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| WoS | SCOPUS | Document Type | Document Title | Abstract | Authors | Affiliation | ResearcherID (WoS) | AuthorsID (SCOPUS) | Author Email(s) | Journal Name | JCR Abbreviation | ISSN | eISSN | Volume | Issue | WoS Edition | WoS Category | JCR Year | IF | JCR (%) | FWCI | FWCI Update Date | WoS Citation | SCOPUS Citation | Keywords (WoS) | KeywordsPlus (WoS) | Keywords (SCOPUS) | KeywordsPlus (SCOPUS) | Language | Publication Stage | Publication Year | Publication Date | DOI | JCR Link | DOI Link | WOS Link | SCOPUS Link |
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| ○ | ○ | Article | Synthesis, In Vitro, and In Silico studies of imide derivatives of phthalic anhydride as potential antimicrobial agents | This study reports the synthesis and assessment of a series of imide derivatives of phthalic anhydride (phthalimides) for their potential antimicrobial activities. Phthalic acid was first converted into phthalic anhydride using acetic anhydride, which was then reacted with various L-amino acids to obtain phthalimides in high yields. Compounds HUPB, HUPC, HUPF, and HUPH exhibited promising antimicrobial activity, with HUPF and HUPH being the most potent. HUPF exhibited significant antimicrobial activity, showing inhibition zones of 24 mm versus Staphylococcus aureus (at 2000 mu g/mL), 17 mm versus Escherichia coli (at 2000 mu g/mL), and 18 mm against Candida albicans (at 1000 mu g/mL). The minimum inhibitory concentrations (MICs) were 16 mu g/mL, 24 mu g/mL, and 24 mu g/mL for S. aureus, E. coli, and C. albicans, respectively. HUPH demonstrated strong antimicrobial activity, exhibiting inhibition zones of 23 mm versus S. aureus, 19 mm versus E. coli, and 20 mm versus C. albicans, with corresponding MICs of 20 mu g/mL, 28 mu g/mL, and 20 mu g/mL, respectively. Molecular docking reinforced these results, demonstrating effective bindings for HUPF and HUPH, suggesting their potential as antimicrobial agents. Both compounds adhered to Lipinski's Rule of Five, signifying decent oral bioavailability, gastrointestinal absorption (>= 0.55), and no PAINS (pan-assay interference compounds) alerts. Density functional theory (DFT) calculations revealed that HUPF and HUPH possess narrow HOMO-LUMO energy gaps and elevated dipole moments, indicating high chemical reactivity, and strong polarity, which further support their enhanced antimicrobial potential. These results highlight the therapeutic potential of the two compounds for further development as novel antimicrobial agents. | Khan, Sher Wali; Rashid, Haroon ur; Nayab, Saira; Husna; Khan, Momin; Rasheed, Lubna | Rawalpindi Women Univ, Dept Chem, Rawalpindi, Pakistan; Shaheed Benazir Bhutto Univ, Dept Chem, Sheringal 18150, Dir Upper, Pakistan; Univ Fed Pelotas, Ctr Chem Pharmaceut & Food Sci, Pelotas, RS, Brazil; Kyungpook Natl Univ, Dept Chem, Daegu 41566, South Korea; Kyungpook Natl Univ, Green Nano Mat Res Ctr, Daegu 41566, South Korea; Khyber Med Univ Peshawar, Inst Pathol & Diag Med IPDM, Peshawar, Pakistan | 55509048900; 7102095351; 36490286400; 59953438400; 35484504700; 15036786800 | haroongold@gmail.com; | COMPUTATIONAL BIOLOGY AND CHEMISTRY | COMPUT BIOL CHEM | 1476-9271 | 1476-928X | 119 | SCIE | COMPUTER SCIENCE, INTERDISCIPLINARY APPLICATIONS;BIOLOGY | 2024 | 3.1 | 23.8 | 0 | 0 | Phthalimide; Antibacterial Activity; Antifungal Activity; Molecular Docking; Pharmacokinetics; Toxicity | DRUG DISCOVERY; MOLECULAR DOCKING; CYCLIC IMIDES; SURFACE-AREA; SOLUBILITY; PREDICTION | Antibacterial Activity; Antifungal Activity; Molecular Docking; Pharmacokinetics; Phthalimide; Toxicity | Amino acids; Antifungal agents; Biochemistry; Escherichia coli; Microwave integrated circuits; Molecular modeling; Staphylococcus aureus; Anti-bacterial activity; Anti-microbial activity; Antifungal activities; Imide derivatives; Inhibition zones; Minimum inhibitory concentration; Molecular docking; Phthalic anhydrides; Phthalimide; S. aureus; Density functional theory | English | 2025 | 2025-12 | 10.1016/j.compbiolchem.2025.108565 | 바로가기 | 바로가기 | 바로가기 | 바로가기 | |||||
| ○ | ○ | Article | Evaluation of Glutathione T2 in the Human Brain Using J-Difference MRS at 3 T: Multicenter Multivendor Study | The need to quantify brain glutathione (GSH) accurately by J-difference spectroscopy has stimulated assessment of the TE effects on GSH edited signals at the popular field strength 3 T. We performed multiple-TE J-difference MRS at two sites to evaluate the GSH T2 relaxation and TE dependence of the GSH signal resolution. Two 10-ms spectrally selective Gaussian editing RF pulses were implemented in 3 T MEGA-PRESS sequences at two sites having different vendors. The sequences were optimized, with numerical and phantom analyses, for editing of the GSH 2.95 ppm resonance. The timings of the editing pulses within the sequences were tailored for high-amplitude GSH signal production for a TE range of 58-160 ms. In vivo human brain data were collected at five TEs (58, 70, 88, 116, and 150 ms) from five subjects at each site. Following LCModel analysis of difference and edit-off spectra independently between the sites, metabolite T2 values were estimated with mono-exponential regression of the signal estimates. Simulations and phantom data indicated that the MEGA-edited GSH peak amplitude was progressively larger with increasing TE up to 125-140 ms and the maximum amplitude was 2- to 2.5-fold greater than the amplitude at TE of 58 ms. For in vivo data, the edited GSH peak was the largest at TE of 88 ms among the five TEs. Brain GSH T2 was measured as 88 +/- 11 ms from 10 subjects, with no significant difference between the sites. The LCModel-returned correlation coefficient between GSH and co-edited N-acetylaspartate (NAA) multiplet was significantly smaller at short TEs than at long TEs. Our data suggest that MEGA-edited GSH signal undergoes extensive attenuation with increasing TE due to the fast T2 relaxation, and the edited GSH signal can be well resolved at short TEs with small interferences from adjacent co-edited NAA multiplet. | Choi, Grace; Kim, Seungho; Noeske, Ralph; Moore, Jason E.; Lee, Gang Ho; Kim, Jihyun; Newton, Allen T.; Robison, Ryan K.; Chang, Yongmin; Choi, Changho | Vanderbilt Univ, Inst Imaging Sci, Med Ctr, Nashville, TN USA; Kyungpook Natl Univ, Inst Biomed Engn Res, Daegu, South Korea; GE Healthcare, Munich, Germany; Kyungpook Natl Univ, Dept Chem, Daegu, South Korea; Kyungpook Natl Univ, Dept Chem Educ, Daegu, South Korea; Vanderbilt Univ, Dept Radiol & Radiol Sci, Med Ctr, Nashville, TN USA; Philips, Nashville, TN USA; Kyungpook Natl Univ, Sch Med, Dept Mol Med, Daegu, South Korea; Kyungpook Natl Univ Hosp, Dept Radiol, Daegu, South Korea; Vanderbilt Univ, Dept Psychiat & Behav Sci, Med Ctr, Nashville, TN USA | Robison, Ryan/CAH-5467-2022 | 59504234000; 57218284791; 8666816700; 57225856836; 7404851841; 56954528100; 7201391829; 36081104700; 7501840633; 55070978500 | ychang@knu.ac.kr; changho.choi@vumc.org; | NMR IN BIOMEDICINE | NMR BIOMED | 0952-3480 | 1099-1492 | 38 | 2 | SCIE | BIOPHYSICS;RADIOLOGY, NUCLEAR MEDICINE & MEDICAL IMAGING;SPECTROSCOPY | 2024 | 2.7 | 23.9 | 0 | 2025-05-07 | 0 | 0 | 3 T; glutathione; human brain; J-difference MRS (MEGA); T2 relaxation | MAGNETIC-RESONANCE-SPECTROSCOPY; RELAXATION-TIMES; QUANTIFICATION; WATER; METABOLITES; GLUTAMATE; PRESS; TESLA; 4T | 3 T; glutathione; human brain; J-difference MRS (MEGA); T<sub>2</sub> relaxation | Adult; Brain; Female; Glutathione; Humans; Magnetic Resonance Spectroscopy; Male; Phantoms, Imaging; Brain; Nuclear magnetic resonance; Nuclear magnetic resonance spectroscopy; glutathione; n acetylaspartic acid; glutathione; 3 T; Difference spectroscopy; Gluthathione; Human brain; In-vivo; J-difference MRS (MEGA); LCModel; Multi-vendor; N-acetylaspartate; T2 relaxation; adult; Article; brain level; controlled study; correlation coefficient; female; human; human experiment; in vivo study; male; neuroimaging; normal human; nuclear magnetic resonance imaging; proton nuclear magnetic resonance; simulation; brain; clinical trial; diagnostic imaging; imaging phantom; metabolism; multicenter study; nuclear magnetic resonance spectroscopy; Phantoms | English | 2025 | 2025-02 | 10.1002/nbm.5313 | 바로가기 | 바로가기 | 바로가기 | 바로가기 | |
| ○ | ○ | Article | Extremely Softened Polyimides with Long, Branched Alkyl Side Chains: Shape Memory Characteristics and Anticounterfeiting Application | Here, a polyimide with a reactive carboxyl side group on a relatively flexible main chain was manufactured as a parent polymer, and then a long, branched alkyl chain was introduced to the side group via Steglich esterification to obtain a significantly softened polymer. The longer the introduced alkyl chain, the more remarkable the plasticization effect was, and the glass transition was observed at approximately 103 degrees C, 165 degrees C lower than that of the parent polymer. Introducing a long, branched alkyl side chain also lowered the polymer's elastic modulus and tensile strength to 0.79 GPa and 28.1 MPa, respectively. This polymer could easily deform at a temperature slightly higher than the glass transition temperature, and the deformed shape was stably maintained when cooled to room temperature. When the temperature was raised again to around the glass transition temperature, it instantly restored to its original shape, exhibiting typical shape memory characteristics. The paper coated with this polymer did not tear easily and was not wetted easily with water. Moreover, this coated paper was easily debossed owing to the polymer's intrinsic softness. The debossed image served as a watermark and was readily erased by heating because of the shape memory characteristics. The soft polyimide is expected to be adopted as a coating material to prevent counterfeiting in the production of security documents or paper currency. | Lee, Jineun; Kwak, Giseop | Kyungpook Natl Univ, Dept Polymer Sci & Engn, Polymer Nanomat Lab, Daegu 702701, South Korea | 57226333374; 17137322300 | gkwak@knu.ac.kr; | ACS APPLIED POLYMER MATERIALS | ACS APPL POLYM MATER | 2637-6105 | 7 | 11 | SCIE | MATERIALS SCIENCE, MULTIDISCIPLINARY;POLYMER SCIENCE | 2024 | 4.7 | 23.9 | 0 | 2025-06-11 | 0 | 0 | polyimides; softening; alkyl side chain; shape memory; anticounterfeiting | HIGH-TEMPERATURE-RESISTANT; LIQUID; ACTUATORS; COLORLESS; AEROGEL; PACKING | alkyl side chain; anticounterfeiting; polyimides; shape memory; softening | Chains; Characteristics; Glass Transition Temperature; Paper; Shape; Sides; Softening; Tear Strength; Alkyl chain; Alkyl side chains; Anti-counterfeiting; Glass transition temperature Tg; Main chains; Parent polymers; Shape memory characteristics; Shape-memory; Side groups; Softening | English | 2025 | 2025-05-30 | 10.1021/acsapm.5c01168 | 바로가기 | 바로가기 | 바로가기 | 바로가기 | |||
| ○ | Article | Polymer-iron oxide nanofiber composites for lead removal: performance improvements through organic acid stabilization of nanoparticles to promote surface segregation during electrospinning | Herein we developed nanofiber composite membranes made of polyacrylonitrile (PAN) and iron oxide nanoparticles using a one-pot electrospinning synthesis method for application in point-of-use (POU) water treatment devices targeting both dissolved and particulate lead. With the goal of optimizing lead removal while minimizing raw material costs, we explored different commercially available iron oxides and incorporated simple organic acids (OAs) [e.g., ortho- and tera-phthalic acid (PTA and TPTA) and ethylenediaminetetraacetic acid (EDTA)] based on our previous observation that sodium dodecyl sulfate (SDS) promotes enrichment of iron oxide at the electrospun nanofiber surface (i.e., surface segregation). From sorption isotherm studies, we found that increasing iron oxide loading led to higher lead uptake (e.g., PAN with 5 wt% iron oxide exhibited a lead removal capacity of 10 mg g(-1) of mat versus 5 mg g(-1) for 1 wt% iron oxide). PAN with 5 wt% iron oxide (3.3 mg lead removal per $) also resulted in better cost-normalized lead removal than PAN with 1 wt% iron oxide (1.0 mg lead removal per $). The integration of OAs further improved performance; for example, PAN with 5 wt% iron oxide and 3 wt% PTA achieved approximately 40 mg g(-1). From nanofiber characterization via microscopic (SEM and TEM) and spectroscopic (XPS and FTIR) tools, OAs increase lead uptake through a combination of pathways: (1) stabilizing iron oxide particles and improving their dispersion in electrospinning sol gels; (2) promoting surface segregation that increases iron oxide concentration at the nanofiber surface; (3) functioning as a porogen that increases composite surface area; and (4) introducing some additional lead binding sites (e.g., carboxylates) within the nanofiber. Simulating point-of-use application in a dead-end filtration system (effective filter area of 12.6 cm(2), filter thickness of 120 mu m, and flow rate of 20 mL min(-1)), we observed lead-free permeate with just 0.24 g of our optimal formulation when challenged with 4 L of 150 mu g L-1 soluble lead solution and 90% removal when this filter was challenged with a feed solution containing both dissolved and particulate lead (160 mu g L-1 total lead with 30% of particulate lead; >0.1 mu m). Our study highlights the potential for OAs to enhance the performance of polymer-metal oxide nanofiber composites via a one-pot synthesis that will help to minimize production costs for high-performing materials. | Kim, Sewoon; Choi, Yun Young; Park, Chang Min; Myung, Nosang V.; Cwiertny, David M. | Univ Iowa, Dept Civil & Environm Engn, 4105 Seamans Ctr, Iowa City, IA 52242 USA; Univ Notre Dame, Dept Chem & Biomol Engn, 121 McCourtney Hall, Notre Dame, IN 46556 USA; Kyungpook Natl Univ, Dept Environm Engn, 80 Daehak Ro, Daegu 41566, South Korea; Univ Iowa, Dept Chem, E331 Chem Bldg 230 North Madison St, Iowa City, IA 52242 USA | ; Park, Chang Min/CAA-8506-2022; Myung, Nosang/IYT-3534-2023 | david-cwiertny@uiowa.edu; | ENVIRONMENTAL SCIENCE-NANO | ENVIRON SCI-NANO | 2051-8153 | 2051-8161 | 12 | 2 | SCIE | CHEMISTRY, MULTIDISCIPLINARY;ENVIRONMENTAL SCIENCES;NANOSCIENCE & NANOTECHNOLOGY | 2024 | 5.1 | 23.9 | 1 | PHTHALIC-ACID; DRINKING-WATER; DISSOCIATION | English | 2025 | 2025-02-13 | 10.1039/d4en00902a | 바로가기 | 바로가기 | 바로가기 | ||||||||||
| ○ | Article | Polysaccharide precipitation enhances the preventive effects of ultrasonicated Undaria pinnatifida (Laminariales, Phaeophyta) sporophyll extract against acute skin damage and oxidative stress | Although Undaria pinnatifida sporophyll is rich in beneficial components such as polysaccharides, proteins, and phy-tochemicals, its inaccessible structure limits its usability. To overcome this limitation, we ultrasonically extracted U. pin-natifida sporophyll extract (UPE) under optimized conditions (20 kHz, 1,080 W, 30°C) for 8 h and used gradient ethanol precipitation to isolate the UPE fractions (UEF). The yield, composition, and molecular weight of the UEFs changed as fractionation progressed, and the galactose and fucose content increased. Interestingly, the sulfate polysaccharide con-tents were not related to the fractionation process: UEF3 showed the highest content among the fractions (33.89 ± 0.05%). UEFs had no cytotoxic effects on HaCaT, RAW 264.7, or BEAS-2B cells, and UEF3 prevented ultraviolet B (UVB)-induced cyclooxygenase-2 (COX-2) expression by regulating the ERK kinase pathway. The oral administration of UEF3 prevented epidermal thickening and COX-2 overexpression in UVB-exposed mice. UEF3 also alleviated oxidative stress by reducing reactive oxygen species levels via the activation of the HO-1 / NRF2 signaling pathway. This indicates that polysaccharide precipitation fractionation enhances efficacy by isolating the functional components. In conclusion, fractional processing using ultrasonic-assisted extracts can be an effective approach for developing nutraceutical materials for human health. © 2025 The Korean Society of Phycology. | Paik, So Jeong; Kim, Min Jeong; Eom, Su Jin; Lee, Jae Hoon; Lee, Saerom; Kang, Min-Cheol; Lee, Nam Hyouck; Song, Kyung-Mo; Jung, Sung Keun | School of Food Science and Biotechnology, Kyungpook National University, Daegu, 41566, South Korea; School of Food Science and Biotechnology, Kyungpook National University, Daegu, 41566, South Korea; Food Processing Research Group, Korea Food Research Institute, Wanju, 55365, South Korea; Food Processing Research Group, Korea Food Research Institute, Wanju, 55365, South Korea; Research Center, 3FC Co., Ltd., Wanju, 55365, South Korea; Food Processing Research Group, Korea Food Research Institute, Wanju, 55365, South Korea; Research Center, 3FC Co., Ltd., Wanju, 55365, South Korea; Department of Food Science & Biotechnology, Sungshin Women’s University, Seoul, 01133, South Korea; School of Food Science and Biotechnology, Kyungpook National University, Daegu, 41566, South Korea, Research Institute of Tailored Food Technology, Kyungpook National University, Daegu, 41566, South Korea | 58161897900; 57215818497; 57223379721; 59962747100; 57205767095; 59925504400; 59925262600; 59925744300; 35310491400 | rudah@sungshin.ac.kr; skjung04@knu.ac.kr; | Algae | ALGAE-SEOUL | 1226-2617 | 2093-0860 | 40 | 2 | SCIE | MARINE & FRESHWATER BIOLOGY;PLANT SCIENCES | 2024 | 2.4 | 23.9 | 0 | fraction; nutraceutical; skin health; ultrasonication; Undaria pinnatifida | English | Final | 2025 | 10.4490/algae.2025.40.4.24 | 바로가기 | 바로가기 | 바로가기 | ||||||||||
| ○ | Article | Preparation of Self-Healing Thermoplastic Polyurethane/Carbon Nanotube Nanocomposites for Electromagnetic Shielding | Electromagnetic interference (EMI)-shielding nanocomposites are prone to damage during long-term use, compromising device performance. Consequently, extensive attention has been paid to materials that combine reliable EMI shielding with self-healing capabilities. In this study, a flexible conductive thermoplastic polyurethane (TPU) nanocomposite integrating EMI shielding and self-healing functionalities was facilely developed through a solution blending process followed by simple casting. In the X-band frequency range, the nanocomposite containing 15.0 wt% Fe3O4@multiwalled carbon nanotubes (Fe@CNT) exhibits an outstanding EMI shielding effectiveness of 37.6 dB. After three cut–repair cycles, the EMI shielding effectiveness recovers to 34.6 dB, retaining 92.3% of its initial performance. The TPU-Fe@CNT (TPUF) nanocomposite exhibits reproducible tensile properties, demonstrating excellent healing repeatability (healing efficiency: 96%) in elongation at break. Thus, this work presents a self-healable EMI shielding nanocomposite, showcasing its potential for applications in wearable electronics where durability and long-term reliability are paramount. © 2025 Society of Plastics Engineers. | Huang, Chenghan; Yan, Xin; Wang, Shengjie; Zhang, Hexin; Fang, Liang; Yoon, Keun-Byoung | School of Chemistry and Chemical Engineering, Anhui University of Technology, Anhui, Ma'anshan, China; School of Chemistry and Chemical Engineering, Anhui University of Technology, Anhui, Ma'anshan, China; School of Chemistry and Chemical Engineering, Anhui University of Technology, Anhui, Ma'anshan, China; School of Chemistry and Chemical Engineering, Anhui University of Technology, Anhui, Ma'anshan, China; Key Laboratory of Rubber-Plastics, Qingdao University of Science & Technology, Qingdao, China; Department of Polymer Science and Engineering, Kyungpook National University, Daegu, South Korea | 59206121800; 57222030771; 59706903100; 25633288200; 57204863378; 59493210700 | hxzhang@ahut.edu.cn; fangliang@qust.edu.cn; kbyoon@knu.ac.kr; | Polymer Composites | POLYM COMPOSITE | 0272-8397 | 1548-0569 | SCIE | MATERIALS SCIENCE, COMPOSITES;POLYMER SCIENCE | 2024 | 4.7 | 23.9 | 0 | 2025-06-11 | 0 | absorption-dominant mechanism; conductive polymer; electric heating performance; EMI shielding; self-healing | Conductive plastics; Dielectric heating; Electromagnetic shielding; Induction heating; Multiwalled carbon nanotubes (MWCN); Plastic products; Self-healing materials; Absorption-dominant mechanism; Carbon nanotube nanocomposites; Conductive Polymer; Dominant mechanism; Electric heating performance; Electromagnetic interference shielding; Heating performance; Multi-walled-carbon-nanotubes; Self-healing; Thermoplastic polyurethanes; Light interference | English | Article in press | 2025 | 10.1002/pc.30143 | 바로가기 | 바로가기 | 바로가기 | |||||||||
| ○ | ○ | Article | Strategic modulation of hydrogen bonding networks in aqueous electrolytes using green deep eutectic solvents: Experimental and computational insights for enhanced capacitive performance in symmetric supercapacitors | This study explores the integration of deep eutectic solvents (DESs) with aqueous electrolytes, paving a pathway to modulate the hydrogen-bonding network, suppress water decomposition, and enhance electrochemical performance of a well-established electroactive reduced graphene oxide (rGO) based symmetrical supercapacitor (SSC). A strategic approach is proposed to control water dissociation in aqueous Na2SO4 electrolytes by incorporating a choline chloride (ChCl) based green DES, specifically ChCl and ethylene glycol (EG) (commonly referred to as ethaline, ETH). Systematic investigations reveal that varying water content (0 %, 40 %, 60 %, and 90 %) in the DES-water mixture affects its physicochemical properties, including conductivity, viscosity, and capacitive performance. The conductivity of neat ETH (ETH-1000) increased with up to 60 % water addition (ETH-4060) but dropped sharply to 90 % water content (ETH-1090) due to excessive dilution. The viscosity of ETH-1090 was six times lower than ETH-1000, reflecting hydrogen bond weakening among ETH components due to dilution. Among these, ETH-1090 demonstrated the highest capacitive performance compared to ETH-1000. Furthermore, the addition of ETH-1090 DES to the aqueous Na2SO4 electrolyte simultaneously disturbed the preexisting hydrogen bonding network while fostering new and unique types of hydrogen bonds in ETH-1090-NS based electrolyte. Thus, this strategic modulation suppressed water decomposition and enhanced the electrochemical stability of aqueous Na2SO4 electrolyte for application in rGO-based SSC. This leads to a significant increase in the capacitive performance of aqueous Na2SO4 electrolyte from 445 to 645 mF cm-2 with greater conductivity and extended electrochemical potential window up to 1.6 V. To support these findings, classical molecular dynamics (MD) simulations and quantum chemical calculations were conducted. Computational study provides insights into molecular interactions between ETH DES and aqueous electrolyte, revealing the unique role of hydrogen bonds in manipulating the conventional aqueous electrolyte. The excellent long-term cyclic stability (70 % retention of capacitance up to 10,000 cycles at high current density) is profoundly validating the robustness of the developed ETH-1090-NS based electrolyte system. This comprehensive study highlights the potential of unique DES based modifications of conventional aqueous electrolytes at the atomic level to enhance performance and advance energy storage systems. | Zohura, Fatema T.; Reaz, Akter Hossain; Khan, Md. Minhajul Alam; Islam, Md. Rahadul; Mahmood, Raisul A.; Roy, Chanchal Kumar; Firoz, Shakhawat H. | Bangladesh Univ Engn & Technol, Fac Sci, Dept Chem, Dhaka 1000, Bangladesh; Michigan State Univ, Dept Chem, E Lansing, MI 48824 USA; Kyungpook Natl Univ, Dept Chem, Daegu, South Korea; Bangladesh Maritime Univ, Dhaka 1216, Bangladesh | Roy, Chanchal/AAS-2094-2021; Firoz, Dr. Shakhawat H./AEA-2699-2022; Zohura, Fatema/LCB-8099-2024; Reaz, Akter Hossain/AAE-3427-2021; Khan, Md Mahbubur Rahman/KHU-5445-2024 | 59016439300; 57221742507; 59902594700; 59902198100; 57786307300; 57216238805; 12042376200 | reazmd@msu.edu; shfiroz@chem.buet.ac.bd; | ELECTROCHIMICA ACTA | ELECTROCHIM ACTA | 0013-4686 | 1873-3859 | 532 | SCIE | ELECTROCHEMISTRY | 2024 | 5.6 | 23.9 | 0 | 2025-06-11 | 0 | 0 | Deep eutectic solvent; Supercapacitor; Aqueous electrolyte; Hydrogen bonding; Ethaline | WATER; DYNAMICS; ELECTRODES; SOLVATION | Aqueous electrolyte; Deep eutectic solvent; Ethaline; Hydrogen bonding; Supercapacitor | Gluing; Aqueous electrolyte; Capacitive performance; Choline chloride; Deep eutectic solvents; Electrochemical performance; Ethaline; Hydrogen bonding network; Reduced graphene oxides; Symmetrics; Water decomposition; Hydrogen bonds | English | 2025 | 2025-08-20 | 10.1016/j.electacta.2025.146455 | 바로가기 | 바로가기 | 바로가기 | 바로가기 | ||
| ○ | Article | Data-driven compliance discrimination via biomimetic soft optical tactile sensors: implementation and benchmarking with a model-based approach | Humans can easily manipulate soft, deformable objects, relying on the intrinsic deformability of their fingerpads and their capabilities to infer item compliance. Transferring these skills into robotic systems is still an open challenging task. Recently, the introduction of soft biomimetic tactile sensors such as the TacTip, which aims at mimicking the structure of human skin layers, has represented an attempt to bridge this gap. However, while the advancement in endowing artificial systems with bio-aware embodied intelligence, the computational aspects of compliance estimation are still largely unexplored, mostly relying on Data-Driven (DD) methods. In a previous work [1], a model-based approach to compliance estimation by combining TacTip with a computational model of human tactile perception has been proposed. However, both these categories of techniques suffer from limitations (generalizability issues for the model-inspired; the curse of data for DD), suggesting that a hybrid approach could represent a more suitable solution. The first step in exploring the feasibility of a hybrid framework is to develop robust neural network architectures and then benchmark them against the results achieved through the analytical method. In this manner, we can assess their complementary strengths and potential integration. This work specifically addresses this step by proposing a novel approach for compliance estimation via TacTip using deep learning techniques. The neural network architecture was validated, and a comparative analysis of its performance against our previously developed model-based approach was performed. © 2016 IEEE. | Susini, Paolo; Pagnanelli, Giulia; Nam, Saekwang; Lepora, Nathan F.; Bianchi, Matteo | Universita' di Pisa, Centro di Ricerca “Enrico Piaggio”, Largo Lucio Lazzarino 1, Pisa, 56126, Italy, Universita' di Pisa, Dipartimento di Ingegneria dell'Informazione, Largo Lucio Lazzarino 1, Pisa, 56126, Italy; Universita' di Pisa, Centro di Ricerca “Enrico Piaggio”, Largo Lucio Lazzarino 1, Pisa, 56126, Italy, Universita' di Pisa, Dipartimento di Ingegneria dell'Informazione, Largo Lucio Lazzarino 1, Pisa, 56126, Italy; Kyungpook National University, Graduate School of Data Science, Daegu, 41566, South Korea; University of Bristol, Department of Engineering Mathematics, Bristol Robotics Laboratory, Bristol, BS8 1TW, United Kingdom; Universita' di Pisa, Centro di Ricerca “Enrico Piaggio”, Largo Lucio Lazzarino 1, Pisa, 56126, Italy, Universita' di Pisa, Dipartimento di Ingegneria dell'Informazione, Largo Lucio Lazzarino 1, Pisa, 56126, Italy | 59970345900; 58279869800; 56091917700; 15842160700; 57202798446 | paolosusini1999@gmail.com; | IEEE Robotics and Automation Letters | IEEE ROBOT AUTOM LET | 2377-3766 | 2377-3766 | SCIE | ROBOTICS | 2024 | 5.3 | 24.0 | 0 | Deep Learning Methods; Force and Tactile Sensing; Haptics and Haptic Interfaces | Biomimetic processes; Deep neural networks; Learning systems; Mice (computer peripherals); Skin; Tactile sensors; Data driven; Deep learning method; Force sensing; Haptics and haptic interfaces; Learning methods; Model based approach; Neural network architecture; Optical-; Tactile sensing; Tactile sensors; Network architecture | English | Article in press | 2025 | 10.1109/lra.2025.3582538 | 바로가기 | 바로가기 | 바로가기 | |||||||||||
| ○ | ○ | Article | Can Botulinum Toxin Type E Serve as a Novel Therapeutic Target for Managing Chronic Orofacial Pain? | The existing literature offers limited experimental evidence on the role of botulinum neurotoxin type E (BoNT-E) in pain transmission. The present study investigated the antinociceptive effects of subcutaneously administered BoNT-E in chronic orofacial pain conditions. This study used orofacial formalin-induced pronociceptive behavior and complete Freund's adjuvant (CFA)-induced thermal hyperalgesia as inflammatory pain models in male Sprague Dawley rats. A neuropathic pain model was also developed by causing an injury to the inferior alveolar nerve. Subcutaneously administered BoNT-E (6, 10 units/kg) significantly reduced nociceptive behavior during the second phase of the formalin test compared to that of the vehicle treatment. These doses similarly alleviated thermal hypersensitivity in the CFA-treated rats. Moreover, BoNT-E (6, 10 units/kg) markedly attenuated mechanical allodynia in rats with an inferior alveolar nerve injury. At a dose of 10 units/kg, BoNT-E produced antinociceptive effects that became evident 8 h post-injection and persisted for 48 h. Notably, BoNT-E (10 units/kg) significantly reduced the number of c-fos-immunostained neurons in the trigeminal subnucleus caudalis of rats with an inferior alveolar nerve injury. In comparison, intraperitoneally administered gabapentin (30, 100 mg/kg) demonstrated significant mechanical anti-allodynic effects but exhibited lower analgesic efficacy than that of BoNT-E. These findings highlight the potential of BoNT-E as a therapeutic agent for chronic pain management. | Jung, Sung-Koog; Kim, Yu-Mi; Jo, Min-Jeong; Son, Jo-Young; Ju, Jin-Sook; Park, Min-Kyoung; Lee, Min-Kyung; Kim, Jae-Young; Nam, Jeong-Sun; Ahn, Dong-Kuk | Kyungpook Natl Univ, Sch Dent, Dept Oral Physiol, Daegu 41940, South Korea; Kyung Woon Univ, Dept Dent Hyg, Gumi 39160, South Korea; Dong Eui Univ, Dept Dent Hyg, Busan 47340, South Korea; JETEMA, Global 225-12, Seongnam 13494, South Korea | 59711541800; 57816812300; 58777770200; 57201998311; 7202751199; 36185933400; 57157512400; 59711654700; 57218909685; 58950718500 | ln3000@hanmail.net; boboatom@naver.com; dmvvv3@naver.com; n-violetjy@nate.com; jsju@knu.ac.kr; bukimin@hanmail.net; lmk849@deu.ac.kr; jykim@jetema.com; jsnam@jetema.com; dkahn@knu.ac.kr; | TOXINS | TOXINS | 2072-6651 | 17 | 3 | SCIE | FOOD SCIENCE & TECHNOLOGY;TOXICOLOGY | 2024 | 4 | 24.1 | 0 | 2025-05-07 | 0 | 0 | botulinum toxin type E; antinociception; formalin; complete Freund's adjuvant; trigeminal neuropathic pain | MECHANICAL ALLODYNIA; FORMALIN TEST; NEUROTOXIN-E; SENSORY NEURONS; MOUSE MODEL; RAT MODEL; RELEASE; BLOCKADE; ACTIVATION; GLUTAMATE | antinociception; botulinum toxin type E; complete Freund’s adjuvant; formalin; trigeminal neuropathic pain | Amines; Analgesics; Animals; Botulinum Toxins; Chronic Pain; Disease Models, Animal; Facial Pain; Freund's Adjuvant; Gabapentin; gamma-Aminobutyric Acid; Hyperalgesia; Male; Mandibular Nerve; Proto-Oncogene Proteins c-fos; Rats; Rats, Sprague-Dawley; botulinum toxin E; formaldehyde; Freund adjuvant; gabapentin; ketamine; protein c fos; xylazine; 4 aminobutyric acid; amine; analgesic agent; botulinum toxin; Freund adjuvant; gabapentin; protein c fos; acclimatization; allodynia; analgesic activity; animal experiment; animal model; animal tissue; antinociception; Article; behavior; behavioral test parameters; body weight; caudal trigeminal nucleus; chronic pain; controlled study; face pain; female; formalin test; head withdrawal latency; hyperalgesia; hypersensitivity; immunohistochemistry; immunoreactivity; inferior alveolar nerve; male; motor performance; nerve injury; neuropathic pain; nonhuman; orofacial pain; orofacial pain; protein expression; rat; rotarod test; scratching; thermal hypersensitivity; thermal stimulation; animal; chronic pain; disease model; drug effect; drug therapy; face pain; hyperalgesia; mandibular nerve; metabolism; Sprague Dawley rat | English | 2025 | 2025-03-10 | 10.3390/toxins17030130 | 바로가기 | 바로가기 | 바로가기 | 바로가기 | |||
| ○ | ○ | Article | Ivangustin Alleviates Deoxynivalenol-Induced Apoptosis by Regulating FOXO3a Translocation in Porcine Intestinal Epithelial Cells | Deoxynivalenol (DON) is a mycotoxin derived from Fusarium species. It is commonly found in crops and has a high detection rate in animal feedstuffs. We previously confirmed that apoptosis could be induced by DON through the FOXO3a (Forkhead box 3a) signaling pathway. In this study, to identify a natural compound to mitigate DON-induced apoptosis via FOXO3a, we performed high-throughput screening. We found that ivangustin (IVAN) alleviated DON-induced cytotoxicity. It also decreased DON-mediated apoptosis and the expression levels of apoptosis-associated genes at the mRNA level. Furthermore, treatment with IVAN inhibited FOXO3a from translocating into the nucleus. The results demonstrated the mitigating effects of the natural compound IVAN on DON-induced apoptosis through the FOXO3a signaling pathway. This study focused on elucidating the mechanism underlying damage caused by DON. According to the results of this study, novel alternatives to mitigate DON cytotoxicity may be developed. This study could provide fundamental data for the formulation of mycotoxin alleviation strategies to improve pig productivity. | Kang, Tae Hong; Shin, Sang Su; Kim, Tae Hyun; Lee, Sang In | Kyungpook Natl Univ, Dept Anim Sci & Biotechnol, Sangju 37224, Gyeongsangbug D, South Korea; Kyungpook Natl Univ, Res Inst Innovat Anim Sci, Sangju 37224, Gyeongsangbug D, South Korea; Penn State Univ, Dept Anim Sci, University Pk, PA 16802 USA | Kim, Tae/C-8884-2009 | 57903443800; 55490360000; 57203495144; 57203597336 | camwuil27@knu.ac.kr; sss@knu.ac.kr; taekim@psu.edu; silee78@knu.ac.kr; | TOXINS | TOXINS | 2072-6651 | 17 | 4 | SCIE | FOOD SCIENCE & TECHNOLOGY;TOXICOLOGY | 2024 | 4 | 24.1 | 0 | 2025-05-07 | 0 | 0 | apoptosis; deoxynivalenol; ivangustin; natural product | TRANSCRIPTION FACTORS; BARRIER INTEGRITY; CYTOTOXICITY | apoptosis; deoxynivalenol; ivangustin; natural product | Animals; Apoptosis; Cell Line; Cell Survival; Epithelial Cells; Forkhead Box Protein O3; Intestinal Mucosa; Signal Transduction; Swine; Trichothecenes; mycotoxin; transcription factor FKHRL1; vomitoxin; trichothecene; vomitoxin; animal cell; animal experiment; apoptosis; Article; cell damage; cell viability assay; controlled study; cytotoxicity; enzyme linked immunosorbent assay; flow cytometry; Fusarium; gene expression; gene translocation; IC50; immunocytochemistry; immunofluorescence; intestine epithelium cell; IPEC-J2 cell line; mRNA expression level; MTT assay; nonhuman; phosphorylation; pig; protein expression; real time polymerase chain reaction; Western blotting; animal; cell line; cell survival; drug effect; epithelium cell; genetics; intestine mucosa; metabolism; pig; signal transduction | English | 2025 | 2025-04-02 | 10.3390/toxins17040174 | 바로가기 | 바로가기 | 바로가기 | 바로가기 | ||
| ○ | Review | Microfluidic production of hydrogel-shelled microcapsules and their applications | Hydrogel shells enable precise compartmentalization of aqueous cores while regulating transmembrane molecular transport based on size- and charge-selectivity. Recent advances in droplet microfluidics have enabled the production of monodisperse multiple-emulsion droplets, which serve as ideal templates for hydrogel shell fabrication. This mini-review highlights recent progress in microfluidic emulsion templating for hydrogel shell production and explores optimal design strategies for diverse applications. Hydrogel shells are fabricated using various types of emulsions, with formation mechanisms and material selection tailored to each type. Their applications span drug and cell microcarriers, microreactors, and microsensors, where the composition, structure, and crosslinking density are precisely engineered. © 2025 Elsevier Ltd | Lee, Jiwoo; Kim, Ji-Won; Kim, Shin-Hyun | Department of Chemical and Biomolecular Engineering, Korea Advanced Institute of Science and Technology (KAIST), Daejeon, 34141, South Korea; Department of Chemical Engineering, Kyungpook National University, Daegu, South Korea; Department of Chemical and Biomolecular Engineering, Korea Advanced Institute of Science and Technology (KAIST), Daejeon, 34141, South Korea | 59002865800; 59817405300; 59668740700 | kim.jw@knu.ac.kr; kim.sh@kaist.ac.kr; | Current Opinion in Colloid and Interface Science | CURR OPIN COLLOID IN | 1359-0294 | 1879-0399 | 78 | SCIE | CHEMISTRY, PHYSICAL | 2024 | 7 | 24.1 | 0 | Drops; Emulsification; Emulsions; Hydrogels; Microfluidics; Optimization; hydrogel; Droplet microfluidics; Emulsion droplets; Emulsion templating; Microcapsules; Molecular transport; Mono-disperse; Multiple emulsions; Optimal design; Recent progress; Transmembranes; controlled study; cross linking; droplet microfluidics; emulsion; microcapsule; nonhuman; pharmaceutics; review; Shells (structures) | English | Final | 2025 | 10.1016/j.cocis.2025.101936 | 바로가기 | 바로가기 | 바로가기 | |||||||||||
| ○ | ○ | Article | Development of MMC-based lithium molybdate cryogenic calorimeters for AMoRE-II | The AMoRE collaboration searches for neutrinoless double beta decay of Mo-100 using molybdate scintillating crystals via low temperature thermal calorimetric detection. The early phases of the experiment, AMoREpilot and AMoRE-I, have demonstrated competitive discovery potential. Presently, the AMoRE-II experiment, featuring a large detector array with about 90 kg of Mo-100 isotope, is under construction. This paper discusses the baseline design and characterization of the lithium molybdate cryogenic calorimeters to be used in the AMoRE-II detector modules. The results from prototype setups that incorporate new housing structures and two different crystal masses (316 g and 517-521 g), operated at 10 mK temperature, show energy resolutions (FWHM) of 7.55-8.82 keV at the 2.615 MeV Tl-208 gamma line and effective light detection of 0.79-0.96 keV/MeV. The simultaneous heat and light detection enables clear separation of alpha particles with a discrimination power of 12.37-19.50 at the energy region around Li-6(n, alpha)H-3 with Q-value = 4.785 MeV. Promising detector performances were demonstrated at temperatures as high as 30 mK, which relaxes the temperature constraints for operating the large AMoRE-II array. | Agrawal, A.; Alenkov, V. V.; Aryal, P.; Bae, H.; Beyer, J.; Bhandari, B.; Boiko, R. S.; Boonin, K.; Buzanov, O.; Byeon, C. R.; Chanthima, N.; Cheoun, M. K.; Choe, J. S.; Choi, S.; Choudhury, S.; Chung, J. S.; Danevich, F. A.; Djamal, M.; Drung, D.; Enss, C.; Fleischmann, A.; Gangapshev, A. M.; Gastaldo, L.; Gavrilyuk, Y. M.; Gezhaev, A. M.; Gileva, O.; Grigorieva, V. D.; Gurentsov, V. I.; Ha, C.; Ha, D. H.; Ha, E. J.; Hwnag, D. H.; Jeon, E. J.; Jeon, J. A.; Jo, H. S.; Kaewkhao, J.; Kang, C. S.; Kang, W. G.; Kazalov, V. V.; Kempf, S.; Khan, A.; Khan, S.; Kim, D. Y.; Kim, G. W.; Kim, H. B.; Kim, H. J.; Kim, H. J.; Kim, H. L.; Kim, H. S.; Kim, M. B.; Kim, S. C.; Kim, S. K.; Kim, S. R.; Kim, W. T.; Kim, Y. D.; Kim, Y. H.; Kirdsiri, K.; Ko, Y. J.; Kobychev, V. V.; Kornoukhov, V.; Kuzminov, V. V.; Kwon, D. H.; Lee, C. H.; Lee, D. Y.; Lee, E. K.; Lee, H. J.; Lee, H. S.; Lee, J.; Lee, J. Y.; Lee, K. B.; Lee, M. H.; Lee, M. K.; Lee, S. W.; Lee, Y. C.; Leonard, D. S.; Lim, H. S.; Mailyan, B.; Makarov, E. P.; Nyanda, P.; Oh, Y.; Olsen, S. L.; Panasenko, S. I.; Park, H. K.; Park, H. S.; Park, K. S.; Park, S. Y.; Polischuk, O. G.; Prihtiadi, H.; Ra, S.; Ratkevich, S. S.; Rooh, G.; Sari, M. B.; Seo, J.; Seo, K. M.; Sharma, B.; Shin, K. A.; Shlegel, V. N.; Siyeon, K.; So, J.; Sokur, N. V.; Son, J. K.; Song, J. W.; Srisittipokakun, N.; Tretyak, V. I.; Wirawan, R.; Woo, K. R.; Yeon, H. J.; Yoon, Y. S.; Yue, Q. | Indian Inst Sci, Bengaluru, Karnataka, India; JSC FOMOS Mat, Moscow, Russia; Kyungpook Natl Univ, Dept Phys, Daegu, South Korea; Phys Tech Bundesanstalt, Braunschweig, Germany; Univ Sci & Technol, Hefei, Peoples R China; Inst Nucl Res NASU, Kiev, Ukraine; Nakhon Pathom Rajabhat Univ, Nakhon Pathom, Thailand; Soongsil Univ, Dept Phys, Seoul, South Korea; Inst for Basic Sci Korea, Ctr Underground Phys, Daejeon, South Korea; Seoul Natl Univ, Dept Phys & Astron, Seoul, South Korea; Chung Ang Univ, Dept Phys, Seoul, South Korea; Inst Teknol, Dept Phys, Bandung, Indonesia; Kirchhoff Inst Phys, Heidelberg, Germany; Baksan Neutrino Observ INR RAS, Moscow, Russia; Russian Acad Sci, Nikolaev Inst Inorgan Chem, Siberian Branch, Moscow, Russia; Kohat Univ Sci & Technol, Dept Phys, Kohat, Pakistan; Sejong Univ, Dept Phys & Astron, Seoul, South Korea; Natl Res Nucl Univ MEPhI, Moscow, Russia; Dept Accelerator Sci, Moscow, Russia; Korea Res Inst Stand & Sci, Daejeon, South Korea; Florida Inst Technol, Melbourne, FL 32901 USA; Kharkov Natl Univ, Kharkiv, Ukraine; Abdul Wali Khan Univ, Dept Phys, Mardan, Pakistan; Univ Mataram, Dept Phys, Mataram, Indonesia; Tsinghua Univ, Beijing, Peoples R China; Natl Univ Life & Environm Sci Ukraine, Kiev, Ukraine; INFN, Sez Roma Tor Vergata, Rome, Italy; INFN, Lab Nazl Gran Sasso, Laquila, Italy | Kobychev, Vladislav/B-3322-2008; Panasenko, Serhii/LSM-4490-2024; Grigorieva, Veronika/ABG-6479-2020; Sari, Mona Berlian/HGV-2710-2022; Danevich, Fedor/D-2727-2012; Khan, Arshad/ABB-1566-2021; Kazalov, Vladimir/V-6021-2018; Lee, Hyun Su/G-3392-2014; Gileva, Olga/JMQ-2748-2023; Boiko, Roman/M-8181-2014; Olga, Gileva/JMQ-2748-2023; Wirawan, Rahadi/H-9045-2016 | 58849427900; 8954185600; 57196222852; 16019108300; 58829777600; 22953206600; 35361494500; 6507228789; 59050570500; 35361597600; 6701826023; 57211272681; 57199723894; 57226314694; 58194129700; 6701545407; 6506355194; 7003654818; 56227887300; 8656533600; 6506346988; 6602197897; 6602715345; 18436707000; 57196456549; 56120448600; 6603220327; 17342119700; 57023186700; 12778681800; 59202671200; 57204519171; 24478376500; 35227429400; 23974520300; 58437336600; 24401181300; 15750926300; 55418354700; 56017063700; 56266707900; 57218106366; 57209050651; 55195026700; 59616483600; 58483690400; 57218825747; 57709039100; 58193570900; 7601594620; 59102407800; 56401942100; 57211502868; 7410207253; 57196171764; 34881618200; 56030036300; 36094219000; 7003873891; 6603413895; 57201795741; 59880372600; 58848262200; 57226673940; 57225012168; 56113238600; 57226402706; 57204797944; 59612763600; 57198252980; 7409120947; 59631050700; 57203244766; 7201953933; 57907833600; 24528726500; 16307413300; 57423423000; 57188969853; 57209049904; 6701703012; 8455192000; 57216599536; 35225979300; 57190583343; 34168294300; 57188983477; 16480794500; 6603634096; 24401665700; 57210602872; 58848723700; 56647489700; 57209181591; 57203522213; 6602324736; 6507719993; 35277558300; 57200598341; 57022959600; 58848262600; 35365411300; 35290939700; 55871401900; 57211276680; 58078013400; 35243798200; 59454528800 | sckim@ibs.re.kr; wootaekim0726@gmail.com; bijayasharma22@gmail.com; | EUROPEAN PHYSICAL JOURNAL C | EUR PHYS J C | 1434-6044 | 1434-6052 | 85 | 2 | SCIE | PHYSICS, PARTICLES & FIELDS | 2024 | 4.8 | 24.2 | 0 | 2025-05-07 | 0 | 0 | DOUBLE-BETA DECAY; MAGNETIC CALORIMETER; PURIFICATION; CRYSTALS | Alpha particles; Calorimetry; Photons; Baseline design; Cryogenic calorimeters; Detector arrays; Large detectors; Light detection; Lithium molybdates; Lows-temperatures; Neutrinoless double-beta decays; Scintillating crystals; Thermal; Calorimeters | English | 2025 | 2025-02-11 | 10.1140/epjc/s10052-024-13498-8 | 바로가기 | 바로가기 | 바로가기 | 바로가기 | |||
| ○ | ○ | Correction | Development of MMC-based lithium molybdate cryogenic calorimeters for AMoRE-II (vol 85, 172, 2025) | Agrawal, A.; Alenkov, V. V.; Aryal, P.; Bae, H.; Beyer, J.; Bhandari, B.; Boiko, R. S.; Boonin, K.; Buzanov, O.; Byeon, C. R.; Chanthima, N.; Cheoun, M. K.; Choe, J. S.; Choi, Seonho; Choudhury, S.; Chung, J. S.; Danevich, F. A.; Djamal, M.; Drung, D.; Enss, C.; Fleischmann, A.; Gangapshev, A. M.; Gastaldo, L.; Gavrilyuk, Y. M.; Gezhaev, A. M.; Gileva, O.; Grigorieva, V. D.; Gurentsov, V. I.; Ha, C.; Ha, D. H.; Ha, E. J.; Hwang, D. H.; Jeon, E. J.; Jeon, J. A.; Jo, H. S.; Kaewkhao, J.; Kang, C. S.; Kang, W. G.; Kazalov, V. V.; Kempf, S.; Khan, A.; Khan, S.; Kim, D. Y.; Kim, G. W.; Kim, H. B.; Kim, Ho-Jong; Kim, H. J.; Kim, H. L.; Kim, H. S.; Kim, M. B.; Kim, S. C.; Kim, S. K.; Kim, S. R.; Kim, W. T.; Kim, Y. D.; Kim, Y. H.; Kirdsiri, K.; Ko, Y. J.; Kobychev, V. V.; Kornoukhov, V.; Kuzminov, V. V.; Kwon, D. H.; Lee, C. H.; Lee, Dongyeup; Lee, E. K.; Lee, H. J.; Lee, H. S.; Lee, J.; Lee, J. Y.; Lee, K. B.; Lee, M. H.; Lee, M. K.; Lee, S. W.; Lee, Y. C.; Leonard, D. S.; Lim, H. S.; Mailyan, B.; Makarov, E. P.; Nyanda, P.; Oh, Y.; Olsen, S. L.; Panasenko, S. I.; Park, H. K.; Park, H. S.; Park, K. S.; Park, S. Y.; Polischuk, O. G.; Prihtiadi, H.; Ra, S.; Ratkevich, S. S.; Rooh, G.; Sari, M. B.; Seo, J.; Seo, K. M.; Sharma, B.; Shin, K. A.; Shlegel, V. N.; Siyeon, K.; So, J.; Sokur, N. V.; Son, J. K.; Song, J. W.; Srisittipokakun, N.; Tretyak, V. I.; Wirawan, R.; Woo, K. R.; Yeon, H. J.; Yoon, Y. S.; Yue, Q. | Indian Inst Sci, Bengaluru, India; JSC FOMOS Mat, Moscow, Russia; Kyungpook Natl Univ, Dept Phys, Daegu, South Korea; Phys Tech Bundesanstalt, Bundesanstalt, Germany; Univ Sci & Technol, Lyngby, Denmark; Inst Nucl Res NASU, Kuiv, Ukraine; Nakhon Pathom Rajabhat Univ, Nakhon Pathom, Thailand; Soongsil Univ, Dept Phys, Seoul, South Korea; Inst for Basic Sci Korea, Ctr Underground Phys, Daejeon, South Korea; Seoul Natl Univ, Dept Phys & Astron, Seoul, South Korea; Chung Ang Univ, Dept Phys, Seoul, South Korea; Inst Teknol, Dept Phys, Surabaya, Indonesia; Kirchhoff Inst Phys, Heidelberg, Germany; RAS, Baksan Neutrino Observ, INR, Baksan, Russia; Russian Acad Sci, Siberian Branch, Nikolaev Inst Inorgan Chem, Novosibirsk, Russia; Kohat Univ Sci & Technol, Dept Phys, Kohat, Pakistan; Sejong Univ, Dept Phys & Astron, Seoul, South Korea; Natl Res Nucl Univ MEPhI, Moscow, Russia; Korea Univ, Dept Accelerator Sci, Sejong, South Korea; Korea Res Inst Stand & Sci, Daejeon, South Korea; Florida Inst Technol, Melbourne, FL USA; Kharkov Natl Univ, Kharkiv, Ukraine; Abdul Wali Khan Univ, Dept Phys, Mardan, Pakistan; Univ Mataram, Dept Phys, Mataram, Indonesia; Tsinghua Univ, Beijing, Peoples R China; Natl Univ Life & Environm Sci Ukraine, Kyiv, Ukraine; INFN, Sez Roma Tor Vergata, Rome, Italy; INFN, Lab Nazl Gran Sasso, Laquila, Italy | Kazalov, Vladimir/V-6021-2018; Sari, Mona Berlian/HGV-2710-2022; Grigorieva, Veronika/ABG-6479-2020; Danevich, Fedor/D-2727-2012; Panasenko, Serhii/LSM-4490-2024; Boiko, Roman/M-8181-2014 | 58849427900; 8954185600; 57196222852; 16019108300; 58829777600; 22953206600; 35361494500; 6507228789; 59050570500; 35361597600; 6701826023; 57211272681; 57199723894; 57226314694; 58194129700; 6701545407; 6506355194; 7003654818; 56227887300; 8656533600; 6506346988; 6602197897; 6602715345; 18436707000; 57196456549; 56120448600; 6603220327; 17342119700; 57023186700; 12778681800; 58993137900; 57204519171; 24478376500; 35227429400; 23974520300; 58437336600; 24401181300; 15750926300; 55418354700; 56017063700; 56266707900; 57218106366; 57209050651; 55195026700; 59616483600; 59051568100; 57218825747; 57202103908; 58193570900; 7601594620; 57200876753; 56401942100; 57211502868; 7410207253; 57196171764; 34881618200; 56030036300; 36094219000; 7003873891; 6603413895; 57201795741; 59880372600; 58848262200; 57226673940; 57225012168; 56113238600; 57226402706; 57204797944; 59612763600; 57198252980; 7409120947; 59631050700; 57203244766; 7201953933; 57907833600; 24528726500; 16307413300; 57423423000; 57188969853; 35227722100; 6701703012; 8455192000; 57216599536; 35225979300; 57190583343; 34168294300; 57188983477; 16480794500; 6603634096; 24401665700; 57210602872; 58848723700; 56647489700; 57209181591; 57203522213; 6602324736; 6507719993; 35277558300; 57200598341; 57022959600; 58848262600; 35365411300; 35290939700; 55871401900; 57211276680; 58078013400; 35243798200; 35274152800 | sckim@ibs.re.kr; wootaekim0726@gmail.com; bijayasharma22@gmail.com; | EUROPEAN PHYSICAL JOURNAL C | EUR PHYS J C | 1434-6044 | 1434-6052 | 85 | 3 | SCIE | PHYSICS, PARTICLES & FIELDS | 2024 | 4.8 | 24.2 | 0 | 0 | English | 2025 | 2025-03-10 | 10.1140/epjc/s10052-025-13991-8 | 바로가기 | 바로가기 | 바로가기 | 바로가기 | ||||||||
| ○ | ○ | Article | Improved background modeling for dark matter search with COSINE-100 | COSINE-100 aims to conclusively test the claimed dark matter annual modulation signal detected by DAMA/LIBRA collaboration. DAMA/LIBRA has released updated analysis results by lowering the energy threshold to 0.75 keV through various upgrades. They have consistently claimed to have observed an annual modulation. In COSINE-100, it is crucial to lower the energy threshold for a direct comparison with DAMA/LIBRA, which also enhances the sensitivity of the search for low-mass dark matter, enabling COSINE-100 to explore this area. Therefore, it is essential to have a precise and quantitative understanding of the background spectrum across all energy ranges. This study expands the background modeling from 0.7 to 4000 keV using 2.82 years of COSINE-100 data. The modeling has been improved to describe the background spectrum across all energy ranges accurately. Assessments of the background spectrum are presented, considering the nonproportionality of NaI(Tl) crystals at both low and high energies and the characteristic X-rays produced by the interaction of external backgrounds with materials such as copper. Additionally, constraints on the fit parameters obtained from the alpha spectrum modeling fit are integrated into this model. These improvements are detailed in the paper. | Yu, G. H.; Carlin, N.; Cho, J. Y.; Choi, J. J.; Choi, S.; Ezeribe, A. C.; Franca, L. E.; Ha, C.; Hahn, I. S.; Hollick, S. J.; Jeon, E. J.; Joo, H. W.; Kang, W. G.; Kauer, M.; Kim, B. H.; Kim, H. J.; Kim, J.; Kim, K. W.; Kim, S. H.; Kim, S. K.; Kim, W. K.; Kim, Y. D.; Kim, Y. H.; Ko, Y. J.; Lee, D. H.; Lee, E. K.; Lee, H.; Lee, H. S.; Lee, H. Y.; Lee, I. S.; Lee, J.; Lee, J. Y.; Lee, M. H.; Lee, S. H.; Lee, S. M.; Lee, Y. J.; Leonard, D. S.; Luan, N. T.; Manzato, B. B.; Maruyama, R. H.; Neal, R. J.; Olsen, S. L.; Park, B. J.; Park, H. K.; Park, H. S.; Park, J. C.; Park, K. S.; Park, S. D.; Pitta, R. L. C.; Prihtiadi, H.; Ra, S. J.; Rott, C.; Shin, K. A.; Cavalcante, D. F. F. S.; Son, M. K.; Spooner, N. J. C.; Truc, L. T.; Yang, L. | Sungkyunkwan Univ, Dept Phys, Suwon 16419, South Korea; Inst Basic Sci IBS, Ctr Underground Phys, Daejeon 34126, South Korea; Univ Sao Paulo, Phys Inst, BR-05508090 Sao Paulo, Brazil; Kyungpook Natl Univ, Dept Phys, Daegu 41566, South Korea; Seoul Natl Univ, Dept Phys & Astron, Seoul 08826, South Korea; Univ Sheffield, Dept Phys & Astron, Sheffield S3 7RH, England; Chung Ang Univ, Dept Integrat Engn, Seoul 06974, South Korea; Inst Basic Sci IBS, Ctr Exot Nucl Studies, Daejeon 34126, South Korea; Ewha Womans Univ, Dept Sci Educ, Seoul 03760, South Korea; Univ Sci & Technol UST, IBS Sch, Daejeon 34113, South Korea; Yale Univ, Dept Phys, New Haven, CT 06520 USA; Yale Univ, Wright Lab, New Haven, CT 06520 USA; Univ Wisconsin Madison, Dept Phys, Madison, WI 53706 USA; Univ Wisconsin Madison, Wisconsin IceCube Particle Astrophys Ctr, Madison, WI 53706 USA; Korea Res Inst Stand & Sci, Daejeon 34113, South Korea; Korea Univ, Dept Accelerator Sci, Sejong 30019, South Korea; Chungnam Natl Univ, Dept Phys, Daejeon 34134, South Korea; Chungnam Natl Univ, IQS, Daejeon 34134, South Korea; Univ Negeri Malang, Dept Phys, Malang 65145, Indonesia; Univ Utah, Dept Phys & Astron, Salt Lake City, UT 84112 USA; Univ Calif San Diego, Dept Phys, La Jolla, CA 92093 USA | ; Kim, Sun/G-2042-2015; Kauer, Matt/AAY-7581-2020; Kim, Seongjun/HMV-6287-2023; Kim, Ji/AAU-5043-2020; Schneider Hahn, Ivanete/H-9015-2016; França, Luis Eduardo/AET-2735-2022; Lee, Seung Mok/JXM-0966-2024; Rott, Carsten/ABB-1304-2021 | 57192656960; 58303266600; 7005922145; 59737457800; 58119423000; 57203522213; 35227850400; 16480794500; 57188983477; 57208178150; 57207888152; 35225979300; 57202928358; 57216599536; 8455192000; 57204904910; 35227722100; 57211139925; 9334469000; 57211139944; 57210576969; 7201953933; 57201926038; 55902330700; 57257129200; 57198252980; 57204797944; 57226402706; 55816685400; 57199646872; 56113238600; 57226673940; 59639095100; 56030036300; 57196171764; 7410207253; 55492072500; 59102407800; 7601588326; 57209988432; 57216886668; 58483690400; 57204895670; 55196156000; 24401181300; 56375205700; 57204519171; 57196280330; 57192312712; 17342119700; 57219686017; 56300952200; 57199723894; 58263015500; 57204422573; 7006320391; 57208174900 | tksxk752@naver.com; ejjeon@ibs.re.kr; | EUROPEAN PHYSICAL JOURNAL C | EUR PHYS J C | 1434-6044 | 1434-6052 | 85 | 1 | SCIE | PHYSICS, PARTICLES & FIELDS | 2024 | 4.8 | 24.2 | 4.26 | 2025-05-07 | 2 | 2 | NAI(TL); CRYSTAL | Dark energy; Dark Matter; Annual modulations; Background modelling; Background spectrum; Dark matter; Dark matter searches; Energy ranges; Energy thresholds; Low-mass; Modulation signals; Nonproportionality; Signal modulation | English | 2025 | 2025-01-20 | 10.1140/epjc/s10052-025-13775-0 | 바로가기 | 바로가기 | 바로가기 | 바로가기 | |||
| ○ | ○ | Article | Measurement of multidifferential cross sections for dijet production in proton-proton collisions at √s=13TeV | A measurement of the dijet production cross section is reported based on proton-proton collision data collected in 2016 at root s = 13 TeV by the CMS experiment at the CERN LHC, corresponding to an integrated luminosity of up to 36.3 fb(-1). Jets are reconstructed with the anti-k(T) algorithm for distance parameters of R = 0.4 and 0.8. Cross sections are measured double-differentially (2D) as a function of the largest absolute rapidity vertical bar y vertical bar(max) of the two jets with the highest transverse momenta p(T) and their invariant mass m(1,2), and triple-differentially (3D) as a function of the rapidity separation y*, the total boost y(b), and either m(1,2) or the average p(T) of the two jets. The cross sections are unfolded to correct for detector effects and are compared with fixed-order calculations derived at next-to-next-to-leading order in perturbative quantum chromodynamics. The impact of the measurements on the parton distribution functions and the strong coupling constant at the mass of the Z boson is investigated, yielding a value of alpha(S)(m(Z)) = 0.1179 +/- 0.0019. | Hayrapetyan, A.; Tumasyan, A.; Adam, W.; Andrejkovic, J. W.; Bergauer, T.; Chatterjee, S.; Damanakis, K.; Dragicevic, M.; Del Valle, A. Escalante; Hussain, P. S.; Jeitler, M.; Krammer, N.; Lechner, L.; Liko, D.; Mikulec, I.; Schieck, J.; Schoefbeck, R.; Schwarz, D.; Sonawane, M.; Templ, S.; Waltenberger, W.; Wulz, C. -E.; Darwish, M. R.; Janssen, T.; Kello, T.; Van Mechelen, P.; Bols, E. S.; D'Hondt, J.; De Moor, A.; Delcourt, M.; El Faham, H.; Lowette, S.; Makarenko, I.; Morton, A.; Mueller, D.; Sahasransu, A. R.; Tavernier, S.; Van Putte, S.; Vannerom, D.; Clerbaux, B.; Dansana, S.; De Lentdecker, G.; Favart, L.; Hohov, D.; Jaramillo, J.; Lee, K.; Mahdavikhorrami, M.; Malara, A.; Paredes, S.; Petre, L.; Postiau, N.; Thomas, L.; Vanden Bemden, M.; Vander Velde, C.; Vanlaer, P.; De Coen, M.; Dobur, D.; Knolle, J.; Lambrecht, L.; Mestdach, G.; Rendon, C.; Samalan, A.; Skovpen, K.; Tytgat, M.; Van den Bossche, N.; Vermassen, B.; Wezenbeek, L.; Benecke, A.; Bruno, G.; Bury, F.; Caputo, C.; Delaere, C.; Donertas, I. S.; Giammanco, A.; Jaffel, K.; Jain, Sa.; Lemaitre, V.; Lidrych, J.; Mastrapasqua, P.; Mondal, K.; Tran, T. T.; Wertz, S.; Alves, G. A.; Coelho, E.; Hensel, C.; Moraes, A.; Rebello Teles, P.; Alda Junior, W. L.; Alves Gallo Pereira, M.; Barroso Ferreira Filho, M.; Brandao Malbouisson, H.; Carvalho, W.; Chinellato, J.; Da Costa, E. M.; Da Silveira, G. G.; De Jesus Damiao, D.; Dos Santos Sousa, V.; Fonseca De Souza, S.; Martins, J.; Mora Herrera, C.; Mota Amarilo, K.; Mundim, L.; Nogima, H.; Santoro, A.; Silva Do Amaral, S. M.; Sznajder, A.; Thiel, M.; Vilela Pereira, A.; Bernardes, C. A.; Calligaris, L.; Fernandez Perez Tomei, T. R.; Gregores, E. M.; Mercadante, P. G.; Novaes, S. F.; Orzari, B.; Padula, Sandra S.; Aleksandrov, A.; Antchev, G.; Hadjiiska, R.; Iaydjiev, P.; Misheva, M.; Shopova, M.; Sultanov, G.; Dimitrov, A.; Ivanov, T.; Litov, L.; Pavlov, B.; Petkov, P.; Petrov, A.; Shumka, E.; Keshri, S.; Thakur, S.; Cheng, T.; Guo, Q.; Javaid, T.; Mittal, M.; Yuan, L.; Bauer, G.; Hu, Z.; Yi, K.; Chen, G. M.; Chen, H. S.; Chen, M.; Iemmi, F.; Jiang, C. H.; Kapoor, A.; Liao, H.; Liu, Z. -A.; Monti, F.; Sharma, R.; Song, J. N.; Tao, J.; Wang, C.; Wang, J.; Zhang, H.; Agapitos, A.; Ban, Y.; Levin, A.; Li, C.; Li, Q.; Lyu, X.; Mao, Y.; Qian, S. J.; Sun, X.; Wang, D.; Yang, H.; Lu, M.; You, Z.; Lu, N.; Gao, X.; Leggat, D.; Okawa, H.; Zhang, Y.; Lin, Z.; Lu, C.; Xiao, M.; Avila, C.; Barbosa Trujillo, D. A.; Cabrera, A.; Florez, C.; Fraga, J.; Reyes Vega, J. A.; Mejia Guisao, J.; Ramirez, F.; Rodriguez, M.; Ruiz Alvarez, J. D.; Giljanovic, D.; Godinovic, N.; Lelas, D.; Sculac, A.; Kovac, M.; Sculac, T.; Bargassa, P.; Brigljevic, V.; Chitroda, B. K.; Ferencek, D.; Mishra, S.; Starodumov, A.; Susa, T.; Attikis, A.; Christoforou, K.; Konstantinou, S.; Mousa, J.; Nicolaou, C.; Ptochos, F.; Razis, P. A.; Rykaczewski, H.; Saka, H.; Stepennov, A.; Finger, M.; Finger, M., Jr.; Kveton, A.; Ayala, E.; Carrera Jarrin, E.; Abdelalim, A. A.; Salama, E.; Mahmoud, M. A.; Mohammed, Y.; Ehataht, K.; Kadastik, M.; Lange, T.; Nandan, S.; Nielsen, C.; Pata, J.; Raidal, M.; Tani, L.; Veelken, C.; Kirschenmann, H.; Osterberg, K.; Voutilainen, M.; Bharthuar, S.; Brucken, E.; Garcia, F.; Havukainen, J.; Kallonen, K. T. S.; Kim, M. S.; Kinnunen, R.; Lampen, T.; Lassila-Perini, K.; Lehti, S.; Linden, T.; Lotti, M.; Martikainen, L.; Myllymaki, M.; Rantanen, M. M.; Siikonen, H.; Tuominen, E.; Tuominiemi, J.; Luukka, P.; Petrow, H.; Tuuva, T.; Amendola, C.; Besancon, M.; Couderc, F.; Dejardin, M.; Denegri, D.; Faure, J. L.; Ferri, F.; Ganjour, S.; Gras, P.; de Monchenault, G. Hamel; Lohezic, V.; Malcles, J.; Rander, J.; Rosowsky, A.; Sahin, M. O.; Savoy-Navarro, A.; Simkina, P.; Titov, M.; Barrera, C. Baldenegro; Beaudette, F.; Perraguin, A. Buchot; Busson, P.; Cappati, A.; Charlot, C.; Damas, F.; Davignon, O.; Diab, B.; Falmagne, G.; Alves, B. A. Fontana Santos; Ghosh, S.; de Cassagnac, R. Granier; Hakimi, A.; Harikrishnan, B.; Liu, G.; Motta, J.; Nguyen, M.; Ochando, C.; Portales, L.; Salerno, R.; Sarkar, U.; Sauvan, J. B.; Sirois, Y.; Tarabini, A.; Vernazza, E.; Zabi, A.; Zghiche, A.; Agram, J. -L.; Andrea, J.; Apparu, D.; Bloch, D.; Brom, J. -M.; Chabert, E. C.; Collard, C.; Goerlach, U.; Grimault, C.; Le Bihan, A. -C.; Van Hove, P.; Beauceron, S.; Blancon, B.; Boudoul, G.; Chanon, N.; Choi, J.; Contardo, D.; Depasse, P.; Dozen, C.; El Mamouni, H.; Fay, J.; Gascon, S.; Gouzevitch, M.; Greenberg, C.; Grenier, G.; Ille, B.; Laktineh, I. B.; Lethuillier, M.; Mirabito, L.; Perries, S.; Vander Donckt, M.; Verdier, P.; Xiao, J.; Adamov, G.; Lomidze, I.; Tsamalaidze, Z.; Botta, V.; Feld, L.; Klein, K.; Lipinski, M.; Meuser, D.; Pauls, A.; Roewert, N.; Teroerde, M.; Diekmann, S.; Dodonova, A.; Eich, N.; Eliseev, D.; Erdmann, M.; Fackeldey, P.; Fischer, B.; Hebbeker, T.; Hoepfner, K.; Ivone, F.; Lee, M. Y.; Mastrolorenzo, L.; Merschmeyer, M.; Meyer, A.; Mondal, S.; Mukherjee, S.; Noll, D.; Novak, A.; Nowotny, F.; Pozdnyakov, A.; Rath, Y.; Redjeb, W.; Rehm, F.; Reithler, H.; Schmidt, A.; Schuler, S. C.; Sharma, A.; Stein, A.; Torres Da Silva De Araujo, F.; Vigilante, L.; Wiedenbeck, S.; Zaleski, S.; Dziwok, C.; Fluegge, G.; Ahmad, W. 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M.; Lista, L.; Paolucci, P.; Rossi, B.; Sciacca, C.; Ardino, R.; Azzi, P.; Bacchetta, N.; Bisello, D.; Bortignon, P.; Bragagnolo, A.; Carlin, R.; Checchia, P.; Dorigo, T.; Gasparini, F.; Gasparini, U.; Grosso, G.; Gulmini, M.; Layer, L.; Lusiani, E.; Margoni, M.; Meneguzzo, A. T.; Migliorini, M.; Pazzini, J.; Ronchese, P.; Rossin, R.; Simonetto, F.; Strong, G.; Tosi, M.; Triossi, A.; Yarar, H.; Zanetti, M.; Zotto, P.; Zucchetta, A.; Zumerle, G.; Abu Zeid, S.; Aime, C.; Braghieri, A.; Calzaferri, S.; Fiorina, D.; Montagna, P.; Re, V.; Riccardi, C.; Salvini, P.; Vai, I.; Vitulo, P.; Asenov, P.; Bilei, G. M.; Ciangottini, D.; Fano, L.; Magherini, M.; Mantovani, G.; Mariani, V.; Menichelli, M.; Moscatelli, F.; Piccinelli, A.; Presilla, M.; Rossi, A.; Santocchia, A.; Spiga, D.; Tedeschi, T.; Azzurri, P.; Bagliesi, G.; Bhattacharya, R.; Bianchini, L.; Boccali, T.; Bossini, E.; Bruschini, D.; Castaldi, R.; Ciocci, M. 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R.; Lee, H.; Yu, I.; Beyrouthy, T.; Maghrbi, Y.; Dreimanis, K.; Gaile, A.; Pikurs, G.; Potrebko, A.; Seidel, M.; Veckalns, V.; Strautnieks, N. R.; Ambrozas, M.; Juodagalvis, A.; Rinkevicius, A.; Tamulaitis, G.; Bin Norjoharuddeen, N.; Yusuff, I.; Zolkapli, Z.; Benitez, J. F.; Castaneda Hernandez, A.; Encinas Acosta, H. A.; Gallegos Marinez, L. G.; Leon Coello, M.; Murillo Quijada, J. A.; Sehrawat, A.; Valencia Palomo, L.; Ayala, G.; Castilla-Valdez, H.; De La Cruz-Burelo, E.; Heredia-De La Cruz, I.; Lopez-Fernandez, R.; Mondragon Herrera, C. A.; Perez Navarro, D. A.; Sanchez Hernandez, A.; Oropeza Barrera, C.; Ramirez Garcia, M.; Pedraza, I.; Salazar Ibarguen, H. A.; Uribe Estrada, C.; Bubanja, I.; Raicevic, N.; Butler, P. H.; Ahmad, A.; Asghar, M. I.; Awais, A.; Awan, M. I. M.; Hoorani, H. R.; Khan, W. 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