Your search keyword '"Lee AT"' showing total 602,190 results

1. Lattice thermal conductivity and phonon transport properties of monolayer fluorographene.

Author

Han, Seungbin, Lee, Dongkyu, Lee, Sungwoo, Lee, Gun-Do, Lee, Sangyeop, and Jang, Hyejin

Subjects

*BOLTZMANN'S equation, *ACOUSTIC phonons, *ELECTRIC conductivity, *MIRROR symmetry, *ELECTRIC insulators & insulation

Abstract

Fluorographene, a fluorinated graphene-derivative, is expected to feature both high thermal conductivity and electrical insulation simultaneously, making it an emerging material for thermal management in electronic devices. In this paper, we investigated the lattice thermal conductivity and phonon transport properties of monolayer fluorographene using first-principles calculation. The solution of the fully linearized phonon Boltzmann transport equation gives the lattice thermal conductivity of monolayer fluorographene as 145.2 W m−1 K−1 at 300 K, which is about 20 times smaller than that of monolayer graphene. We systematically compared the phonon transport properties of all phonon modes in graphene and fluorographene in terms of phonon polarization. The significantly reduced thermal conductivity of fluorographene can be attributed to the lowering of both the lifetime of the flexural acoustic phonons and the group velocities of all acoustic phonons. We concluded that the broken in-plane mirror symmetry and the weaker in-plane chemical bonds induced by fluorination led to the suppression of the lattice thermal conductivity of fluorographene. Finally, we investigated the anomalously large contribution of optical phonons to the thermal transport process in fluorographene, where the large group velocities of selected optical phonons were derived from the in-plane acoustic modes of graphene. Our work provides a new approach to studying the influence of chemical functionalization on the phonon structure and exploring graphene-derived thermal management materials. [ABSTRACT FROM AUTHOR]

Published

2024

2. Magnetic domain study in Fe3GaTe2 ferromagnet with strong perpendicular anisotropy using magnetic force microscopy.

Author

Lee, Jungsub, Yun, Jinyoung, Lee, Yeonkyu, Tak Kang, Beom, Sung Kim, Jun, Haberkorn, Nestor, and Kim, Jeehoon

Subjects

*MAGNETIC domain, *EXCHANGE interactions (Magnetism), *MAGNETIC force microscopy, *PERPENDICULAR magnetic anisotropy, *CURIE temperature

Abstract

We investigate the magnetic domain behavior of bulk Fe 3 GaTe 2 , a van der Waals (vdW) ferromagnet characterized by a Curie temperature (T c) of 350–380 K and significant perpendicular magnetic anisotropy (PMA). Using magnetic force microscopy, we present the evolution of magnetic domains during cooling from T c to 300 K, and analyze magnetic domain images along the hysteresis loop at 4.2 K. Our observations reveal a strong temperature-dependent domain structure. From room temperature to T c , we observe the coexistence of stripe, bubble, and surface spike domains. In contrast, in the zero-field cooled state at 4.2 K, irregular stripe and enclosed ring domains predominate. The correlation between global and local magnetization suggests that the hysteretic behavior in the magnetization results from the rapid nucleation of a few stripe domains evolving into intricate dendritic patterns, a phenomenon not previously observed in other vdW systems. These findings highlight the delicate balance among interlayer exchange coupling, thermal fluctuations, and PMA in the formation of various domains in a 3D vdW system, where shape anisotropy is minimized. [ABSTRACT FROM AUTHOR]

Published

2024

3. Effect of probe structure on wave transmission spectra of microwave cutoff probe.

Author

Lee, Jae-Heon, Yeom, Hee-Jung, Chae, Gwang-Seok, Kim, Jung-Hyung, and Lee, Hyo-Chang

Subjects

*PLASMA density, *MEASUREMENT errors, *PLASMA frequencies, *FREQUENCY spectra, *MICROWAVES

Abstract

In this study, we examined the potential errors in plasma-density measurements using the cutoff probe method under various structural conditions, such as tip distance and length. Our studies indicate that under conditions of thin sheath thickness, the length or distance of the metal tips on the cutoff probe has a slight effect on the plasma transmission spectrum or cutoff frequency. However, under conditions with a notably thick sheath, the structure of the probe tip can cause an error of up to 2% between the measured cutoff frequency and actual plasma frequency. Consequently, for precise measurements of plasma density using the cutoff probe method, it is imperative to maintain a probe tip distance exceeding five times the sheath width and utilize a sufficiently long probe tip length. This finding is anticipated to provide essential guidelines for the design and fabrication of effective cutoff probes and enhance the accuracy of plasma-density measurements using a cutoff probe. [ABSTRACT FROM AUTHOR]

Published

2024

4. Commonly Used Indicators of Low Energy Availability Risk Fail to Identify Female Amateur Soccer Players With Measured Low Energy Availability During Preseason.

Author

Frazer, Rebekka, Bowler, Amy-Lee, Condo, Dominique, Cox, Gregory, Pelly, Fiona, and Slater, Gary

Subjects

*RISK assessment, *CROSS-sectional method, *GLUCOSE, *FOOD consumption, *BONE density, *RESEARCH funding, *FOOTBALL, *SCIENTIFIC observation, *QUESTIONNAIRES, *PHYSICAL training & conditioning, *DESCRIPTIVE statistics, *EATING disorders, *ENERGY metabolism, *AMATEUR athletes, *FOOD preferences, *GLYCEMIC index

Abstract

This study aimed to determine energy availability (EA) and within-day energy balance (WDEB) in female soccer players during preseason and also explored eating disorder risk and athlete food choice. We hypothesized commonly used indicators of low energy availability (LEA) risk would correlate with measured EA and WDEB variables, and that food choice determinants would differ according to EA. Eleven National Premier League female soccer players participated in this observational cross-sectional study over 3 weeks. Assessment of resting metabolic rate and physique traits, including bone mineral density, was conducted during Weeks 1 or 3. During Week 2, dietary intake, energy expenditure, and continuous monitor-derived glucose were measured for 5 days. EA was calculated daily and WDEB calculated hourly with deficits/surpluses carried continuously. Questionnaires were administered throughout the 3 weeks, including the Athlete Food Choice Questionnaire, the Eating Disorders Screen for Athletes, and the Low Energy Availability in Females Questionnaire. Resting metabolic rate ratio, bone mineral density, Low Energy Availability in Females Questionnaire, and Eating Disorders Screen for Athletes scores were used as indicators of LEA risk. EA averaged 30.7 ± 7.5 kcals·kg fat-free mass−1·day−1. Approximately one-third (36%) of athletes were at risk of an eating disorder, while approximately half (45%) were identified at risk of the female athlete triad via Low Energy Availability in Females Questionnaire, compared with approximately one-third (36%) of athletes identified with EA < 30 kcal·kg fat-free mass−1·day−1. No athlete achieved EA >45 kcal·kg fat-free mass−1·day−1, and no indicator of LEA risk was associated with calculated EA or WDEB. However, overnight glycemic variability was positively correlated with measured EA (r =.722, p =.012). [ABSTRACT FROM AUTHOR]

Published

2024

5. Temperature dependence of the low-frequency noise in AlGaN/GaN fin field effect transistors.

Author

Liu, T. K., Lee, H., Luo, X. Y., Zhang, E. X., Schrimpf, R. D., Rajan, S., and Fleetwood, D. M.

Subjects

*MODULATION-doped field-effect transistors, *FIELD-effect transistors, *NOISE measurement, *RADIATION tolerance, *SPECTRAL energy distribution

Abstract

Low-frequency (LF) noise measurements are compared for Schottky-gate AlGaN/GaN heterostructure planar and fin field-effect transistors (FinFETs) as functions of gate voltage and measuring temperature. The noise of each device type is consistent with a carrier number fluctuation model. Similar effective defect-energy Eo distributions are derived for each of the two device architectures from measurements of excess drain-voltage noise-power spectral density vs temperature from 80 to 380 K. Defect- and/or impurity-related peaks are observed in the inferred energy distributions for Eo < 0.2 eV, Eo ≈ 0.45 eV, and Eo > 0.6 eV. Significant contributions to the LF noise are inferred for nitrogen vacancies and ON and FeGa impurity complexes. Ga dangling bonds at fin interfaces with gate metal are likely candidates for enhanced noise observed in FinFETs, relative to planar devices. Reducing the concentrations of these defects and impurity complexes should reduce the LF noise and enhance the performance, reliability, and radiation tolerance of GaN-based high electron mobility transistors. [ABSTRACT FROM AUTHOR]

Published

2024

6. Managing Political Archives in University Libraries: From Principal-Agent Perspective.

Author

Lee, Pei-Chun

Subjects

*ACADEMIC libraries, *LIBRARY administration, *ARCHIVES collection management, *MANAGEMENT philosophy, *POLITICAL parties

Abstract

AbstractThis study investigates the management of political archives within university libraries, emphasizing their pivotal role in preserving historical records. Using the National Chengchi University (NCCU) Library in Taiwan as a case study, it explores the challenges and opportunities associated with managing the Kuomintang (KMT) political archives. The study employs principal-agent theory to analyze the dynamic between the governing political party (KMT) and the university library (NCCU), proposing a conceptual framework that delineates the roles, responsibilities, and relationships of the involved stakeholders. This approach provides valuable insights into the complexities of political archival management in university libraries, offering a deeper understanding of the unique dynamics within these institutions. [ABSTRACT FROM AUTHOR]

Published

2024

7. From Knowledge Management (KM) Theories to Practices: The Strategies to Implement Best Practices in Academic Libraries.

Author

Kathmann, Mackenzie and Lee, Yoo Young

Subjects

*CAREER development, *LIBRARIANS, *ACADEMIC libraries, *KNOWLEDGE management, *BEST practices

Abstract

The critical role of knowledge management (KM) is facilitating the smooth operation of academic libraries and fostering professional growth. While substantial research focuses on defining knowledge management, exploring its theoretical frameworks, and underscoring its relevance within academic library environments, there remains a paucity of empirical studies addressing the practical implementation and subsequent effects of KM practices. This article seeks to bridge the gap by delineating effective strategies for the adoption of KM best practices, alongside a reflective examination of the lessons learned during the process within a university library's IT department. [ABSTRACT FROM AUTHOR]

Published

2024

8. Combined Virtual-Reality- and Gym-Based Physical Activity Intervention for Children With a Developmental Disability: Effects on Physical Activity Levels, Motor Skills, and Social Skills.

Author

Lee, Hoo Kyung and Jin, Jooyeon

Subjects

*MOTOR ability, *CHILDREN with disabilities, *T-test (Statistics), *BODY mass index, *PHYSICAL fitness centers, *EXERCISE therapy, *STATISTICAL sampling, *FISHER exact test, *SOCIAL skills in children, *RANDOMIZED controlled trials, *DESCRIPTIVE statistics, *VIRTUAL reality, *DEVELOPMENTAL disabilities, *DATA analysis software, *PHYSICAL activity

Abstract

This study examined the effects of a combined virtual-reality- and gym-based physical activity (PA) program on PA levels, motor skills, and social skills of children with a developmental disability (DD). Twenty-five children with DD were randomly assigned to experimental and control groups. The intervention was conducted for 60 min, two times a week, for 12 weeks. Pre- and postintervention assessments encompassing PA levels measured via Gravity Estimator of Normal Everyday Activity, motor skills evaluated using the Test of Gross Motor Development-Third Edition, and social skills gauged via the Social Skills Rating System-Parent were conducted. Additionally, a follow-up assessment was administered to the experimental group 12 weeks postintervention. The findings unequivocally demonstrate that the combined virtual-reality- and gym-based PA program yielded significant enhancements in PA levels, motor skills, and social skills among children with DD in the experimental group. Notably, these improvements were sustained 12 weeks after the intervention. These findings may help professionals develop and implement better PA programs for children with DD. [ABSTRACT FROM AUTHOR]

Published

2024

9. Popularity Contest.

Author

Evans, Lee David

Subjects

*LEADERSHIP, *POLITICIANS

Published

2024

10. EURIPIDES' LOST PLAYS.

Author

Lee, Alexander

Subjects

*TRAGEDY (Drama), *KINGS & rulers, *DEAD, *FILICIDE, *SUICIDE

Abstract

The article reveals discoveries about portions of the two lost plays by Euripides, the tragedies "Ino" and "Polyidus." A background is provided on plays by Euripides that have survived such as "Rhesus" and "Andromeda." The fragments of discoveries include a discussion between King Minos and Polyidus about the morality of bringing a dead person back to life in"Polyidus" and Ino killing her own children and committing suicide in "Ino."

Published

2024

11. Party Foul.

Author

Drutman, Lee

Subjects

*COHERENCE (Philosophy)

Abstract

The article highlights the Democratic Party's deep-seated problems exposed during a tumultuous summer, culminating in President Biden's surprising withdrawal from the 2024 race. Topics include the Democratic Party's struggles with leadership and internal coherence, Biden's decision to endorse Kamala Harris as his successor, and a broader examination of the party's institutional weaknesses compared to the more personality-driven Republican Party.

Published

2024

12. Merging of TM-polarized bound states in the continuum in leaky-mode photonic lattices.

Author

Lee, Sun-Goo, Kim, Seong-Han, Suk Hong, Kee, and Lee, Wook-Jae

Subjects

*BOUND states, *FINITE element method, *OPTICAL devices, *MOMENTUM space, *OPTICAL spectra, *BAND gaps

Abstract

Optical eigenstates with a high quality (Q) factor provide substantial advantages for a broad spectrum of optical devices, particularly those demanding strong light–matter interactions. Recently, it has been demonstrated that ultrahigh- Q resonances can be realized in planar photonic structures by merging multiple bound states in the continuum (BICs) in the momentum space. Photonic lattices with thin-film geometry are known to support abundant TE-polarized and TM-polarized BICs. While prior research has explored the merging of TE-polarized BICs, this paper presents analytical and numerical results concerning the merging of TM-polarized BICs in laterally periodic one-dimensional photonic lattices. As the thickness of photonic lattices increases, TM-polarized accidental BICs descend along the dispersion curves and eventually merge at the upper edge of the second stop band. Employing coupled-mode analysis, we calculate the analytical merging thickness at which multiple TM-polarized BICs come together at the second-order Γ point. We confirm the merging of TM-polarized BICs through finite-element method simulations. Our results can be beneficial for achieving ultrahigh- Q resonances through the merging of BICs. [ABSTRACT FROM AUTHOR]

Published

2024

13. Supporting Youth Mental Health through Co-designing a Virtual Reality Experience: A Recipe-Based Co-design Model.

Author

Lee, Jin Ha, Björling, Elin, McLean, Ryan, Moreno, Anna, and Lee, Kung Jin

Subjects

*VIRTUAL reality, *PUBLIC libraries, *YOUTH health, *PARTICIPATORY design, *MENTAL health, *LIBRARY personnel

Abstract

There is a need for librarians to find ways to provide service to the youth population regarding mental health. Building on prior research about co-design and virtual reality in public libraries, the research team aimed to create a positive teen mental health experience by co-designing a virtual reality space through the library system. Eight librarians/library staff representing three participating sites were interviewed at the beginning and the end of the project. We discuss various opportunities and difficulties that emerged in this project to better understand the role and perspective of librarians and then examine implications for those who are considering implementing similar youth programs at their institutions. On the basis of the findings, we propose a recipe-based co-design model to better support librarians by allowing flexibility while clarifying which core elements need to be preserved in the co-design process. [ABSTRACT FROM AUTHOR]

Published

2024

14. Segmental dynamics of polystyrene near polymer–polymer interfaces.

Author

Lee, Jeongin, Lee, Soohyun, Lee, Keonchang, Joung, Hyeyoung, Choi, Seung Kun, Kim, Myungwoong, Yang, Jaesung, and Paeng, Keewook

Subjects

*GLASS transition temperature, *SELECTIVITY (Psychology), *GLASS transitions, *FLUORESCENCE microscopy, *POLYMERS

Abstract

This study investigated the segmental dynamics of polymers near polymer–polymer interfaces by probing the rotation of polymer-tethered fluorescent molecules using imaging rotational fluorescence correlation microscopy. Multilayered films were utilized to provide spatial selectivity relative to different polymer–polymer interfaces. In the experimental setup, for the overlayer polymer, polystyrene (PS) was employed and a 15 nm-thick probe-containing layer was placed ≈25 nm apart from different underlayer polymers with glass transition temperatures (Tg) either lower or higher than that of PS. The underlayer of poly-n-butyl methacrylate had 72 K lower Tg than that of PS, whereas polymethyl methacrylate and polysulfone had 22 and 81 K higher Tg, respectively, than that of PS. Two key dynamic features of the glass transition, the non-Arrhenius temperature dependence and stretched relaxation, were examined to study the influence of soft and hard confinements on the segmental dynamics of the overlayer polymer near the polymer–polymer interfaces. Although complications exist in the probing location owing to the diffusion of the polymer-tethered probe during the annealing protocol to consolidate the multilayers, the results suggest that either the segmental dynamics of the polymer near the polymer–polymer interface do not change owing to the soft and hard confinements or the interfacial perturbation is very short ranged. [ABSTRACT FROM AUTHOR]

Published

2024

15. The Effects of Augmenting Balance Training with Stroboscopic Goggles on Postural Control in Chronic Ankle Instability Patients: A Critically Appraised Topic.

Author

Mohess, Joshua S., Lee, Hyunwook, Uzlaşir, Serkan, and Wikstrom, Erik A.

Subjects

*PHYSICAL therapy, *THERAPEUTICS, *SPORTS, *EYE protection, *SENSORIMOTOR integration, *CINAHL database, *INFORMATION storage & retrieval systems, *DESCRIPTIVE statistics, *SYSTEMATIC reviews, *MEDLINE, *MEDICAL databases, *ANKLE joint, *ONLINE information services, *QUALITY assurance, *JOINT instability, *POSTURAL balance

Abstract

Clinical Scenario: Individuals with chronic ankle instability (CAI) typically complete balance training protocols to improve postural control and reduce recurrent injury risk. However, the presence of CAI persists after traditional balance training protocols suggesting that such programs may be missing elements that could be beneficial to patients. Visual occlusion modalities, such as stroboscopic goggles, may be able to augment balance training exercises to further enhance postural control gains in those with CAI. However, a cumulative review of the existing evidence has yet to be conducted. Focused Clinical Question: Does wearing stroboscopic goggles during balance training result in greater improvements to postural control than balance training alone in those with CAI? Summary of Key Findings: All 3 studies indicated that the stroboscopic goggles group had statistically significant improvements in either a measure of static or dynamic postural control relative to the standard balance training group. However, significant improvements were not consistent across all postural control outcomes assessed in the included studies. Clinical Bottom Line: Postural control may improve more in those with CAI when stroboscopic goggles were worn while completing balance training exercises relative to completing balance training exercises alone. Strength of Recommendation: Overall, consistent moderate- to high-quality evidence was present in the 3 studies, suggesting grade C evidence for the use of stroboscopic goggles during balance training in those with CAI. [ABSTRACT FROM AUTHOR]

Published

2024

16. Unusual dynamics of tetrahedral liquids caused by the competition between dynamic heterogeneity and structural heterogeneity.

Author

Lee, Shao-Chun and Z, Y

Abstract

Tetrahedral liquids exhibit intriguing thermodynamic and transport properties because of the various ways tetrahedra can be packed and connected. Recently, an unusual temperature dependence of the stretching exponent β in a model tetrahedral liquid ZnCl2 from Tm + 85 K to Tm + 35 K has been reported using neutron-spin echo spectroscopy. This discovery stands in sharp contrast to other glass-forming liquids. In this study, we conducted neural network force field driven molecular dynamic simulations of ZnCl2. We found a non-monotonic temperature dependence of β from liquid to supercooled liquid temperatures. Further structural decomposition and dynamic analysis suggest that this unusual dynamic behavior is a result of the competition between the decrease in the diversity of tetrahedra motifs (structural heterogeneity) and the increase in glassy dynamic heterogeneity. This result may contribute to new understandings of the structural relaxation of other network liquids. [ABSTRACT FROM AUTHOR]

Published

2024

17. Correcting implicit solvation at metal/water interfaces through the incorporation of competitive water adsorption.

Author

Lee, Kwanpyung and Schmidt, J. R.

Abstract

Conventional continuum solvation models are ubiquitous in computational catalysis, including for describing metal/water interfaces, which are relevant to both solution-phase heterogeneous catalysis and electrocatalysis. Nonetheless, we find that such continuum models qualitatively fail to describe both the adsorption free energy and conformational preference for many organic molecules at such interfaces, largely due to the failure of continuum models to incorporate the role of competitive water adsorption. We develop a simple phenomenological model that accounts for competitive water adsorption and show that the model, when used in conjunction with continuum solvation, provides a dramatic improvement in the description of both adsorption and conformational preference. The model is also extended to additionally incorporate the influence of applied potential at the electrode surface, thus facilitating computationally efficient applications to scenarios including electrocatalysis. [ABSTRACT FROM AUTHOR]

Published

2024

18. Theory and mitigation of motional eddy current in high-field eddy current shielding.

Author

Lee, Seung-Kyun and Hua, Yihe

Subjects

*MAGNETIC resonance imaging, *EDDIES, *MAGNETIC shielding, *NOISE, *SURFACE plates

Abstract

Eddy current shielding by a Faraday cage is an effective way to shield alternating-current magnetic fields in scientific instrumentation. In a strong static magnetic field, however, the eddy current in the conductive shield is subject to the Lorentz force, which causes the shield to vibrate. In addition to mechanical issues (e.g., acoustic noise), such vibration induces motional eddy current in the shield that can dominate the original, electromagnetic eddy current to undermine the conductor's shielding capability. In this work, we investigate a method to control motional eddy current by making cut-out patterns in the conductor that follow the electromagnetic eddy current image. This effectively limits the surface current of the plate to a single mode and prevents the proliferation of uncontrolled motion-induced surface currents that disrupts eddy current shielding. After developing a comprehensive theory of magneto-mechanical interaction in a conductive plate, the proposed method was tested on a flat-geometry testbed experiment inside a 3 T magnetic resonance imaging (MRI) magnet. It was found that the magnetic field generated by the motional eddy current was much more localized in space and frequency for a patterned-copper shield compared to a solid copper. The magnetic field of the patterned shield could be accurately predicted from the impedance measurement in the magnet. Implications of our results for improved shielding of gradient fields in high-field MRI are discussed. [ABSTRACT FROM AUTHOR]

Published

2024

19. Improvement of volatile switching in scaled silicon nanofin memristor for high performance and efficient reservoir computing.

Author

Ju, Dongyeol, Lee, Jungwoo, Kim, Sungjun, and Cho, Seongjae

Subjects

*ARTIFICIAL neural networks, *SCANNING transmission electron microscopy, *RANDOM access memory, *HIGH performance computing, *DATABASES, *SILICON

Abstract

Conductive-bridge random access memory can be used as a physical reservoir for temporal learning in reservoir computing owing to its volatile nature. Herein, a scaled Cu/HfOx/n+-Si memristor was fabricated and characterized for reservoir computing. The scaled, silicon nanofin bottom electrode formation is verified by scanning electron and transmission electron microscopy. The scaled device shows better cycle-to-cycle switching variability characteristics compared with those of large-sized cells. In addition, synaptic characteristics such as conductance changes due to pulses, paired-pulse facilitation, and excitatory postsynaptic currents are confirmed in the scaled memristor. High-pattern accuracy is demonstrated by deep neural networks applied in neuromorphic systems in conjunction with the use of the Modified National Institute of Standards and Technology database. Furthermore, a reservoir computing system is introduced with six different states attained by adjusting the amplitude of the input pulse. Finally, high-performance and efficient volatile reservoir computing in the scaled device is demonstrated by conductance control and system-level reservoir computing simulations. [ABSTRACT FROM AUTHOR]

Published

2024

20. Reading When Stressed: Understanding Motivations for Reading Fiction and Enhancing Future Recommendation Services.

Author

Cho, Hyerim, Lee, Wan-Chen, Huang, Li-Min, and Urban, Alex

Subjects

*READING comprehension, *READING motivation, *READING, *COVID-19 pandemic, *INTERNET surveys, *EXPECTATION (Psychology)

Abstract

This study investigated fiction readers' motivations for reading, their relevant needs regarding the fiction attributes, and their expectations for future fiction recommendation services. Seventy-six participants shared their fiction search and reading experiences through an open-ended, free-writing-style online survey. Findings show that readers' motivations (a sense of connection, comfort and safety, diverse selection, escapism, coping with stressful circumstances) and corresponding fiction elements (e.g., author's background information, themes, mood) were closely related to the situations or contexts that readers experienced, especially so for stress stemming from the COVID-19 pandemic. [ABSTRACT FROM AUTHOR]

Published

2024

21. On the thermodynamic stability of polycations.

Author

Tikhonov, Denis S., Lee, Jason W. L., and Schnell, Melanie

Subjects

*ELECTRON affinity, *IONIZATION energy, *MOLECULAR size, *PHASE diagrams, *ANNULENES, *CATIONIC polymers

Abstract

We present a simple approximation to estimate the largest charge that a given molecule can hold until fragmentation into smaller charged species becomes more energetically favorable. This approximation solely relies on the ionization potentials, electron affinities of the parent and fragment species, and also on the neutral parent's dissociation energy. By parameterizing these quantities, it is possible to obtain analytical phase diagrams of polycationic stability. We demonstrate the applicability of this approach by discussing the maximal charge dependence on the size of the molecular system. A numerical demonstration for linear polyenes, monocyclic annulenes, and helium clusters is provided. [ABSTRACT FROM AUTHOR]

Published

2024

22. Machine learning-assisted thermoelectric cooling for on-demand multi-hotspot thermal management.

Author

Luo, Jiajian and Lee, Jaeho

Subjects

*THERMOELECTRIC cooling, *CONVOLUTIONAL neural networks, *OPTIMIZATION algorithms, *PELTIER effect, *TEMPERATURE control, *ASSIGNMENT problems (Programming)

Abstract

Thermoelectric coolers (TECs) offer a promising solution for direct cooling of local hotspots and active thermal management in advanced electronic systems. However, TECs present significant trade-offs among spatial cooling, heating, and power consumption. The optimization of TECs requires extensive simulations, which are impractical for managing actual systems with multiple hotspots under spatial and temporal variations. In this study, we present a novel machine learning-assisted optimization algorithm for thermoelectric coolers that can achieve global optimal temperature by individually controlling TEC units based on real-time multi-hotspot conditions across the entire domain. We train a convolutional neural network with a combination of the inception module and multi-task learning approach to comprehend the coupled thermal-electrical physics underlying the system and attain accurate predictions for both temperature and power consumption with and without TECs. Due to the intricate interaction among passive thermal gradient, Peltier effect and Joule effect, a local optimal TEC control experiences spatial temperature trade-off which may not lead to a global optimal solution. To address this issue, we develop a backtracking-based optimization algorithm using the machine learning model to iterate all possible TEC assignments for attaining global optimal solutions. For any m × n matrix with NHS hotspots (n, m ≤ 10, 1 ≤ NHS ≤ 20), our algorithm is capable of providing 52.4% peak temperature reduction and its corresponding TEC array control within an average of 1.64 s while iterating through tens of temperature predictions behind-the-scenes. This represents a speed increase of over three orders of magnitude compared to traditional finite element method strategies which take approximately 27 min. [ABSTRACT FROM AUTHOR]

Published

2024

23. Striations in a radio frequency hydrogen discharge tube: Optical emission plasma diagnostics and Raman analysis of in situ graphite probes.

Author

Lee, Szetsen and Peng, Jr-Wei

Subjects

*HYDROGEN plasmas, *PLASMA diagnostics, *RADIO frequency, *EMISSION spectroscopy, *OPTICAL spectroscopy, *RAMAN spectroscopy, *SEQUENCE spaces, *GRAPHITE

Abstract

Standing striations with a unique pattern have been observed in a radio-frequency-generated hydrogen plasma. The striation pattern consists of a sequence of closely spaced bright ring doublets and two types of dark gaps of different widths. The bright and dark regions in striations were spectroscopically resolved with the Balmer series and the Fulcher band emission lines of hydrogen. Temperatures in these fine structures were determined. In general, the wider dark gap has a higher excitation temperature than the nearby narrower ones in the striation pattern sequence. Bright regions are rotationally hotter than the adjacent dark ones. However, for vibrational temperatures, the trends are not so obvious. No clear pressure dependence of temperatures was observed in striations within the pressure range of maintaining stable standing striations in this work. In addition to optical emission spectroscopy, we used graphite granules as in situ probes for plasma conditions in different striation regions. The striated hydrogen plasma-treated graphite granules were analyzed with Raman spectroscopy. The observed hydrogen-graphite interaction was correlated with the measured temperatures and the fine structures of striations in a discharge tube. [ABSTRACT FROM AUTHOR]

Published

2024

24. Low-loss vanadium dioxide-enabled mmWave tunable reflective electromagnetic surface with complementary unit cells for wave manipulation.

Author

Ramsey, J. A., Lee, S. Y., Disharoon, W. R., West, D. L., and Ghalichechian, N.

Subjects

*UNIT cell, *PIN diodes, *BEAM steering, *PHASE change materials, *VANADIUM, *ELECTROMAGNETIC wave absorption, *SUBMILLIMETER waves

Abstract

This study presents a novel implementation of vanadium dioxide (VO2) phase change material in an electromagnetic (EM) surface with beam steering capabilities. For the first time, we present the design, fabrication, and measurement of a globally actuated, VO2-based beamforming reflective EM surface. We propose a design featuring complementary unit cells that enable beam steering with a single excitation, marking a pioneering use of low-loss VO2 in creating a complementary EM surface for the mmWave band. The unit cells incorporating VO2 exhibit low-loss characteristics, with −0.92 and −1.9 dB in the hot state and −0.49 and −0.25 dB in the cold state, respectively. We incorporate both positive and negative phase variants alongside two temperature-independent phase unit cells. The complementary design enables us to utilize two beam operating states, effectively exploiting the otherwise unused cold state. We experimentally demonstrated beamforming at ±5° and ±10° from the broadside. In the case of ±10°, the measured gains at 35 GHz in the cold and hot states were 19.4 and 20.3 dB, respectively, which aligned well with the simulated gains of 20.9 and 21.5 dB. Manipulation of the electromagnetic wave direction with a single excitation has the potential for imaging, sensing, and communication applications. The complementary unit cell design methodology can be further adapted for mmWave beamforming, absorbing, and cloaking reconfigurable EM surfaces. Furthermore, the use of VO2 can be extended up to sub-THz frequencies due to the wideband, low-loss characteristics compared with conventional reconfigurable devices, such as PIN diodes or MEMS switches. [ABSTRACT FROM AUTHOR]

Published

2024

25. A Small Clue Made of Fragmented Pieces.

Author

Lee, Minhyung, Min, Jinyoung, Lee, Junyeong, Kwak, Chanhee, and Choi, Hanbyeol Stella

Subjects

*ONLINE comments, *ANONYMITY, *INTERNET content moderation, *FREEDOM of speech, *COURTESY

Abstract

This article discusses the need for moderation of online comments to facilitate civil engagement in the digital world while permitting healthy discussion and sharing of diverse perspectives. Online discourse often deviates from its potential for deliberative democracy due to the prevalence of uncivil comments, exacerbated by anonymity. To counter this, the article discusses several approaches used to limit uncivil online comments including human control, algorithmic control and environmental control. However, none of these methods has successfully mitigated the problem without impeding free speech. Since anonymity can also breed uncivil behavior, the implementation of an online comment-history disclosure system that encourages digital citizenship while maintaining anonymity is outlined.

Published

2024

26. Multifunctional HfAlO thin film: Ferroelectric tunnel junction and resistive random access memory.

Author

Park, Yongjin, Lee, Jong-Ho, Lee, Jung-Kyu, and Kim, Sungjun

Subjects

*NONVOLATILE random-access memory, *FERROELECTRIC thin films, *RANDOM access memory, *PATTERN recognition systems, *PINK noise, *DIELECTRIC films

Abstract

This study presents findings indicating that the ferroelectric tunnel junction (FTJ) or resistive random-access memory (RRAM) in one cell can be intentionally selected depending on the application. The HfAlO film annealed at 700 °C shows stable FTJ characteristics and can be converted into RRAM by forming a conductive filament inside the same cell, that is, the process of intentionally forming a conductive filament is the result of defect generation and redistribution, and applying compliance current prior to a hard breakdown event of the dielectric film enables subsequent RRAM operation. The converted RRAM demonstrated good memory performance. Through current–voltage fitting, it was confirmed that the two resistance states of the FTJ and RRAM had different transport mechanisms. In the RRAM, the 1/f noise power of the high-resistance state (HRS) was about ten times higher than that of the low-resistance state (LRS). This is because the noise components increase due to the additional current paths in the HRS. The 1/f noise power according to resistance states in the FTJ was exactly the opposite result from the case of the RRAM. This is because the noise component due to the Poole–Frenkel emission is added to the noise component due to the tunneling current in the LRS. In addition, we confirmed the potentiation and depression characteristics of the two devices and further evaluated the accuracy of pattern recognition through a simulation by considering a dataset from the Modified National Institute of Standards and Technology. [ABSTRACT FROM AUTHOR]

Published

2024

27. Role of a cyclopentadienyl ligand in a heteroleptic alkoxide precursor in atomic layer deposition.

Author

Yoon, Hwi, Lee, Yujin, Lee, Ga Yeon, Seo, Seunggi, Park, Bo Keun, Chung, Taek-Mo, Oh, Il-Kwon, and Kim, Hyungjun

Subjects

*ATOMIC layer deposition, *ELIMINATION reactions, *SURFACE reactions, *HAFNIUM

Abstract

Alkoxide precursors have been highlighted for depositing carbon-free films, but their use in Atomic Layer Deposition (ALD) often exhibits a non-saturated growth. This indicates no self-limiting growth due to the chain reaction of hydrolysis or ligand decomposition caused by β-hydride elimination. In the previous study, we demonstrated that self-limiting growth of ALD can be achieved using our newly developed precursor, hafnium cyclopentadienyl tris(N-ethoxy-2,2-dimethyl propanamido) [HfCp(edpa)3]. To elucidate the growth mechanism and the role of cyclopentadienyl (Cp) ligand in a heteroleptic alkoxide precursor, herein, we compare homoleptic and heteroleptic Hf precursors consisting of N-ethoxy-2,2-dimethyl propanamido (edpa) ligands with and without cyclopentadienyl ligand—hafnium tetrakis(N-ethoxy-2,2-dimethyl propanamido) [Hf(edpa)4] and HfCp(edpa)3. We also investigate the role of a Cp ligand in growth characteristics. By substituting an alkoxide ligand with a Cp ligand, we could modify the surface reaction during ALD, preventing undesired reactions. The last remaining edpa after Hf(edpa)4 adsorption can undergo a hydride elimination reaction, resulting in surface O–H generation. In contrast, Cp remains after the HfCp(edpa)3 adsorption. Accordingly, we observe proper ALD growth with self-limiting properties. Thus, a comparative study of different ligands of the precursors can provide critical clues to the design of alkoxide precursors for obtaining typical ALD growth with a saturation behavior. [ABSTRACT FROM AUTHOR]

Published

2024

28. KING JOHN'S LOST TREASURE.

Author

Lee, Alexander

Subjects

*GOLD jewelry, *SILVER jewelry, *GEMS & precious stones, *REGALIA (Insignia), *KINGS & rulers

Abstract

The article investigates what happened to the lost treasure of King John of England on the road to war in Washington in 1216 that have brought about his demise. Information is provided about the golden and silver jewels and other precious items such as goblets, crosses, vessels and phylacteries as well as the royal regalia owned by King John, and the theory that the king's baggage train ran afoul and swept by tide, or trapped in mud as it travelled in different routes.

Published

2024

29. mSAIL: Milligram-Scale Multi-Modal Sensor Platform for Monarch Butterfly Migration Tracking.

Author

Lee, Inhee, Hsiao, Roger, Carichner, Gordy, Hsu, Chin-Wei, Yang, Mingyu, Shoouri, Sara, Ernst, Katherine, Carichner, Tess, Li, Yuyang, Lim, Jaechan, Julick, Cole R., Moon, Eunseong, Sun, Yi, Phillips, Jamie, Montooth, Kristi L., Green II, Delbert A., Kim, Hun-Seok, and Blaauw, David

Subjects

*MONARCH butterfly, *BUTTERFLY migration, *DETECTORS, *INSECT marking, *WIRELESS communications, *ENERGY harvesting, *DATA management

Abstract

This article focuses on mSAIL, a milligram-scale multi-modal sensor platform, for migration tracking of Monarch butterflies. The article discusses how the platform works including a focus on its ability to achieve small form factor integration, its energy autonomous operation, how it achieves wireless RF communication, and the data management capabilities of the system.

Published

2024

30. THE LOST ALTARPIECE.

Author

Lee, Alexander

Subjects

*ART criticism, *INVESTIGATIONS, *THEFT, *RANSOM, *ALTARPIECES

Published

2024

31. ANTHROPOGENIC EVOLUTION.

Author

DUGATKIN, LEE ALAN

Subjects

*BIOLOGICAL evolution, *ANIMAL behavior, *URBAN animals, *FOREST animals, *NEST building, *BROWN bear, *BABY birds, *GIRAFFES, *HUMPBACK whale

Abstract

This article explores the concept of anthropogenic evolution, which refers to the evolutionary changes in species caused by human activities. It discusses how alterations to the environment, such as increased carbon dioxide emissions and urbanization, can lead to mismatches between animals and their surroundings. These mismatches can affect animal behavior, genetics, and survival. The article provides examples of various animal species, including lizards, blackbirds, mice, parrots, mynas, and whales, to illustrate the impact of urbanization, artificial lighting, deforestation, and noise pollution on their lives. It emphasizes the importance of understanding and mitigating the consequences of human actions on the environment and the need for further research in this area. [Extracted from the article]

Published

2024

32. 3C-SiC phononic waveguide for manipulating mechanical wave propagation.

Author

Lee, Jaesung, Wang, Yanan, Zorman, Christian A., and Feng, Philip X.-L.

Subjects

*PHONONIC crystals, *GROUP velocity, *MECHANICAL models, *SIGNAL processing, *THEORY of wave motion, *RESONATORS, *WAVEGUIDES

Abstract

We present experimental demonstration and modeling of mechanical wave propagation in a quasi-one-dimensional (quasi-1D) phononic crystal (PnC) waveguide (WG) constructed from a periodic array of single-crystal cubic-silicon carbide (3C-SiC) coupled micromechanical resonators, with an exceptional dynamic range exceeding 92 dB. The PnC design comprises 50 periodic cells, enabling the propagation of flexural mechanical waves in high-frequency and very-high-frequency bands, featuring a broad PnC bandgap spanning approximately 24–27.5 MHz. Furthermore, the 3C-SiC PnC WG exhibits excellent characteristics, including a high group velocity of 350 m/s and a low transmission loss of 0.69 dB/mm, enabling efficient guidance and support for mechanical waves across extended distances before reaching the noise level of the device. These attributes of the PnC WG, as demonstrated in this study, may open possibilities for the development of device platforms with applications in on-chip signal processing, sensing, and quantum transducer technologies. [ABSTRACT FROM AUTHOR]

Published

2024

33. Computational study of a helium-propellant microwave electrothermal thruster.

Author

Lee, Juyeon and Raja, Laxminarayan L.

Subjects

*PROPELLANTS, *GAS flow, *COLD gases, *ELECTROMAGNETIC coupling, *PLASMA density, *MICROWAVES, *GLOW discharges

Abstract

The microwave electrothermal thruster (MET) utilizes wave-exited microdischarges to heat gas flows, enhancing the specific impulse of the thruster. Our computational study investigates a 17.5 GHz helium-propellant MET, employing a two-dimensional, axisymmetric fluid model of plasma coupled with electromagnetic wave and gas flows. The discharges operate in the glow regime, remaining weakly ionized, and in thermal non-equilibrium. The plasma densities reach approximately 10 20 m − 3 , and the gas temperature is around 2000 K. Even a slight off-resonant frequency operation results in a significantly lower plasma density and gas temperature. Gas heating, primarily driven by electromagnetic Joule heating, plays a critical role in influencing the overall discharge behavior. The measured peak thrust and specific impulse are 8.24 mN and 292 s, respectively, at a mass flow rate of 3.2 mg/s with 30 W of power. Compared to a cold gas thruster, there is a significant increase in the specific impulse by a factor of approximately 1.7. The enhanced performance trades off with propulsive efficiency, which decreases by a factor of 1.5 from the peak 65% at 10 W. This is due to higher energy losses to cavity walls from heat conduction with increased power. These findings underscore the critical balance between the input power and mass flow rate to improve the MET performance, highlighting the importance of power management to maximize thrust and efficiency. Furthermore, the predicted thrust and specific impulse agree well with experimental values for nominally similar MET thruster studies in the literature. [ABSTRACT FROM AUTHOR]

Published

2024

34. Classification of complex local environments in systems of particle shapes through shape symmetry-encoded data augmentation.

Author

Lee, Shih-Kuang, Tsai, Sun-Ting, and Glotzer, Sharon C.

Subjects

*DATA augmentation, *MACHINE learning, *CLASSIFICATION, *GEOMETRIC shapes, *INSTRUCTIONAL systems

Abstract

Detecting and analyzing the local environment is crucial for investigating the dynamical processes of crystal nucleation and shape colloidal particle self-assembly. Recent developments in machine learning provide a promising avenue for better order parameters in complex systems that are challenging to study using traditional approaches. However, the application of machine learning to self-assembly on systems of particle shapes is still underexplored. To address this gap, we propose a simple, physics-agnostic, yet powerful approach that involves training a multilayer perceptron (MLP) as a local environment classifier for systems of particle shapes, using input features such as particle distances and orientations. Our MLP classifier is trained in a supervised manner with a shape symmetry-encoded data augmentation technique without the need for any conventional roto-translations invariant symmetry functions. We evaluate the performance of our classifiers on four different scenarios involving self-assembly of cubic structures, two-dimensional and three-dimensional patchy particle shape systems, hexagonal bipyramids with varying aspect ratios, and truncated shapes with different degrees of truncation. The proposed training process and data augmentation technique are both straightforward and flexible, enabling easy application of the classifier to other processes involving particle orientations. Our work thus presents a valuable tool for investigating self-assembly processes on systems of particle shapes, with potential applications in structure identification of any particle-based or molecular system where orientations can be defined. [ABSTRACT FROM AUTHOR]

Published

2024

35. Formulation of transition dipole gradients for non-adiabatic dynamics with polaritonic states.

Author

Lee, In Seong, Filatov, Michael, and Min, Seung Kyu

Subjects

*MOLECULAR magnetic moments, *JAYNES-Cummings model, *EXCITED states, *DIPOLE moments, *DOUBLE bonds, *TORSION

Abstract

A general formulation of the strong coupling between photons confined in a cavity and molecular electronic states is developed for the state-interaction state-average spin-restricted ensemble-referenced Kohn–Sham method. The light–matter interaction is included in the Jaynes–Cummings model, which requires the derivation and implementation of the analytical derivatives of the transition dipole moments between the molecular electronic states. The developed formalism is tested in the simulations of the nonadiabatic dynamics in the polaritonic states resulting from the strong coupling between the cavity photon mode and the ground and excited states of the penta-2,4-dieniminium cation, also known as PSB3. Comparison with the field-free simulations of the excited-state decay dynamics in PSB3 reveals that the light–matter coupling can considerably alter the decay dynamics by increasing the excited state lifetime and hindering photochemically induced torsion about the C=C double bonds of PSB3. The necessity of obtaining analytical transition dipole gradients for the accurate propagation of the dynamics is underlined. [ABSTRACT FROM AUTHOR]

Published

2024

36. Defect control strategies for Al1−xGdxN alloys.

Author

Lee, Cheng-Wei, Din, Naseem Ud, Yazawa, Keisuke, Nemeth, William, Smaha, Rebecca W., Haegel, Nancy M., and Gorai, Prashun

Subjects

*POINT defects, *DENSITY functional theory, *THIN films, *GADOLINIUM

Abstract

Tetrahedrally bonded III-N and related alloys are useful for a wide range of applications from optoelectronics to dielectric electromechanics. Heterostructural AlN-based alloys offer unique properties for piezoelectrics, ferroelectrics, and other emerging applications. Atomic-scale point defects and impurities can strongly affect the functional properties of materials, and therefore, it is crucial to understand the nature of these defects and the mechanisms through which their concentrations may be controlled in AlN-based alloys. In this study, we employ density functional theory with alloy modeling and point defect calculations to investigate native point defects and unintentional impurities in Al 1 − x Gd x N alloys. Among the native defects that introduce deep midgap states, nitrogen vacancies (V N ) are predicted to be in the highest concentration, especially under N-poor growth conditions. We predict and experimentally demonstrate that V N formation can be suppressed in thin films through growth in N-rich environments. We also find that Al 1 − x Gd x N alloys are prone to high levels of unintentional O incorporation, which indirectly leads to even higher concentrations of deep defects. Growth under N-rich/reducing conditions is predicted to minimize and partially alleviate the effects of O incorporation. The results of this study provide valuable insights into the defect behavior in wurtzite nitride-based alloys, which can guide their design and optimization for various applications. [ABSTRACT FROM AUTHOR]

Published

2024

37. Emulating biological synaptic characteristics of HfOx/AlN-based 3D vertical resistive memory for neuromorphic systems.

Author

Kim, Juri, Lee, Subaek, Seo, Yeongkyo, and Kim, Sungjun

Subjects

*NEUROPLASTICITY, *MEMRISTORS, *SYNAPSES

Abstract

Here, we demonstrate double-layer 3D vertical resistive random-access memory with a hole-type structure embedding Pt/HfOx/AlN/TiN memory cells, conduct analog resistive switching, and examine the potential of memristors for use in neuromorphic systems. The electrical characteristics, including resistive switching, retention, and endurance, of each layer are also obtained. Additionally, we investigate various synaptic characteristics, such as spike-timing dependent plasticity, spike-amplitude dependent plasticity, spike-rate dependent plasticity, spike-duration dependent plasticity, and spike-number dependent plasticity. This synapse emulation holds great potential for neuromorphic computing applications. Furthermore, potentiation and depression are manifested through identical pulses based on DC resistive switching. The pattern recognition rates within the neural network are evaluated, and based on the conductance changing linearly with incremental pulses, we achieve a pattern recognition accuracy of over 95%. Finally, the device's stability and synapse characteristics exhibit excellent potential for use in neuromorphic systems. [ABSTRACT FROM AUTHOR]

Published

2024

38. Interpretation of autoencoder-learned collective variables using Morse–Smale complex and sublevelset persistent homology: An application on molecular trajectories.

Author

Lee, Shao-Chun and Z, Y

Abstract

Dimensionality reduction often serves as the first step toward a minimalist understanding of physical systems as well as the accelerated simulations of them. In particular, neural network-based nonlinear dimensionality reduction methods, such as autoencoders, have shown promising outcomes in uncovering collective variables (CVs). However, the physical meaning of these CVs remains largely elusive. In this work, we constructed a framework that (1) determines the optimal number of CVs needed to capture the essential molecular motions using an ensemble of hierarchical autoencoders and (2) provides topology-based interpretations to the autoencoder-learned CVs with Morse–Smale complex and sublevelset persistent homology. This approach was exemplified using a series of n-alkanes and can be regarded as a general, explainable nonlinear dimensionality reduction method. [ABSTRACT FROM AUTHOR]

Published

2024

39. Lithography-free tailoring of thin-film nanomorphology for enhanced real-time refractive-index sensing with tunable resonance peaks in the visible spectrum.

Author

Lee, Dohyeon, Yang, Younghwan, and Rho, Junsuk

Subjects

*REFRACTIVE index, *VISIBLE spectra, *STRUCTURAL colors, *RESONANCE, *ENVIRONMENTAL monitoring

Abstract

The precise detection of target substances through refractive-index sensing is essential in various fields such as environmental monitoring, food assessment, and optical applications. This study demonstrates a real-time refractive index sensor based on a liquid-infiltrated metal-insulator-metal island (MIMi) structure in a lithography-free manner. In the MIMi structure, the top layer of the metal islands is formed through solid-state dewetting, which serves as an etching mask to form nanopillars in the insulator layer. This allows for the infiltration of external substances, resulting in different structural colors depending on the refractive index. This design results in a redshift of the resonance peak as the infiltrated refractive index increases. Furthermore, by adjusting the area fraction of the metal-island layer and etching depth of the insulator layer, the resonance-peak position can be controlled within the visible range according to the target refractive index. The advantages of our design are the use of cost-effective materials and the ability to implement scalable fabrication. Our proposed method offers a convenient method to sense the target refractive index in real time. [ABSTRACT FROM AUTHOR]

Published

2024

40. To do or not to do: Pyongyang's seventh nuclear test calculations.

Author

Lee, Rachel Minyoung

Subjects

*INTERNATIONAL relations, *PRACTICAL politics, *BUSHINGS, *NUCLEAR weapons testing

Abstract

A nuclear test often is as political as it is technical. The intricacies of domestic and external politics play into Pyongyang's decisions on nuclear testing, going far beyond the technical aspects of such tests. This article explores the repercussions of the second North Korea-US summit in Hanoi in 2019 across all policy realms in North Korea and how domestic and external factors could inform and shape Kim Jong-un's decision on a seventh nuclear test. In order to delve into what to look out for in 2024 and beyond, this article focuses on Pyongyang's approach to the civilian economy as opposed to national defense and the reorientation of its foreign and South Korea policies as potential key indicators of Kim's thinking on nuclear testing. [ABSTRACT FROM AUTHOR]

Published

2024

41. Who’s Afraid of AI?

Author

Lee, Benjamin Charles Germain

Subjects

*GENERATIVE artificial intelligence, *ELECTIONS, *POLITICAL integration, *LEGISLATORS, *MISINFORMATION

Abstract

The article focuses on the significant concerns surrounding the impact of generative artificial intelligence on the electoral process, emphasizing fears of misinformation and manipulation in the lead-up to the 2024 elections. It highlights the widespread discourse around AI's potential to disrupt political integrity, illustrated by examples of AI-generated content that misled voters, as well as the responses from tech companies and lawmakers attempting to regulate its use.

Published

2024

42. Phase-sensitive analysis of a two-color infrared photodetector using photoreflectance spectroscopy.

Author

Zeinalvand Farzin, Behnam, Lee, DongKun, Kang, Tae In, Kim, Jong Su, Kim, Geun Hyeong, Lee, Sang Jun, and Kim, Yeongho

Subjects

*PHOTODETECTORS, *PHASE diagrams, *SPECTROMETRY, *INDIUM gallium arsenide

Abstract

The phase diagrams of photoreflectance spectra were investigated for an InGaAs two-color infrared photodetector. The diagrams for a high excitation intensity revealed that the spectrum is multi-component. The origin of these components was investigated, and the photoreflectance spectra and phase diagrams were also measured for an angle-polished version at different depths. With the help of the polished sample, the variation of the phase delay angles and the trapping time constants was tracked for different depths. Additionally, the polished version enables us to find a confirmation for the origins of the multi-component nature of the whole phase diagram. It can be concluded that when the phase delays or time constants of various components are very close, more attention should be paid to interfering with the phase-sensitive investigations of layered materials. As a main result, the consistency of the phase delay with interface trap densities was confirmed qualitatively. Using a reciprocal space map of the sample, this result can be a piece of experimental evidence for a correlation between the photoreflectance time constant and trap densities in the junctions. This non-contact method enables the characterization of layered devices, offering a valuable tool for achieving high-performance devices. [ABSTRACT FROM AUTHOR]

Published

2023

43. Uncovering gene expression signatures and diagnostic – Biomarkers in hepatocellular carcinoma through multinomial logistic regression analysis.

Author

Park, Ilkyu, Lee, Hyo-Bin, Kim, Nakyoung, Lee, Sugi, Park, Kunhyang, Son, Mi-Young, Cho, Hyun-Soo, and Kim, Dae-Soo

Subjects

*TUMOR classification, *CELL cycle, *CHROMOSOME segregation, *LOGISTIC regression analysis, *TUMOR grading

Abstract

Hepatocellular carcinoma (HCC) is one of the leading causes of cancer death worldwide, and classifying the developmental stages of HCC can help with early prognosis and treatment. This study aimed to investigate diagnostic and prognostic molecular signatures underlying the progression of HCC, including tumor initiation and growth, and to classify its developmental stages based on gene expression levels. We integrated data from two cancer systems, including 78 patients with Edmondson-Steiner (ES) grade and 417 patients with TNM stage cancer. Functional profiling was performed using identified signatures. Using a multinomial logistic regression model (MLR), we classified controls, early-stage HCC, and advanced-stage HCC. The model was validated in three independent cohorts comprising 45 patients (neoplastic stage), 394 patients (ES grade), and 466 patients (TNM stage). Multivariate Cox regression was employed for HCC prognosis prediction. We identified 35 genes with gradual upregulation or downregulation in both ES grade and TNM stage patients during HCC progression. These genes are involved in cell division, chromosome segregation, and mitotic cytokinesis, promoting tumor cell proliferation through the mitotic cell cycle. The MLR model accurately differentiated controls, early-stage HCC, and advanced-stage HCC across multiple cancer systems, which was further validated in various independent cohorts. Survival analysis revealed a subset of five genes from TNM stage (HR: 3.27, p < 0.0001) and three genes from ES grade (HR: 7.56, p < 0.0001) that showed significant association with HCC prognosis. The identified molecular signature not only initiates tumorigenesis but also promotes HCC development. It has the potential to improve clinical diagnosis, prognosis, and therapeutic interventions for HCC. This study enhances our understanding of HCC progression and provides valuable insights for precision medicine approaches. • 35 genes gradually regulate in HCC progression in both cancer stage and grade. • These molecular signatures enhance cell proliferation via impact on the mitotic cycle. • Using MLR model, 10 genes accurately classify HCC stages across cancer systems. • Statistically significant subsets of genes emerge as prognostic markers for HCC. [ABSTRACT FROM AUTHOR]

Published

2024

44. Double-edged effects of electrolyte additive on interfacial stability in fast-charging lithium-ion batteries.

Author

Hyuntae Lee, Junyoung Doh, Soyeon Lee, Dohyun Sung, Hang Kim, Sujong Chae, and Hongkyung Lee

Abstract

Essential, but not too much--Roles of electrolyte additive (FEC) in Li+ solvation structures and interfacial reactions are revealed in a high-concentration electrolyte. While excessive FEC addition can intervene in original Li+ solvation, compromising interfacial kinetics, minimal FEC is essential in fast-charging applications to seamlessly facilitate Li+ desolvation while reinforcing interfacial stability. [ABSTRACT FROM AUTHOR]

Published

2024

45. Integrated Genome-Wide Analysis of DNA Methylation and Gene Expression in the Hippocampi of 5xFAD Alzheimer's Disease Mouse Model.

Author

Sueun Lee, Hae-June Lee, Jin Mi Chun, Bokyung Jung, Jaebum Kim, Changjong Moon, Chul Kim, and Joong-Sun Kim

Subjects

*DNA analysis, *RNA sequencing, *GENE expression, *ALZHEIMER'S disease, *RECOGNITION (Psychology)

Abstract

Background: DNA methylation forms 5-methylcytosine and its regulation in the hippocampus is critical for learning and memory. Indeed, dysregulation of DNA methylation is associated with neurological diseases. Alzheimer's disease (AD) is the predominant of dementia and a neurodegenerative disorder. Methods: We examined the learning and memory function in 3- and 9-month-old wild-type and 5xfamiliar Alzheimer's disease (5xFAD) transgenic mice by performing the object recognition memory and Y-maze tests, and identified the hippocampal amyloid beta burden. To investigate the epigenetically regulated genes involved in the development or neuropathology of AD, we performed genome-wide DNA methylation sequencing and RNA sequencing analyses in the hippocampus of 9-month-old wild-type and 5xFAD tg mice. To validate the genes inversely regulated by epigenetics, we confirmed their methylation status and mRNA levels. Results: At 9 months of age, 5xFAD tg mice showed significant cognitive impairment and amyloid-beta plaques in the hippocampus. DNA methylation sequencing identified a total of 13,777 differentially methylated regions, including 4484 of hyper- and 9293 of hypomethylated regions, that are associated with several gene ontology (GO) terms including 'nervous system development' and 'axon guidance'. In RNA sequencing analysis, we confirmed a total of 101 differentially expressed genes, including 52 up- and 49 downregulated genes, associated with GO functions such as 'positive regulation of synaptic transmission, glutamatergic' and 'actin filament organization'. Through further integrated analysis of DNA methylation and RNA sequencing, three epigenetically regulated genes were selected: thymus cell antigen 1, theta (Thy1), myosin VI (Myo6), and filamin A-interacting protein 1-like (Filip1l). The methylation level of Thy1 decreased and its mRNA levels increased, whereas that of Myo6 and Filip1l increased and their mRNA levels decreased. The common functions of these three genes may be associated with the neural cytoskeleton and synaptic plasticity. Conclusions: We suggest that the candidate genes epigenetically play a role in AD-associated neuropathology (i.e., amyloid-beta plaques) and memory deficit by influencing neural structure and synaptic plasticity. Furthermore, counteracting dysregulated epigenetic changes may delay or ameliorate AD onset or symptoms. [ABSTRACT FROM AUTHOR]

Published

2024

46. Lateral Electronic Junction of a Single Ultrathin Silicon Induced by Interfacial Dipole of Self‐Assembled Monolayer.

Author

Han, Junghyup, Lee, Won Hyung, Park, Junwoo, Jin, Huding, Cho, Yong Hyun, Yu, Seungyeon, Li, Lianghui, Lee, Jaewon, Woo, Gunhoo, Kim, Taesung, and Kim, Youn Sang

Abstract

Interface engineering is pivotal for enhancing the performance and stability of devices with layered structures, including solar cells, electronic devices, and electrochemical systems. Incorporating the interfacial dipole between the bulk layers effectively modulates the energy level difference at the interface and does not significantly influence adjacent layers overall. However, interfaces can drastically affect adjoining layers in ultrathin devices, which are essential for next‐generation electronics with high integrity, excellent performance, and low power consumption. In particular, the interfacial effect is pronounced in ultrathin semiconductors, which have a weak electric field screening effect. Herein, the substantial interfacial impact on the ultrathin silicon is shown, the p‐ to n‐type inversion of the semiconductor solely through the deposition of a self‐assembled monolayer (SAM) without external bias. The effects of SAMs with different interfacial dipoles are investigated by using Hall measurement and surface analytic techniques, such as UPS, XPS, and KPFM. Furthermore, the lateral electronic junction of the ultrathin silicon is engineered by the regioselective deposition of SAMs with opposite dipoles, and the device exhibits rectification behavior. When the interfacial dipole of SAM is manipulated, the rectification ratio changes sensitively, and thus the fabricated diode shows potential to be developed as a sensing platform. [ABSTRACT FROM AUTHOR]

Published

2024

47. Effect of remimazolam on oxygen reserve compared with propofol during upper gastrointestinal endoscopy: Randomized controlled study.

Author

Lee, Kyuho, Jung, Da Hyun, Lee, Sung Jin, Yoo, Young Chul, and Shin, Sung Kwan

Abstract

Objectives Methods Results Conclusion Propofol is commonly used for endoscopic sedation. However, it can induce adverse hemodynamic effects. Remimazolam is known to have a fast onset and short duration comparable to that of propofol, but with fewer effects on hemodynamics. We assessed the Oxygen Reserve Index to verify whether a sedative dose of remimazolam would better preserve oxygenation in the mild hyperoxic range than propofol in sedated patients undergoing diagnostic upper gastrointestinal endoscopy.Patients scheduled for diagnostic upper gastrointestinal endoscopy were enrolled. Patients were randomly assigned to either the remimazolam or propofol groups and received 0.1 mg/kg remimazolam or 0.5 mg/kg propofol, respectively. Bolus injections of either 0.05 mg/kg remimazolam or 0.25 mg/kg propofol were added if required. The primary outcome was the prevalence of oxygen reserve depletion, defined as the Oxygen Reserve Index decreasing to 0.00, and hypoxia defined as peripheral oxygen saturation falling to <94%.Among 69 patients, the incidence of oxygen reserve depletion was significantly higher in the propofol group (65.7% vs. 38.2%, P = 0.022). Hypoxia was frequently observed in the propofol group, whereas none was observed in the remimazolam group (11.4% vs. 0%, P = 0.042). Additional sedative injections were frequently required to complete endoscopy in the propofol group. None of the patients in the remimazolam group required airway interventions. Nausea was frequent in the propofol group in the recovery room.Our results indicate that remimazolam is a safe and useful sedative for upper gastrointestinal endoscopy. [ABSTRACT FROM AUTHOR]

Published

2024

48. Global Incidence and Prevalence of Chronic Rhinosinusitis: A Systematic Review.

Author

Min, Hye Kyu, Lee, Sooji, Kim, Soeun, Son, Yejun, Park, Jaeyu, Kim, Hyeon Jin, Lee, Jinseok, Lee, Hayeon, Smith, Lee, Rahmati, Masoud, Kang, Jiseung, Papadopoulos, Nikolaos G., Cho, Seong H., Hahn, Jong Woo, and Yon, Dong Keon

Abstract

ABSTRACT Objective Design Data Sources Eligibility Criteria for Selection Results Conclusions Systematic Review Registration Data on the global prevalence of chronic rhinosinusitis (CRS) is significantly varied and limited across countries and over time. Therefore, we aimed to conduct a comprehensive investigation into the global, regional, and national burden of CRS from the years 1980 to 2021, as well as identify those factors that influence levels of such burden.We conducted a systematic review and meta‐analysis of general population‐based observational studies focusing on CRS. We calculated pooled estimates of CRS prevalence and incidence with 95% confidence intervals (CIs). Subgroup analyses were conducted stratifying by sex, age cohorts, geographic regions, smoking status, obesity, and comorbid conditions.PubMed/MEDLINE, EMBASE, CINAHL, Google Scholar, and Cochrane databases.We included general population‐based observational studies on CRS published from database inception through October 20, 2023.A total of 28 eligible studies, encompassing more than 237 million participants and 11,342,923 patients with CRS from 20 countries across four continents, were included in the analysis. Global pooled prevalence of CRS and CRS with nasal polyps (CRSwNP) was found to be 8.71% (95% CI, 6.69–11.33; number of studies, 20) and 0.65% (95% CI, 0.56–0.75; number of studies, 4), respectively. The prevalence of CRS was greater in Europe compared with North America, South America, and Asia; adults compared with children; smokers compared with never‐smoker; those with obesity compared with normal weight; and those with comorbidities such as asthma, diabetes mellitus, eczema, and nasal septal deviation. Pooled prevalence of CRS increased from 1980 to 2020 (1980–2000: 4.72%; 95% CI, 2.12–10.49; 2014–2020: 19.40%; 95% CI, 12.12–31.07). Similar patterns were observed in CRS incidence.Our study provides valuable insights into CRS prevalence and incidence across diverse demographic and clinical factors, highlighting its increasing global burden. The reported prevalence of CRS varies internationally, and may be increasing over time. To enhance data quality and comparability, standardization of reporting methodologies is imperative.PROSPERO (registration no. CRD42024527805). [ABSTRACT FROM AUTHOR]

Published

2024

49. Epoxy composites produced via sodium alginate‐mediated Ca crosslinking of MXene and boron nitride fillers with excellent thermal conductivity and electromagnetic interference shielding effectiveness.

Author

Lee, Jaekyung, Lee, Wondu, Kim, Jihoon, Kim, Munho, and Kim, Jooheon

Abstract

Highlights This study investigates novel polymer composites for enhanced thermal conductivity and electromagnetic interference (EMI) shielding. By incorporating sodium alginate‐mediated Ca crosslinked MXene and boron nitride fillers into an epoxy matrix, the composites exhibit significantly improved thermal, electrical, and mechanical properties. Surface treatment enhanced filler dispersion and interfacial bonding by introducing hydroxyl groups, which improve compatibility between the fillers and the matrix, thereby reducing agglomeration and creating robust thermal and electrical conduction networks. Hot‐pressing method further increases composite density by eliminating internal voids and aligning the fillers more effectively, resulting in superior characteristics. The best performing hot‐pressed composite achieved a through‐plane thermal conductivity of 7.45 W/m K, excellent EMI shielding effectiveness of 58.3 dB, along with a tensile strength of 37.2 MPa and an elongation as high as 3.8%. These enhancements make the composites highly suitable for advanced electronic devices where efficient heat dissipation and EMI shielding are critical. Surface treatment improves filler dispersion and compatibility. High‐filler composites are fabricated by hot‐pressing method. MX‐CA‐BN/EPH composites achieve 7.45 W/m K thermal conductivity. Enhanced EMI shielding effectiveness of 58.3 dB. [ABSTRACT FROM AUTHOR]

Published

2024

50. The “Hedgehog‐Halo Sign” Is Associated with Gait Symptom Severity and Tap Response in Normal Pressure Hydrocephalus.

Author

Ha, Jongmok, Lee, Suin, Kim, Seongmi, Lee, Jun Seok, Ahn, Jong Hyeon, Cho, Jin Whan, Fasano, Alfonso, and Youn, Jinyoung

Abstract

Background Objectives Methods Results Conclusions Reduced cerebrospinal fluid (CSF) clearance may play a vital role in the pathogenesis of normal pressure hydrocephalus (NPH), but the radiologic marker is yet to be elucidated.This open‐label study presents two novel neuroimaging biomarkers based on enlarged perivascular spaces (ePVS) of the sub‐insular territory: the Hedgehog and Hedgehog‐Halo (H‐H) sign, designed to predict gait symptom severity and tap response in NPH.We retrospectively reviewed 203 patients with possible NPH with baseline magnetic resonance imaging and gait analyses before and after lumbar puncture (LP). The Hedgehog/H‐H sign was scored using T2‐weighted images. The clinical severity at baseline and post‐tap gait improvement was compared in patients with and without Hedgehog/H‐H sign. The association between Hedgehog/H‐H sign and post‐tap gait outcomes was assessed using multivariate regression. The diagnostic performance of Hedgehog/H‐H sign was compared with conventional radiological markers.Patients with H‐H showed higher global disability and more severe gait impairment than those without any signs. Following LP, patients with Hedgehog/H‐H sign significantly improved in various gait parameters, unlike those with neither sign. Additionally, sub‐insular ePVS was significantly associated with post‐tap gait improvement after adjusting covariates. Finally, the Hedgehog/H‐H sign showed a higher performance than conventional markers in predicting post‐tap gait response.The Hedgehog/H‐H sign is a useful neuroimaging biomarker related to the severity and tap response in NPH. This biomarker can be readily applied in clinical practice before undergoing LP, independent of conventional radiological signs. Further research is warranted to determine applicability in predicting post‐shunt gait response. [ABSTRACT FROM AUTHOR]

Published

2024