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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
Article Formaldehyde gas response and selectivity of ZnO-SnO2 gas sensors This study aimed to develop a gas sensor based on a ZnO-SnO2 nanocomposite fabricated via ultrasonic chemical synthesis and to evaluate its ability to detect formaldehyde gas. The response, recovery, and selectivity of a series of sensors employing ZnO-SnO2 nanocomposite samples produced using various synthesis energy levels were systematically evaluated. The experimental results revealed that the sensor using the ZnO-SnO2 nanocomposite fabricated with a synthesis energy of 100,000 J produced the strongest response to formaldehyde gas and the fastest recovery time. It also demonstrated excellent selectivity when compared to toluene gas. These findings suggest that the use of an optimal synthesis energy can enhance the surface characteristics of ZnO-SnO2 nanocomposites, thus improving their sensing performance. Park, Jaebum; Chaulagain, Deepak; Same, Noel Ngando; Yakub, Abdulfatai Olatunji; Lim, Jeong Ok; Roh, Jong Wook; Huh, Jeung Soo Kyungpook Natl Univ, Inst Global Climate Change & Energy, Sch Convergence & Fus Syst Engn, Daegu, South Korea; Kyungpook Natl Univ, Joint Inst Regenerat Med, Reg Leading Res Ctr Net zero Carbon Smart Energy S, Daegu, South Korea; Kyungpook Natl Univ, Dept Nano & Adv Mat Sci & Engn, Sangju 37224, Gyeongsangbuk D, South Korea 57237034300; 57208742538; 59416735300; 57894905100; 7403454245; 25638796100; 7102258915 jshuh@knu.ac.kr; SENSORS AND ACTUATORS B-CHEMICAL SENSOR ACTUAT B-CHEM 0925-4005 425 SCIE CHEMISTRY, ANALYTICAL;ELECTROCHEMISTRY;INSTRUMENTS & INSTRUMENTATION 2024 7.7 1.9 8.15 2025-05-07 5 10 Gas sensor; ZnO; SnO2; Formaldehyde; Volatile organic compound (VOC) gas ORGANIC-COMPOUNDS VOCS; SENSING CHARACTERISTICS Formaldehyde; Gas sensor; SnO<sub>2</sub>; Volatile organic compound (VOC) gas; ZnO Chemical detection; Chemical sensors; Nanoclay; Synthesis (chemical); Toluene; Compound gas; Energy; Gas response; Gas selectivity; Gas-sensors; SnO 2; Volatile organic compound gas; Volatile organics; ZnO; ZnO/SnO; Volatile organic compounds English 2025 2025-02-15 10.1016/j.snb.2024.136958 바로가기 바로가기 바로가기 바로가기
Article Fractional impulsive controller design of fractional-order fuzzy systems with average dwell-time strategy and its application to wind energy systems In this study, the issue of adaptive impulsive control of a permanent magnet synchronous generator (PMSG)-based wind energy system (WES) with an average dwell-time strategy is investigated using a Takagi-Sugeno (T-S) fuzzy model described by fractional-order differential equations. A T-S fuzzy model is employed to describe the nonlinear fractional-order PMSG (FOPMSG) model, an average dwell time, an average impulsive condition, a Lyapunov function, and a less conservative algebraic inequality criterion that guarantees stabilization for the considered nonlinear system. First, the mathematical model of the FOPMSG in the n - m reference frame is transformed into a dimensionless chaotic system through affine transformation and time scale transformation. Then, the stabilization problem of the nonlinear chaotic FOPMSG model is considered to validate the proposed sufficient conditions, leading to the derivation of a new stability criterion for the FOPMSG model, instead of addressing the general problem to validate the proposed result. Subsequently, the desired control gains can be obtained to ensure the stabilization of the addressed closed-loop system. By combining adaptive and impulsive control, the model under consideration can be stabilized for any target dynamics. Finally, we demonstrate the efficiency and feasibility of the suggested approach through numerical simulations and comparative results. Narayanan, G.; Ali, M. Syed; Ahn, Sangtae; Joo, Young Hoon; Karthikeyan, Rajagopal; Rajchakit, Grienggrai Kyungpook Natl Univ, Sch Elect & Elect Engn, Daegu 41566, South Korea; Thiruvalluvar Univ, Dept Math, Complex Syst & Networked Sci Lab, Vellore 632115, Tamilnadu, India; Kunsan Natl Univ, Sch IT Informat & Control Engn, 588 Daehak Ro, Gunsan Si 54150, Jeonbuk, South Korea; SRM Inst Sci & Technol Ramapuram, Ctr Res, Chennai 600089, Tamilnadu, India; Easwari Engn Coll, Ctr Res, Chennai 600089, Tamilnadu, India; Maejo Univ, Fac Sci, Dept Math, Chiang Mai 50290, Thailand Rajchakit, Grienggrai/K-7043-2014; Ahn, Sangtae/AFQ-7342-2022; Syed Ali, M/K-9858-2014 59089591800; 24345328500; 55468016100; 7102315421; 57201190869; 57201986186 yhjoo@kunsan.ac.kr; COMMUNICATIONS IN NONLINEAR SCIENCE AND NUMERICAL SIMULATION COMMUN NONLINEAR SCI 1007-5704 1878-7274 140 SCIE MATHEMATICS, APPLIED;MATHEMATICS, INTERDISCIPLINARY APPLICATIONS;MECHANICS;PHYSICS, FLUIDS & PLASMAS;PHYSICS, MATHEMATICAL 2024 3.8 1.9 3.64 2025-05-07 4 3 Caputo fractional derivative; Fractional impulsive controller; Adaptive law; Wind energy system; Takagi-Sugenofuzzy SLIDING-MODE CONTROL; TURBINE SYSTEM; SYNCHRONIZATION; STABILITY Adaptive law; Caputo fractional derivative; Fractional impulsive controller; Takagi–Sugeno fuzzy; Wind energy system Adaptive control systems; Closed loop systems; Lyapunov functions; Stability criteria; Synchronous generators; Adaptive laws; Average dwell time; Caputo fractional derivatives; Fractional impulsive controller; Fractional order; Permanent magnet synchronous generator; Takagi-sugeno; Takagi–sugeno fuzzy; Time strategy; Wind energy systems; Affine transforms English 2025 2025-01 10.1016/j.cnsns.2024.108394 바로가기 바로가기 바로가기 바로가기
Article Harnessing gravity-driven membranes in activated sludge bioreactors: Enhancing energy efficiency and mitigating biofouling via quorum quenching This study developed a gravity-driven membrane bioreactor (GD-MBR) to reduce energy consumption in wastewater treatment. The system maintained a stable flux of 6 L/m2/h when treating high-organic wastewater loads (TOC: 270 mg/L, SS: 7,000 mg/L), surpassing conventional GDMs (2-4 L/m(2)/h). Quorum quenching (QQ) extended stable flux duration and increased cumulative permeate volume by 26%, treating 130 L and 73 L over 65 and 35 days, respectively, compared to 105 L and 50 L in the non-QQ system. QQ reduced biofilm extracellular polymeric substances (polysaccharides by 30% and proteins by 20%) and significantly lowered N-acylhomoserine lactone concentrations (e.g., C8-HSL: 0.02 +/- 0.01 pM vs. 0.34 +/- 0.03 pM after 106 days). Next-generation sequencing showed increased microbial network complexity (edges: 32 vs. 27) and downregulation of biofilm- and quorum-sensing-related genes (HigA-1, Fis, LuxR family). These results highlight the potential of QQ-enhanced GD-MBRs for energy-efficient treatment of high-organic wastewater loads. Jang, Jun-U; Park, Jeongmi; Kim, Hyunjung; Lee, Seonki; Choo, Kwang-Ho; Lee, Kibaek Chonnam Natl Univ, Dept Biotechnol & Bioengn, Gwangju, South Korea; Korea Maritime & Ocean Univ, Dept Environm Engn, Busan, South Korea; Kyungpook Natl Univ, Dept Environm Engn, Daegu, South Korea; Kyungpook Natl Univ, Adv Inst Water Ind, Daegu, South Korea; Kyungpook Natl Univ, Sch Architectural Civil Environm & Energy Engn, Daegu, South Korea; Chonnam Natl Univ, Dept Biomat Convergence, Gwangju, South Korea Choo, Kwang-Ho/A-3456-2016 58116081700; 58116037400; 58770829800; 57118767300; 7102083272; 55845961700 kibaek@jnu.ac.kr; NPJ CLEAN WATER NPJ CLEAN WATER 2059-7037 8 1 SCIE ENGINEERING, CHEMICAL;ENVIRONMENTAL SCIENCES;WATER RESOURCES 2024 11.4 1.9 N/A 0 0 WASTE-WATER TREATMENT; MICROBIAL COMMUNITY; BIOFILM; FILTRATION; BACTERIA; SYSTEM; FLUX; STABILIZATION; MBRS Biofilms; Biological water treatment; Bioreactors; Energy efficiency; Energy utilization; Proteins; Surface treatment; Wastewater treatment; A-stable; Activated sludge bioreactors; Energy; Extracellular; High organic; N-acylhomoserine lactones; Organic wastewater; Polymeric substance; Quorum quenching; Reduce energy consumption; activated sludge; biofouling; bioreactor; complexity; energy efficiency; energy use; membrane; microbial activity; mitigation; polymer; wastewater treatment; Quenching English 2025 2025-06-15 10.1038/s41545-025-00490-2 바로가기 바로가기 바로가기 바로가기
Article Landscape profiling of PET depolymerases using a natural sequence cluster framework Enzymes capable of breaking down polymers have been identified from natural sources and developed for industrial use in plastic recycling. However, there are many potential starting points for enzyme optimization that remain unexplored. We generated a landscape of 170 lineages of 1894 polyethylene terephthalate depolymerase (PETase) candidates and performed profiling using sampling approaches with features associated with PET-degrading capabilities. We identified three promising yet unexplored PETase lineages and two potent PETases, Mipa-P and Kubu-P. An engineered variant of Kubu-P outperformed benchmarks in terms of PET depolymerization in harsh environments, such as those with high substrate load and ethylene glycol as the solvent. Seo, Hogyun; Hong, Hwaseok; Park, Jiyoung; Lee, Seul Hoo; Ki, Dongwoo; Ryu, Aejin; Sagong, Hye-Young; Kim, Kyung-Jin Kyungpook Natl Univ, KNU Inst Microorganisms, Daegu, South Korea; Zyen Co, Daegu, South Korea; CJ CheilJedang Co, Inst Biotechnol, Suwon, South Korea; Kyungpook Natl Univ, Sch Life Sci & Biotechnol, BK21 FOUR KNU Creat BioRes Grp, Daegu, South Korea Kim, Kyung-Jin/MVY-3405-2025; Seo, Ki-weon/AAH-7729-2021; Chen, Jianli/KUD-8259-2024; Park, Jiyoung/MVY-3895-2025; Famiglietti, James/G-7383-2017 57189697998; 57208592877; 56188468900; 57205261937; 57219308133; 55661089800; 57006554000; 55510867400 kkim@knu.ac.kr; SCIENCE SCIENCE 0036-8075 1095-9203 387 6729 SCIE MULTIDISCIPLINARY SCIENCES 2024 45.8 1.9 13.67 2025-05-07 13 7 ENZYMATIC SURFACE HYDROLYSIS; POLYETHYLENE TEREPHTHALATE; SP-NOV.; CUTINASE; POLY(ETHYLENE-TEREPHTHALATE); HYDROLASE; DEGRADATION; SOLUBILITY; DIVERSITY; DATABASE Bacterial Proteins; Burkholderiales; Carboxylic Ester Hydrolases; Ethylene Glycol; Ideonella sakaiensis; Polyethylene Terephthalates; cutinase; esterase; ethylene glycol; plastic; polyethylene terephthalate; polyethylene terephthalate depolymerase; triacylglycerol lipase; unclassified drug; bacterial protein; carboxylesterase; Article; controlled study; depolymerization; enzyme activity; enzyme substrate; in vitro study; protein family; sequence analysis; sequence homology; Burkholderiales; chemistry; enzymology; genetics; isolation and purification; metabolism English 2025 2025-01-03 10.1126/science.adp5637 바로가기 바로가기 바로가기 바로가기
Article Microfibrillated cellulose derived from Gelidium amansii controls the thermo-physical properties of emulsion gel composite as the base for cheese alternative The utilization of microfibrillated cellulose (MFC) in a Pickering emulsion has become popular recently. However, its application on semi-solid emulsion gel (EG) for cheese structuring has not been invented yet. This study aimed to investigate the effect of Gelidium amansii-derived MFC addition on the thermo-physical properties of EG composite as the ingredient for vegan cheese manufacture. MFC and isolated soy protein (ISP) were incorporated in the EG composites at the concentration levels of 0-1.0 % wt. and 5-30 % wt. accordingly. As a result, the interaction of MFC and ISP could increase the emulsion gel network through the oil droplets bridging and stabilizing under the microfibrillar network of MFC. Higher MFC concentration improves gel stability and texture but reduces the lightness and meltability at a particular ISP level. The prepared cheese model using the selected EG composite (MFC 0.25 %- ISP 15 %) and corn starch hydrogel has a close color, texture, and meltability compared to the commercial dairy sliced cheese. In conclusion, MFC has a critical role in regulating the thermophysical properties of EG-based cheese alternatives. Istianah, Nur; Min, Ju Hyun; Estiasih, Teti; Putri, Widya Dwi Rukmi; Suhartini, Sri; Jung, Young Hoon Kyungpook Natl Univ, Food & Bioind Inst, Sch Food Sci & Biotechnol, Daegu 41566, South Korea; Univ Brawijaya, Dept Food Sci & Biotechnol, Malang 65145, Indonesia; Univ Brawijaya, Dept Agroind Technol, Malang 65145, Indonesia Suhartini, Sri/AAC-3161-2021; Jung, Young/F-1703-2013; Estiasih, Teti/HKM-6995-2023; Jung, Young Hoon/F-1703-2013 56664484400; 57217835247; 55622661500; 59199869400; 43462070300; 55550063700 younghoonjung@knu.ac.kr; FOOD HYDROCOLLOIDS FOOD HYDROCOLLOID 0268-005X 1873-7137 166 SCIE CHEMISTRY, APPLIED;FOOD SCIENCE & TECHNOLOGY 2024 12.4 1.9 0 2025-05-07 0 0 Gelidium amansii; Nanocellulose; Emulsion gel; Vegan cheese; Meltability Emulsion gel; Gelidium amansii; Meltability; Nanocellulose; Vegan cheese Cellulose; Concentration; Corn Starch; Gels; Oil; Physical Properties; Stability; Texture; Emulsion gel; Gelidium amansii; ITS applications; Meltability; Nano-cellulose; Pickering emulsions; Properties of emulsions; Soy protein; Thermo-physical property; Vegan cheese; Nanocellulose English 2025 2025-10 10.1016/j.foodhyd.2025.111376 바로가기 바로가기 바로가기 바로가기
Article Precise determination of electric field applied to charged materials in liquid via van der Pauw technique The electric field is a fundamental physical quantity that determines the characteristics or behavior of charged materials in liquids. The precise characterization of charged materials involving nanoparticles or biomaterials such as cells and extracellular vesicles (EVs) requires a rigorous calculation of the electric field applied to these materials. However, unlike solid-state materials, the precise measurement of the electric field applied in liquids is challenging because of liquid-electrode interface resistance and non-uniform electric-field regions near electrodes. This study proposes a method for determining the precise electric field in liquids using the van der Pauw measurement technique. The conductivity of the liquid was measured using a microfluidic channel with a van der Pauw configuration. The electric field in the liquid was then calculated based on the relationship between the conductivity and current density. The accuracy of the proposed method was verified by measuring the conductivity of standard solutions and phosphate-buffered saline (PBS), followed by determining the electric field applied to the nanoparticles in these solutions. In addition, the proposed method was used to determine the zeta potential of charged nanoparticles. This simple method for determining liquid conductivity and calculating electric fields in liquids could be effectively used for various electrochemical studies. Noh, Hyowoong; Park, Minsu; Lee, Junyeong; Bae, Ju-Hyun; Park, Honghwi; Kang, Geeyoon; Baek, Moon-Chang; Park, Hongsik Kyungpook Natl Univ, Sch Elect & Elect Engn, Daegu 41566, South Korea; Elect & Telecommun Res Inst ETRI, Digital Biomed Res Div, Daejeon 34129, South Korea; Kyungpook Natl Univ, Sch Med, Daegu 41944, South Korea; Elect & Telecommun Res Inst ETRI, Photon Wireless Devices Res Div, Daejeon 34129, South Korea Park, Honghwi/KIC-1871-2024 57209882167; 57402583800; 57210867037; 57225046295; 57206811785; 58541881100; 7006013097; 35366976200 hpark@ee.knu.ac.kr; SENSORS AND ACTUATORS B-CHEMICAL SENSOR ACTUAT B-CHEM 0925-4005 423 SCIE CHEMISTRY, ANALYTICAL;ELECTROCHEMISTRY;INSTRUMENTS & INSTRUMENTATION 2024 7.7 1.9 0 2025-05-07 0 0 Electric field measurement; Liquid conductivity; Van der Pauw method; Microfluidic chip; Interface resistance; Generalized Ohm's law ELECTROLYTE; LYSIS Electric field measurement; Generalized Ohm's law; Interface resistance; Liquid conductivity; Microfluidic chip; Van der Pauw method Electric field measurement; Fluidic devices; IV-VI semiconductors; Liquid membrane electrodes; Positive ions; Zeta potential; Electric-field measurement; Generalized ohm law; Interface resistance; Liquid conductivity; Microfluidic-chips; Ohm's law; Precise determinations; Van der Pauw; Van der Pauw method; Van der Pauw technique; Interfaces (materials) English 2025 2025-01-15 10.1016/j.snb.2024.136775 바로가기 바로가기 바로가기 바로가기
Article Smart microfluidic device for automated exosome quantification and classification using deep learning Microfluidic resistive pulse sensing offers a streamlined alternative for detecting and analyzing microparticles across various fields, including environmental science, chemistry, biomedicine, and disease diagnostics. This study introduces a novel microfluidic platform designed to analyze and characterize the physical properties of cancer-derived exosomes through automated, efficient analysis. The platform employs capillary-and vacuum-chamber-assisted passive-driven fluid injection, enabling fully automated operation. To ensure precise measurements, the platform incorporates hydrodynamic particle focusing without the need for a sheath and utilizes a reference gate to minimize noise during resistive pulse detection. The proposed microfluidic chip accurately measures the size, concentration, and zeta potential of exosomes derived from MCF-7, MDA-MB-231, and MCF-10A cell lines with high sensitivity. Furthermore, the microfluidic platform is fabricated through a cost-effective soft lithography method. Moreover, a deep learning-based model is applied to classify and distinguish exosomes based on the collected data, achieving an impressive accuracy of 96.6 %. The microfluidic platform combines high sensitivity with advanced classification capabilities. Moreover, the proposed microfluidic devices' compact and minimal operation advances Lab on a Chip for practical applications. Kim, June Soo; Kim, Hyunjun; Jang, Noah; Kim, Da Ye; Nam, Yujin; Han, Maeum; Kong, Seong Ho Kyungpook Natl Univ, Sch Elect & Elect Engn, Daegu 41566, South Korea; Kyungpook Natl Univ, Inst Semicond Fus Technol, Daegu 41566, South Korea 57314355500; 59446567300; 58130629700; 57279831500; 57211339675; 55931924500; 57204537951 shkong@knu.ac.kr; SENSORS AND ACTUATORS B-CHEMICAL SENSOR ACTUAT B-CHEM 0925-4005 440 SCIE CHEMISTRY, ANALYTICAL;ELECTROCHEMISTRY;INSTRUMENTS & INSTRUMENTATION 2024 7.7 1.9 N/A 0 0 Microfluidics; Exosome analysis; Resistive pulse sensing; Lab on a Chip; Deep neural network DIAGNOSIS; CANCER; SYMPTOMS; FABRICATION; SENSOR; STAGE Deep neural network; Exosome analysis; Lab on a Chip; Microfluidics; Resistive pulse sensing Assays; Chemical detection; Digital microfluidics; Electrolytic analysis; Environmental microbiology; Microanalysis; Microfluidic chips; Trace analysis; Disease diagnostics; Environmental science; Exosome analyze; Exosomes; High sensitivity; Micro particles; Microfluidic platforms; Microfluidics devices; Neural-networks; Resistive pulse sensing; Fluidic logic devices English 2025 2025-10-01 10.1016/j.snb.2025.137919 바로가기 바로가기 바로가기 바로가기
Article Superstable lipid vacuoles endow cartilage with its shape and biomechanics Conventionally, the size, shape, and biomechanics of cartilages are determined by their voluminous extracellular matrix. By contrast, we found that multiple murine cartilages consist of lipid-filled cells called lipochondrocytes. Despite resembling adipocytes, lipochondrocytes were molecularly distinct and produced lipids exclusively through de novo lipogenesis. Consequently, lipochondrocytes grew uniform lipid droplets that resisted systemic lipid surges and did not enlarge upon obesity. Lipochondrocytes also lacked lipid mobilization factors, which enabled exceptional vacuole stability and protected cartilage from shrinking upon starvation. Lipid droplets modulated lipocartilage biomechanics by decreasing the tissue's stiffness, strength, and resilience. Lipochondrocytes were found in multiple mammals, including humans, but not in nonmammalian tetrapods. Thus, analogous to bubble wrap, superstable lipid vacuoles confer skeletal tissue with cartilage-like properties without "packing foam-like" extracellular matrix. Ramos, Raul; Pham, Kim T.; Prince, Richard C.; Leiser-Miller, Leith B.; Prasad, Maneeshi S.; Wang, Xiaojie; Nordberg, Rachel C.; Bielajew, Benjamin J.; Hu, Jerry C.; Yamaga, Kosuke; Oh, Ji Won; Peng, Tao; Datta, Rupsa; Astrowskaja, Aksana; Almet, Axel A.; Burns, John T.; Liu, Yuchen; Guerrero-Juarez, Christian Fernando; Tran, Bryant Q.; Chu, Yi-Lin; Nguyen, Anh M.; Hsi, Tsai-Ching; Lim, Norman T. -L.; Schoeniger, Sandra; Liu, Ruiqi; Pai, Yun-Ling; Vadivel, Chella K.; Ingleby, Sandy; McKechnie, Andrew E.; van Breukelen, Frank; Hoehn, Kyle L.; Rasweiler, John J.; Kohara, Michinori; Loughry, William J.; Weldy, Scott H.; Cosper, Raymond; Yang, Chao-Chun; Lin, Sung-Jan; Cooper, Kimberly L.; Santana, Sharlene E.; Bradley, Jeffrey E.; Kiebish, Michael A.; Digman, Michelle; James, David E.; Merrill, Amy E.; Nie, Qing; Schilling, Thomas F.; Astrowski, Aliaksandr A.; Potma, Eric O.; Garcia-Castro, Martin I.; Athanasiou, Kyriacos A.; Behringer, Richard R.; Plikus, Maksim V. Univ Calif Irvine, Dept Dev & Cell Biol, Irvine, CA 92717 USA; Univ Calif Irvine, Sue & Bill Gross Stem Cell Res Ctr, Irvine, CA 92717 USA; Univ Calif Irvine, Dept Chem, Irvine, CA USA; Univ Calif Irvine, Dept Biomed Engn, Irvine, CA USA; Univ Washington, Dept Biol, Seattle, WA USA; Univ Calif Riverside, Sch Med, Div Biomed Sci, Riverside, CA USA; SUNY Buffalo, Jacobs Sch Med & Biomed Sci, Dept Biochem, Buffalo, NY USA; Yonsei Univ, Dept Anat, Coll Med, Seoul, South Korea; Kyungpook Natl Univ, Sch Med, Dept Anat, Daegu, South Korea; Kyungpook Natl Univ Hosp, Biomed Res Inst, Daegu, South Korea; Univ Calif Irvine, Dept Math, Irvine, CA USA; Univ Calif Irvine, Ctr Complex Biol Syst, Irvine, CA 92697 USA; Grodna State Med Univ, Sci Res Lab Mol Med, Grodna, BELARUS; Univ Calif Irvine, NSF Simons Ctr Multiscale Cell Fate Res, Irvine, CA 92697 USA; Natl Inst Educ, Singapore, Singapore; Univ Leipzig, Inst Vet Pathol, Leipzig, Germany; Discovery Life Sci Biomarker Serv GmbH, Kassel, Germany; Natl Taiwan Univ, Inst Biomed Engn, Coll Med, Taipei, Taiwan; Natl Taiwan Univ, Coll Engn, Taipei, Taiwan; Univ Copenhagen, Dept Immunol & Microbiol, LEO Fdn, Skin Immunol Res Ctr, Copenhagen, Denmark; Australian Museum, Sydney, NSW, Australia; Univ Pretoria, Mammal Res Inst, Dept Zool & Entomol, Hatfield, South Africa; South African Natl Biodivers Inst, Pretoria, South Africa; Univ Nevada, Sch Life Sci, Las Vegas, NV USA; Univ New South Wales, Sch Biotechnol & Biomol Sci, Sydney, NSW, Australia; Suny Downstate Med Ctr, Dept Obstet & Gynecol, New York, NY USA; Tokyo Metropolitan Inst Med Sci, Dept Microbiol & Cell Biol, Tokyo, Japan; Valdosta State Univ, Valdosta, GA USA; Serrano Anim & Bird Hosp, Lake Forest, CA USA; Santa Ana Zoo, Santa Ana, CA USA; Natl Cheng Kung Univ, Natl Cheng Kung Univ Hosp, Dept Dermatol, Coll Med, Tainan, Taiwan; Natl Cheng Kung Univ, Int Ctr Wound Repair & Regenerat, Tainan, Taiwan; Univ Calif San Diego, Dept Cell & Dev Biol, San Diego, CA USA; Univ Washington, Dept Mammal, Burke Museum, Seattle, WA USA; BPGbio Inc, Framingham, MA USA; Univ Calif Irvine, Dept Chem Engn & Mat Sci, Irvine, CA USA; Univ Sydney, Sch Life & Environm Sci, Charles Perkins Ctr, Sydney, NSW, Australia; Univ Sydney, Sch Med Sci, Sydney, NSW, Australia; Univ Southern Calif, Ostrow Sch Dent, Ctr Craniofacial Mol Biol, Los Angeles, CA USA; Inst Biochem Biol Act Cpds, Grodna, BELARUS; Univ Texas MD Anderson Canc Ctr, Dept Genet, Houston, TX USA Prince, Richard/GRR-7668-2022; Hu, Jerry/E-7385-2013; James, David/KYY-9051-2024; Guerrero-Juarez, Christian/MGB-3750-2025; Lim, Norman/P-4940-2016; McKechnie, Andrew/E-4398-2010 55758058000; 57210098862; 57194167330; 57201339069; 37031888300; 57206601495; 56800634100; 57216657289; 55499476600; 57205710114; 36093206200; 59512891800; 56459602000; 57201342796; 56682107100; 59512583800; 57225001365; 56004365500; 59512891900; 59512425000; 59512275600; 55912960800; 16024807900; 59512892000; 59882868100; 59512425100; 57193844623; 56470647500; 7004684950; 6601942490; 57193555255; 55666937600; 55362962600; 6603925961; 57003309000; 59513205600; 59902096600; 7407160357; 7402066548; 35105939600; 59512892200; 8935383200; 6507138625; 7401733057; 35881761700; 7005041797; 7004937463; 56274554700; 6701581348; 6701372884; 57209080516; 7102050240; 6506862971 plikus@uci.edu; SCIENCE SCIENCE 0036-8075 1095-9203 387 6730 SCIE MULTIDISCIPLINARY SCIENCES 2024 45.8 1.9 13.67 2025-05-07 3 6 NEURAL CREST; EVOLUTION; DISCOVERY; CELLS Adipocytes; Animals; Biomechanical Phenomena; Cartilage; Extracellular Matrix; Humans; Lipid Droplets; Lipid Metabolism; Lipogenesis; Mice; Obesity; Vacuoles; bone morphogenetic protein 5; collagen; cycline; diacylglycerol; fat droplet; fatty acid ester; fatty acid synthase; myocilin; perilipin 1; peroxisome proliferator activated receptor gamma coactivator 1alpha; platelet endothelial cell adhesion molecule 1; transcription factor Sox9; triacylglycerol; vimentin; Wnt1 protein; fat droplet; biomechanics; cell; droplet; lipid; mammal; skeleton; adipocyte; adult; aged; anatomical concepts; animal experiment; animal model; animal tissue; Article; biomechanics; caloric restriction; cell differentiation; cell vacuole; controlled study; differential gene expression; ear cartilage; echolocation; embryo development; extracellular matrix; female; flow cytometry; gene expression; gene ontology; high performance liquid chromatography; immunohistochemistry; knee meniscus; lipid diet; lipid vacuole; lipidomics; lipogenesis; liquid chromatography-mass spectrometry; male; mouse; multiomics; nonhuman; notochord; phylogeny; pluripotent stem cell; rat; real time polymerase chain reaction; regenerative medicine; rib cartilage; RNA sequencing; tensile strength; transcriptomics; vertebrate; Young modulus; animal; biomechanics; cartilage; cytology; extracellular matrix; human; lipid metabolism; metabolism; obesity; physiology English 2025 2025-01-10 10.1126/science.ads9960 바로가기 바로가기 바로가기 바로가기
Article Synthesis and morphology-dependent CO2 gas sensing properties of Ca & Al codoped ZnO nanostructures Monitoring CO2 emissions is critical due to their impact on climate change, necessitating the development of efficient gas sensors with high sensitivity and selectivity at moderate operating temperatures. This study investigated the gas-sensing performance of ZnO nanomaterials, particularly undoped ZnO and Ca,Al codoped ZnO, for CO2 detection. Gas sensing measurements were conducted in a chamber with a fixed total flow rate of 1000 sccm, adjusting the temperature and CO2 gas concentration between 1000 and 5000 ppm. Three types of ZnO nanomaterials, including nanowires (NWs), nanorods, and nanoparticles, were synthesized via a sol–gel method and evaluated for their gas-sensing capabilities. Among these, the NWs exhibited the highest response to CO2. The Ca,Al codoped ZnO NWs demonstrated superior gas sensitivity, particularly at high CO2 concentrations and at lower levels. The limit of detection for CO2 was 6.65 ppm. Furthermore, the codoped ZnO NWs exhibited significant responses to various gases, with the highest response recorded for CO2 (9.56 at 5000 ppm). This performance highlights the strong potential of the Ca,Al codoped ZnO NWs as effective gas sensors for CO2 detection at moderate temperatures. © 2025 Elsevier B.V. Yang, Yijun; Kwon, JinBeom; Jung, Dong Geon; Jung, Daewoong Advanced Mechatronics R&D Group, Korea Institute of Industrial Technology (KITECH), Daegu, 42994, South Korea, School of Electronic and Electrical Engineering, College of IT Engineering, Kyungpook National University, 80 Daehakro, Daegu, 41566, South Korea; Advanced Mechatronics R&D Group, Korea Institute of Industrial Technology (KITECH), Daegu, 42994, South Korea; Advanced Mechatronics R&D Group, Korea Institute of Industrial Technology (KITECH), Daegu, 42994, South Korea; Advanced Mechatronics R&D Group, Korea Institute of Industrial Technology (KITECH), Daegu, 42994, South Korea, College of Nanoscience & Nanotechnology, Department of Nanomechatronics Engineering, Pusan National University, 2 Busandaehak-ro, Busan, 46241, South Korea 58142256700; 57191591392; 59969970600; 36019307900 dwjung@pusan.ac.kr; Sensors and Actuators B: Chemical SENSOR ACTUAT B-CHEM N/A 0925-4005 443 SCIE CHEMISTRY, ANALYTICAL;ELECTROCHEMISTRY;INSTRUMENTS & INSTRUMENTATION 2024 7.7 1.9 0 Ca,Al codoped ZnO; Carbon dioxide gas sensor; Metal oxide gas sensor Carbon dioxide; Chemical detection; Chemical sensors; Climate change; Gas detectors; Gas emissions; Gas sensing electrodes; Nanorods; Nanostructured materials; Sols; Synthesis (chemical); Zinc oxide; Ca,al codoped ZnO; Carbon dioxide gas sensor; Co-doped; Gas sensing; Gas-sensors; High response; Metal-oxides gas sensors; ZnO; ZnO nanomaterials; ZnO nanowires; II-VI semiconductors English Final 2025 10.1016/j.snb.2025.138217 바로가기 바로가기 바로가기
Article Artificial intelligence high-throughput prediction building dataset to enhance the interpretability of hybrid halide perovskite bandgap The bandgap is a key parameter for understanding and designing hybrid perovskite material properties, as well as developing photovoltaic devices. Traditional bandgap calculation methods like ultraviolet-visible spectroscopy and first-principles calculations are time- and power-consuming, not to mention capturing bandgap change mechanisms for hybrid perovskite materials across a wide range of unknown space. In the present work, an artificial intelligence ensemble comprising two classifiers (with F1 scores of 0.9125 and 0.925) and a regressor (with mean squared error of 0.0014 eV) is constructed to achieve high-precision prediction of the bandgap. The bandgap perovskite dataset is established through high-throughput prediction of bandgaps by the ensemble. Based on the self-built dataset, partial dependence analysis (PDA) is developed to interpret the bandgap influential mechanism. Meanwhile, an interpretable mathematical model with an R2 of 0.8417 is generated using the genetic programming symbolic regression (GPSR) technique. The constructed PDA maps agree well with the Shapley Additive exPlanations, the GPSR model, and experiment verification. Through PDA, we reveal the boundary effect, the bowing effect, and their evolution trends with key descriptors. © 2025 Science Press Chen, Wenning; Yun, Jungchul; Im, Doyun; Li, Sijia; Mularso, Kelvian T.; Nam, Jihun; Jo, Bonghyun; Lee, Sangwook; Jung, Hyun Suk Department of Future Energy Engineering, Sungkyunkwan University, Suwon, 16419, South Korea, SKKU Institute of Energy Science and Technology (SIEST), Sungkyunkwan University, Suwon, 16419, South Korea; School of Materials Science and Engineering, Kyungpook National University, Daegu, 41566, South Korea; School of Materials Science and Engineering, Kyungpook National University, Daegu, 41566, South Korea; School of Advanced Materials Science and Engineering, Sungkyunkwan University, Suwon, 16419, South Korea; SKKU Institute of Energy Science and Technology (SIEST), Sungkyunkwan University, Suwon, 16419, South Korea, School of Advanced Materials Science and Engineering, Sungkyunkwan University, Suwon, 16419, South Korea; School of Materials Science and Engineering, Kyungpook National University, Daegu, 41566, South Korea; SKKU Institute of Energy Science and Technology (SIEST), Sungkyunkwan University, Suwon, 16419, South Korea, School of Advanced Materials Science and Engineering, Sungkyunkwan University, Suwon, 16419, South Korea; School of Materials Science and Engineering, Kyungpook National University, Daegu, 41566, South Korea; Department of Future Energy Engineering, Sungkyunkwan University, Suwon, 16419, South Korea, SKKU Institute of Energy Science and Technology (SIEST), Sungkyunkwan University, Suwon, 16419, South Korea, School of Advanced Materials Science and Engineering, Sungkyunkwan University, Suwon, 16419, South Korea 57732793500; 58066629400; 58786742800; 57552477800; 57203247480; 59959462900; 57194871843; 57203597324; 59959296100 jbh0721@skku.edu; Journal of Energy Chemistry J ENERGY CHEM 2095-4956 2095-4956 109 SCIE CHEMISTRY, APPLIED;CHEMISTRY, PHYSICAL;ENERGY & FUELS;ENGINEERING, CHEMICAL 2024 14.9 2.0 0 Artificial intelligence; High-throughput; Model interpretability; Partial dependence analysis; Perovskite bandgap Forecasting; Genetic algorithms; Genetic programming; Hybrid materials; Throughput; Dependence analysis; Halide perovskites; High-throughput; Interpretability; Keys parameters; Model interpretability; Partial dependence analyze; Perovskite bandgap; Property; Symbolic regression; Mean square error; Perovskite English Final 2025 10.1016/j.jechem.2025.05.059 바로가기 바로가기 바로가기
Article Streptococcus mutans-derived extracellular vesicles promote skin wound healing via tRNA cargo BackgroundThe human oral cavity harbors a diverse microbiota, including Streptococcus species. Oral mucosal wounds heal rapidly, although the exact cause remains unclear. This study investigates the impact of Streptococcus mutans-derived extracellular vesicles (Sm EVs) on wound healing in both oral mucosal organoids and mouse skin. To explore whether microbial EV RNA cargo influences wound healing, RNA sequences from Sm EVs were identified, and the most abundant sequences were synthesized into oligomers and encapsulated in E. coli EVs (Ec EVs) for further in vivo testing. We assessed the role of Toll-like receptor 3 (TLR3) in the wound healing mechanism in TLR3 knockout (KO) mice.ResultsSm EVs significantly enhanced cell proliferation and migration in oral mucosa, with enhanced focal adhesion complex formation. Sm EVs improved wound healing in mouse dorsal skin compared to PBS controls. RNA sequencing revealed that bacterial tRNAs, particularly the tRNA-Met variant (Oligo 1), were the most abundant RNAs in Sm EVs. Ec EVs carrying Oligo 1 produced similar wound healing effects to Sm EVs in mucosal organoids and mouse dorsal skin. However, in TLR3 knockout mice, Oligo 1 did not improve wound healing.ConclusionsThis study highlights the role of Sm EVs, particularly their tRNA variants, in promoting skin wound healing through a TLR3-dependent mechanism. These findings suggest that EVs from oral commensal bacteria may offer therapeutic potential for chronic, non-healing skin wounds. Oh, Su Young; Kim, Dong Yeon; Lee, Kah Young; Ha, Dae-Lyong; Kim, Tae-Lyn; Kwon, Tae-Geon; Kim, Jin-Wook; Lee, Heon-Jin; Choi, So-Young; Hong, Su-Hyung Kyungpook Natl Univ, Sch Dent, Dept Microbiol & Immunol, Daegu, South Korea; Kyungpook Natl Univ, Sch Med, Dept Dermatol, Daegu, South Korea; Kyungpook Natl Univ, Sch Dent, Dept Oral & Maxillofacial Surg, Daegu, South Korea Kim, Jin/GSD-4756-2022 57204016703; 59756965700; 57226450171; 57201367090; 59757691800; 35205433300; 55862646000; 36462383000; 57202918688; 8691449100 heonlee@knu.ac.kr; dentalchoi@knu.ac.kr; hongsu@knu.ac.kr; JOURNAL OF NANOBIOTECHNOLOGY J NANOBIOTECHNOL 1477-3155 23 1 SCIE NANOSCIENCE & NANOTECHNOLOGY;BIOTECHNOLOGY & APPLIED MICROBIOLOGY 2024 12.6 2.0 0 2025-05-07 0 0 Streptococcus mutans; Extracellular vesicles; Oral mucosa; Skin wound healing; TLR3; Bacterial tRNA GROWTH-FACTOR RECEPTOR; MEMBRANE-VESICLES; ORAL-MUCOSA; BACTERIA; PROLIFERATION; INFLAMMATION; MICROBIOME; INDUCTION; DEFENSE; HEALTH Bacterial tRNA; Extracellular vesicles; Oral mucosa; Skin wound healing; Streptococcus mutans; TLR3 Animals; Cell Movement; Cell Proliferation; Escherichia coli; Extracellular Vesicles; Humans; Mice; Mice, Inbred C57BL; Mice, Knockout; Mouth Mucosa; RNA, Transfer; Skin; Streptococcus mutans; Toll-Like Receptor 3; Wound Healing; Listeria; Mammals; afatinib; focal adhesion kinase; gefitinib; Ki 67 antigen; lipofectamine; toll like receptor 3; transfer RNA; TLR3 protein, mouse; toll like receptor 3; transfer RNA; Bacterial tRNA; E. coli; Extracellular; Extracellular vesicle; Oral mucosa; Organoids; Skin wound healing; Streptococcus mutans; Toll-like receptor 3; Wound healing; animal experiment; animal model; Article; cancer growth; cell migration; cell proliferation; cell viability; confocal microscopy; controlled study; EGFR signaling; epithelium cell; Escherichia coli; exosome; human; human cell; human tissue; male; mouse; mouth mucosa; mouth squamous cell carcinoma; nonhuman; phase contrast microscopy; protein phosphorylation; real time polymerase chain reaction; RNA sequencing; skin; Streptococcus mutans; UM-SCC-1 cell line; Western blotting; wound healing; wound healing assay; animal; C57BL mouse; cell motion; drug effect; genetics; injury; knockout mouse; metabolism; Escherichia coli English 2025 2025-04-28 10.1186/s12951-025-03410-1 바로가기 바로가기 바로가기 바로가기
Article A study on the forecast of fine dust emissions in the future according to the introduction of eco-friendly ships This study analyzes the anticipated impact of the deployment of green ships on reducing air pollutant emissions. We estimated air pollutant emissions from ships in Incheon Port, South Korea, and conducted a literature review and expert interviews to analyze changes in emissions as a function of the rate at which new ships can be converted to green ships in the future. The analysis showed that the PM10 and PM2.5 emissions from ships were 40.5 tons and 37.8 tons in 2021, respectively. As a result of predicting future emissions based on the scenario of deploying green ships, we found that PM10 and PM2.5 emissions would reach 26.3 tons/year and 24.8 tons/ year, respectively, in 2040. In this study, we analyzed the extent to which air pollutant emissions could be reduced through the use of green ships and the quantitative effects of new ship conversions. Findings of this study can be used as foundational data for establishing air quality management policies not only for Incheon Port and the Incheon region, but also for other port cities. Lee, Jungwook; Chen, Jiarong; Yip, Tsz Leung; Lee, Hyangsook Incheon Natl Univ, Incheon, South Korea; Kyungpook Natl Univ, Daegu, South Korea; Hong Kong Polytech Univ, Hong Kong, Peoples R China Chen, Jia-Rong/MBG-8291-2025; Chen, Jiarong/MBG-8291-2025; Yip, Tsz Leung/B-4288-2010 55870626300; 59468430100; 7004283954; 55676718800 jw34668811@daum.net; gayoung@knu.ac.kr; t.l.yip@polyu.edu.hk; hslee14@inu.ac.kr; MARINE POLLUTION BULLETIN MAR POLLUT BULL 0025-326X 1879-3363 212 SCIE ENVIRONMENTAL SCIENCES;MARINE & FRESHWATER BIOLOGY 2024 4.9 2.1 3.86 2025-05-07 1 1 Port emission; Fine dust emission; Eco-friendly ship; Incheon port SHIPPING EMISSIONS; PORT; POLLUTION; IMPACT; HARBOR Eco-friendly ship; Fine dust emission; Incheon port; Port emission Air Pollutants; Air Pollution; Dust; Environmental Monitoring; Forecasting; Particulate Matter; Republic of Korea; Ships; Incheon [South Korea]; South Korea; Air pollutant emission; Dust emission; Eco-friendly; Eco-friendly ship; Fine dust emission; Fine dusts; Incheon; Incheon port; New ships; Port emission; atmospheric pollution; emission control; future prospect; particulate matter; port operation; air pollutant; air quality; article; controlled study; dust; interview; particulate matter 10; particulate matter 2.5; ship; South Korea; total quality management; air pollutant; air pollution; environmental monitoring; forecasting; particulate matter; procedures English 2025 2025-03 10.1016/j.marpolbul.2024.117507 바로가기 바로가기 바로가기 바로가기
Article Carbon dioxide removal (CDR) potential in temperate macroalgal forests: A comparative study of chemical and biological net ecosystem production (NEP) The carbon dioxide removal (CDR) capacity of macroalgae, a crucial component in climate regulation, has gained increasing attention. However, accurately estimating the CDR potential of macroalgae in natural conditions remains challenging, necessitating the use of multiple independent methods to reduce the uncertainties in these estimates. In this study, we compared two methods for estimating net ecosystem production (NEP), a key parameter in determining CDR potential: 1) NEPChem., derived from seawater carbonate chemistry and 2) NEPBiol., based on photorespiratory measurements using benthic tent incubation. This study, conducted in a macroalgal forest dominated by Ecklonia cava, involved simultaneous measurements of NEPChem. and NEPBiol. over a course of one year. Our findings revealed that NEPBiol. was 1.23 times higher than NEPChem., with an annual rate of 3.69 tons CO2 ha-1 yr-1. These results suggest that both independent methods are reliable and can be used complementarily to improve the accuracy of NEP measurements, thereby enhancing estimates of the CDR potential of macroalgae. Kim, Ju-Hyoung; Lee, Hyung Woo; Lee, Juhyung; Kim, Miok; Lee, Kitak; Kim, Changsin; Kang, Eun Ju; Kim, Ye Rim; Yoon, Yeo Jin; Bin Lee, Soo; Kim, Hyun Jeong; Choi, Eun Jin; Yoon, Ho-Sung; Kim, Boseong; Kang, Jin Woo; Oh, Ji Chul; Kim, Jun Ho; Choi, Im Ho Kunsan Natl Univ, Dept Aquaculture & Aquat Sci, Gunsan 54150, South Korea; Pusan Natl Univ, Dept Oceanog, Pusan 46241, South Korea; Pusan Natl Univ, Marine Res Inst, Pusan 46241, South Korea; Pohang Univ Sci & Technol, Div Environm Sci & Engn, Pohang 37673, South Korea; Natl Inst Fisheries Sci, Ocean Climate & Ecol Res Div, Pusan 46083, South Korea; Kyungpook Natl Univ, Sch Life Sci, BK21 FOUR KNU Creat Biores Grp, Daegu 41566, South Korea; Kyungpook Natl Univ, Integrated Blue Carbon Res Ctr, Adv Bioresource Res Ctr, Daegu 41566, South Korea; Kyungpook Natl Univ, Coll Nat Sci, Dept Biol, Daegu 41566, South Korea; Korea Fisheries Resources Agcy FIRA, Fisheries Resources Management Dept, Blue Carbon Implementat Div, Pusan 46041, South Korea Kang, Eun-Ju/N-7376-2015; Kim, Ju-Hyoung/S-6240-2019 36446122900; 56438179100; 57222363413; 55686307900; 7501496581; 55549643400; 55604032700; 58994461200; 59421753700; 59422169700; 59422448500; 59422169800; 7402990205; 59094437700; 59850956400; 56906482900; 59421753800; 57306075500 juhyoung@kunsan.ac.kr; MARINE POLLUTION BULLETIN MAR POLLUT BULL 0025-326X 1879-3363 210 SCIE ENVIRONMENTAL SCIENCES;MARINE & FRESHWATER BIOLOGY 2024 4.9 2.1 3.86 2025-05-07 0 1 Air-sea CO2 flux; Benthic tent incubation; Carbon dioxide removal (CDR); Ecklonia cava; Inorganic carbon uptake (C-T uptake); Net ecosystem production (NEP); Macroalgae habitat WIND-SPEED; ACID; DISSOCIATION; CONSTANTS; EXCHANGE; SEAWATER; DRIVEN; CYCLE; FLUX Air-sea CO<sub>2</sub> flux; Benthic tent incubation; Carbon dioxide removal (CDR); Ecklonia cava; Inorganic carbon uptake (C<sub>T</sub> uptake); Macroalgae habitat; Net ecosystem production (NEP) Carbon Dioxide; Ecosystem; Environmental Monitoring; Forests; Seawater; Seaweed; Abiotic; Biotic; Carbon capture and storage; Carbon capture and utilization; Carbon sequestration; Direct air capture; Kyoto Protocol; carbonic acid; dissolved oxygen; sea water; carbon dioxide; Air-sea CO2 flux; Benthic tent incubation; Carbon dioxide removal; Carbon uptake; Ecklonia cava; Inorganic carbon; Inorganic carbon uptake (CT uptake); Macro algae; Macro-algae; Macroalga habitat; Net ecosystem production; accuracy assessment; air-sea interaction; atmospheric pollution; bioremediation; carbon dioxide; carbon flux; comparative study; dominance; inorganic carbon; macroalga; measurement method; net ecosystem production; pollutant removal; pollution control; temperate forest; alga; Article; atmospheric carbon dioxide removal; biological net ecosystem production; chemical net ecosystem production; Colpomenia sinuosa; comparative study; coulometry; Ecklonia cava; ecosystem; Eisenia bicyclis; forest; Gelidium elegans; Grateloupia elliptica; macroalga; multiple linear regression analysis; nonhuman; photosynthesis; Plocamium telfairiae; salinity; Sargassum; Sargassum fulvellum; sea surface temperature; season; seasonal variation; temperate macroalgal forest; temperature; thermodynamics; voltammetry; chemistry; environmental monitoring; seaweed; Macroinvertebrates English 2025 2025-01 10.1016/j.marpolbul.2024.117327 바로가기 바로가기 바로가기 바로가기
Article Environmental efficiency assessment of coastal ports in China: Implications for sustainable port management By employing Data Envelopment Analysis (DEA) with Slacks-Based Measure (SBM) and DEA-Undesirable Output models, this study aims to investigate the operational and environmental efficiency of 26 major ports across China's Special Economic Zones (SEZs). Focusing on the interplay between operation performance and environmental sustainability, this research evaluates how well these ports manage their operational activities while minimizing their environmental impact. The results indicate that the ports in the Yangtze River Delta, Pearl River Delta, and Southwest Coast significantly outperform others. These ports benefit from advanced infrastructural setups and operational capabilities that enhance throughput while adhering to environmental standards. This study underscores the importance of integrating sustainable practices and green technologies into port operations, suggesting that such integration not only reduces ecological footprints but also bolsters efficiency. It highlights areas where ports lag in efficiency and proposes targeted interventions to enhance environmental and operational outcomes. By identifying the correlation between high efficiency scores and low CO2 emissions, this paper presents a compelling argument for adopting more stringent environmental measures in port management practices, thereby aligning port operations with global sustainability goals. Chen, Jia-Rong; Choi, Jeong-Won; Seo, Young-Joon Kyungpook Natl Univ, Grad Sch, Dept Int Trade, 80 Daehak Ro, Daegu 41566, South Korea Seo, Young-Joon/AAY-6105-2021; Chen, Jiarong/MBG-8291-2025; Chen, Jia-Rong/MBG-8291-2025 59468430100; 58644952600; 56999695700 gayoung@knu.ac.kr; chlwjddnjs73@knu.ac.kr; y.seo@knu.ac.kr; MARINE POLLUTION BULLETIN MAR POLLUT BULL 0025-326X 1879-3363 211 SCIE ENVIRONMENTAL SCIENCES;MARINE & FRESHWATER BIOLOGY 2024 4.9 2.1 7.72 2025-05-07 3 3 Port efficiency; Environmental efficiency; Data envelopment analysis; Operational efficiency; Green ports; Sustainable development SLACKS-BASED MEASURE; DEA; TECHNOLOGIES; PERFORMANCE; EMISSIONS Data envelopment analysis; Environmental efficiency; Green ports; Operational efficiency; Port efficiency; Sustainable development China; Conservation of Natural Resources; Environmental Monitoring; Ships; China; Data envelopment; Efficiency assessment; Environmental efficiency; Green ports; Operational efficiencies; Port efficiency; Port operations; Slack-based measures; Special economic zones; Sustainable port managements; carbon emission; data envelopment analysis; ecological footprint; efficiency measurement; green economy; port; sustainability; sustainable development; article; carbon dioxide emission; controlled study; ecological footprint; environmental impact; environmental sustainability; pharmaceutics; productivity; river; seashore; sustainable development; China; environmental monitoring; environmental protection; procedures; ship English 2025 2025-02 10.1016/j.marpolbul.2024.117436 바로가기 바로가기 바로가기 바로가기
Article Experimental Infection of Enterocytozoon hepatopenaei (EHP) by Water and Sediment Transfer Between Pacific White Shrimp (Penaeus vannamei) and Green Mud Crab (Scylla paramamosain) Enterocytozoon hepatopenaei (EHP) is an important shrimp pathogen, causing growth retardation syndrome which leads to substantial economic losses worldwide. In this study, we examined the possibility of EHP transmission between Pacific white shrimp (Penaeus vannamei) and green mud crabs (Scylla paramamosain), a common benthic species in shrimp culture environments. Naturally infected shrimp (with EHP loads ranging from 102 to 106 copies/mu L) were used as donors for EHP transmission to EHP-free crabs and shrimp through water and sediment transfer. The recipient shrimp became EHP-positive 7 days post-exposure (dpe) (with EHP loads ranging from 101 to 104 copies/mu L). Histopathological examination confirmed EHP spores in the hepatopancreatic cells of the recipient shrimp at 7 and 14 dpe. The recipient crabs were EHP-positive after 14 dpe (EHP loads between 101 and 102 copies/mu L) and the crabs could transmit EHP back to the recipient shrimp (EHP loads ranging from 101 to 102 copies/mu L) 14 dpe via the same route. Although the crabs tested positive for EHP through PCR and qPCR, no histopathological change was observed. The present study suggests that green mud crabs may act as a mechanical vector for EHP transmission, providing information to enhance biosecurity protocols in shrimp farms to reduce the risk of EHP contamination. Tanpichai, Pornpawit; Charoenwai, Onanong; Sataporn, Chommanad; Srisuwatanasagul, Sayamon; Chothirunpanit, Apichat; Suksumran, Nuntapon; Jeon, Hye Jin; Kim, Bumkeun; Han, Jee Eun; Piamsomboon, Patharapol Chulalongkorn Univ, Fac Vet Sci, Dept Vet Med, Bangkok 10330, Thailand; Mahanakorn Univ Technol, Fac Vet Med, Aquat Anim Clin, Bangkok 10530, Thailand; Chulalongkorn Univ, Fac Vet Sci, Grad Program Vet Sci & Technol VST Int Program, Bangkok 10330, Thailand; Chulalongkorn Univ, Fac Vet Sci, Dept Anat, Bangkok 10330, Thailand; Chanthaburi Coastal Aquaculture Res & Dev Ctr, Chanthaburi 22000, Thailand; Kyungpook Natl Univ, Coll Vet Med, Daegu 41566, South Korea; Kyungpook Natl Univ, Inst Vet Biomed Sci, Daegu 41566, South Korea tanpichai, pornpawit/HLX-0316-2023 57250981800; 57207862868; 59740489200; 25652295000; 59740055500; 59740636800; 57212193058; 57225056167; 59510656600; 56106906400 jehan@knu.ac.kr; patharapol.p@chula.ac.th; PAKISTAN VETERINARY JOURNAL PAK VET J 0253-8318 2074-7764 45 1 SCIE VETERINARY SCIENCES 2024 5.4 2.1 0 2025-05-07 0 0 Enterocytozoon hepatopenaei; Feces; Hepatopancreatic; microsporidiosis; inter-species; Penaeus vannamei; Scylla paramamosain Enterocytozoon hepatopenaei; Feces; Hepatopancreatic; inter-species; microsporidiosis; Penaeus vannamei; Scylla paramamosain acclimatization; animal experiment; animal model; animal tissue; Article; controlled study; DNA extraction; Enterocytozoon hepatopenaei; hepatopancreas; histopathology; microscopy; nonhuman; parasite; Penaeus vannamei; polymerase chain reaction; real time polymerase chain reaction; Scylla paramamosain; sediment; shrimp English 2025 2025 10.29261/pakvetj/2025.126 바로가기 바로가기 바로가기 바로가기
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