses. Notably, the charge concentration gradient is low at lower light intensities and did not accumulate holes at the HTL/absorption layer interface, even though they have high charge mobility. Therefore, this study highlights the importance of interfacial charge recombination and charge transport phenomena to achieve highly efficient and stable PSCs. [ABSTRACT FROM AUTHOR]

Published
2024
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27. Exciton‐Scissoring Perfluoroarenes Trigger Photomultiplication in Full Color Organic Image Sensors (Adv. Mater. 45/2023)

Author

Kim, Juhee, primary, Kweon, Hyukmin, additional, Lee, Myeongjae, additional, Kang, Mingyun, additional, Lee, Sangjun, additional, An, Sanghyeok, additional, Lee, Wonjong, additional, Choi, Seokran, additional, Choi, Hanbin, additional, Seong, Yujin, additional, Ham, Hyobin, additional, Cha, Hyojung, additional, Lim, Jongchul, additional, Kim, Do Hwan, additional, Kim, BongSoo, additional, and Chung, Dae Sung, additional

Published
2023
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32. Organic Solvent Dispersible MXene Integrated Colloidal Quantum Dot Photovoltaics.

Author

You, Hyung Ryul, Lee, Seongeun, Lee, Duck Hoon, Murali, G., Nissimagoudar, Arun S., Kim, Younghoon, Park, Seongmin, Lee, Jihoon, Kim, Seon Joon, Park, Jin Young, Moon, Byung Joon, Park, Young Ho, Kim, Soo‐Kwan, Yu, Han Na, Kim, Hae Jeong, Lee, Wonjong, Ham, Gayoung, Lee, Hyeonji, Lee, Seung‐Cheol, and Cha, Hyojung

Subjects
SEMICONDUCTOR nanocrystals, PHOTOVOLTAIC power generation, ORGANIC solvents, SURFACE cracks, FERMI level
Abstract

Despite recent advances in colloidal quantum dot (CQD) photovoltaics, several challenges persist and hinder further improvements. In particular, the Fermi level mismatch between the iodide‐treated photoactive and thiol‐treated hole‐transporting CQD layers creates an unfavorable energy band for hole collection. Furthermore, the numerous surface cracks in the thiol‐treated CQD layer facilitate direct contact between the photoactive CQD layer and the metal electrode, consequently leading to reduced device performance. To address these issues, a polycatechol functionalized MXene (PCA‐MXene) that can serve both as a dopant and an interlayer for CQD photovoltaics is developed. By achieving a uniformly dispersed mixture in a butylamine solvent, PCA‐MXene enables the effective combination of MXene and CQDs. This results in the modification of the work function of CQDs and the modulation of the energy band alignment, ultimately promoting enhanced hole extraction. Moreover, the PCA‐MXene employed as an interlayer effectively covers the surface cracks present in the thiol‐treated CQD layer. This coverage inhibits both metal electrode penetration and moisture intrusion into the device. Owing to these advantages, the CQD photovoltaics incorporating PCA‐MXene achieve a power conversion efficiency (PCE) of 13.6%, accompanied by enhanced thermal stability, in comparison to the reference device with a PCE of 12.8%. [ABSTRACT FROM AUTHOR]

Published
2023
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34. Synergistic Contribution of Oligo(ethylene glycol) and Fluorine Substitution of Conjugated Polymer Photocatalysts toward Solar Driven Sacrificial Hydrogen Evolution

Author

An, Sanghyeok, primary, Wu, Ziang, additional, Jeong, Hayoung, additional, Lee, Juhyeok, additional, Jeong, Sang Young, additional, Lee, Wonjong, additional, Kim, Sunkyu, additional, Han, Jeong Woo, additional, Lim, Jongchul, additional, Cha, Hyojung, additional, Woo, Han Young, additional, and Chung, Dae Sung, additional

Published
2022
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43. Di-n-butyl phthalate disrupts neuron maturation in primary rat embryo neurons and male C57BL/6 mice.

Author

Lee, Seulah, Lee, Wonjong, Yang, Seonguk, Suh, Yeon Ji, Hong, Dong Geun, Chang, Seung-Cheol, Kim, Hyung Sik, and Lee, Jaewon

Subjects
*LABORATORY mice, *CENTRAL nervous system, *NEURONS, *PROGENITOR cells, *CELL cycle, *MICROTUBULES
Abstract

Di-n-butyl phthalate (DBP) is commonly used as a plasticizer and its usage continues to increase in conjunction with plastic consumption. DBP is readily released into air, drinking water, and soil, and unfortunately, is a potent endocrine disrupter that impairs central nervous system functions. Previously DBP was found to (1) arrest the cell cycle of C17.2 neural progenitor cells (NPCs) at the G1 phase, (2) reduce numbers of newly generated neural stem cells in the mouse hippocampus, and (3) adversely affect learning and memory. Other investigators also noted DBP-mediated neurotoxic effects, but as yet, no study has addressed the adverse effects of DBP on neuronal differentiation. Data demonstrated that at 200 μM DBP induced apoptosis in rat embryo primary neurons by increasing reactive oxygen species levels and inducing mitochondrial dysfunction. However, no significant effect was detected on neurons at concentrations of ≤100 μM. In contrast, doublecortin/microtubule associated protein-2 (DCX/MAP2) immunocytochemistry showed that DBP at 100 μM delayed neuronal maturation by increasing protein levels of DCX (an immature neuronal marker), without markedly affecting cell viability. Further in vivo studies confirmed that DCX+ cell numbers were significantly elevated in the hippocampus of DBP-treated mice, indicating that DBP delayed neuronal maturation, which is known to be associated with impaired memory retention. Data demonstrated that DBP might disrupt neuronal maturation, which is correlated with reduced neurocognitive functions. [ABSTRACT FROM AUTHOR]

Published
2022
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