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Search Results (965)

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18 pages, 3218 KB  
Article
Natural Si/N Co-Doped Porous Biomass Carbon Micron-Tubes as High-Performance Anode Materials for Lithium-Ion Batteries
by Ziqing Xu, Kai Cao and Zhifeng Wang
Materials 2026, 19(14), 2951; https://doi.org/10.3390/ma19142951 - 9 Jul 2026
Abstract
The development of carbon-based anode materials for high-performance lithium-ion batteries has been limited by their low theoretical capacity density, low conductivity, and high manufacturing costs. Herein, natural Si/N co-doped biomass carbon micron-tubes, derived from reed catkins, were synthesized. The as-prepared RC-Si/N anode exhibits [...] Read more.
The development of carbon-based anode materials for high-performance lithium-ion batteries has been limited by their low theoretical capacity density, low conductivity, and high manufacturing costs. Herein, natural Si/N co-doped biomass carbon micron-tubes, derived from reed catkins, were synthesized. The as-prepared RC-Si/N anode exhibits a good discharge capacity of 761.3 mAh g−1 at 100 mA g−1 after 200 cycles. Moreover, it exhibits outstanding cycling stability, retaining discharge capacities of 517.7 mAh g−1 at 1 A g−1 after 1000 cycles. The excellent electrochemical performance is attributed to the trace Si originating from the biomass precursor, which provides high specific capacity, while N doping introduces structural defects and improves electronic conductivity. Coupled with its unique micrometer-scale tubular morphology, the material facilitates efficient lithium-ion transport and storage. Further DFT calculations corroborate enhanced Li+ adsorption ability, sustained structural integrity over prolonged cycling, and promoted reaction kinetics. These findings underscore the potential of natural Si/N co-doped biomass-derived carbon as an advanced lithium-ion battery anode material. Full article
(This article belongs to the Special Issue Materials for Electrochemical Energy Storage)
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9 pages, 5957 KB  
Case Report
Prevertebral Abscess Revealing a Rare Foreign Body: A Case Report
by Theresa Mally, Nina Rubicz and Paul Martin Zwittag
J. Pers. Med. 2026, 16(7), 370; https://doi.org/10.3390/jpm16070370 - 9 Jul 2026
Abstract
Background: Migrated foreign bodies in the prevertebral region represent a rare but potentially serious condition. This case underscores the importance of thorough visual and digital intraoperative exploration for successful foreign body retrieval and highlights the potential diagnostic and surgical challenges associated with migrated [...] Read more.
Background: Migrated foreign bodies in the prevertebral region represent a rare but potentially serious condition. This case underscores the importance of thorough visual and digital intraoperative exploration for successful foreign body retrieval and highlights the potential diagnostic and surgical challenges associated with migrated foreign bodies in the cervical region. Case report: A 77-year-old female patient presented with dysphagia following the intake of an Angiotensin-Converting Enzyme (ACE) inhibitor. Due to hemodynamic instability and laboratory findings that indicated multiple organ failure, a computed tomography (CT) scan was performed, which revealed a left-sided prevertebral abscess with gas collections. Because of persistently elevated and fluctuating inflammatory markers, multiple CT scans were performed, which showed an obliquely oriented, wire-like tubular structure approximately 30 mm in length, 5 mm in width and 1 mm in diameter in the prevertebral region of the previous abscess cavity. Eventually, after three surgical interventions—one transoral and two transcervical approaches—the foreign body could be identified and removed. Afterwards, the patient’s inflammatory markers decreased and her dysphagia resolved. Conclusions: This case demonstrates that early diagnosis and timely removal of foreign bodies in the cervical space are essential to prevent complications such as retropharyngeal abscess formation or mediastinitis. A combination of careful clinical examination, endoscopic evaluation, and cross-sectional imaging—particularly CT scan—is crucial for accurate localization. Finally, this report highlights the importance of maintaining a high index of suspicion for migrated foreign bodies in patients presenting with persistent symptoms or unexplained cervical infections following suspected foreign body ingestion. Full article
(This article belongs to the Special Issue Clinical Diagnosis and Personalized Treatment in Otolaryngology)
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23 pages, 5522 KB  
Article
Highly Efficient Oxygen Evolution on the Tubular Array of the Mesoporous NiMoO4@NiFeS Heterostructure
by Xinyue Hou, Hao Wu, Juan Li, Xiaoyu Jiang, Yacong Zhang and Yongfu Lian
Catalysts 2026, 16(7), 621; https://doi.org/10.3390/catal16070621 - 8 Jul 2026
Abstract
Developing efficient and stable oxygen evolution reaction (OER) electrocatalysts is crucial to the practical application of water electrolysis for hydrogen production. Herein, a tubular array of a mesoporous NiMoO4@NiFeS heterostructure was anchored on nickel foam through successive hydrothermal processing, liquid etching [...] Read more.
Developing efficient and stable oxygen evolution reaction (OER) electrocatalysts is crucial to the practical application of water electrolysis for hydrogen production. Herein, a tubular array of a mesoporous NiMoO4@NiFeS heterostructure was anchored on nickel foam through successive hydrothermal processing, liquid etching and direct sulfur vulcanization. The efficient charge transfer, phase transition and full exposure of active sites at the heterostructure’s interfaces, as well as its superhydrophilic surface, endow NiMoO4@NiFeS with exceptional OER activity. A series of electrochemical experiments indicate that in 1.0 mol·L−1 KOH, NiMoO4@NiFeS delivers overpotentials as low as 180 and 223 mV at current densities of 10 and 100 mA cm−2, respectively, and that a Tafel slope of merely 25.9 mV dec−1 is achieved on NiMoO4@NiFeS, evidencing that the tubular array of the mesoporous NiMoO4@NiFeS heterostructure significantly facilitates the interfacial transfer of charge/mass and the decrease in the energy barrier of the rate-determining step. This work provides valuable insights for the construction of an efficient and low-cost electrocatalyst with hierarchical mesoporous core–shell structures. Full article
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22 pages, 1002 KB  
Review
Beyond Creatinine: Novel Renal Biomarkers at the Interface of Kidney Injury and Cardiovascular Risk
by Maria-Daniela Tanasescu, Andrei-Mihnea Rosu, Alexandru Minca, Maria-Mihaela Grigorie, Delia Timofte and Dorin Ionescu
Biomedicines 2026, 14(7), 1525; https://doi.org/10.3390/biomedicines14071525 - 7 Jul 2026
Viewed by 127
Abstract
Chronic kidney disease, acute kidney injury and cardiorenal syndrome are major determinants of cardiovascular morbidity and mortality, yet conventional renal assessment based on serum creatinine, estimated glomerular filtration rate and urine output often fails to detect early structural injury or pathway-specific cardiorenal risk. [...] Read more.
Chronic kidney disease, acute kidney injury and cardiorenal syndrome are major determinants of cardiovascular morbidity and mortality, yet conventional renal assessment based on serum creatinine, estimated glomerular filtration rate and urine output often fails to detect early structural injury or pathway-specific cardiorenal risk. This narrative review synthesized recent evidence on emerging renal and cardiorenal biomarkers with potential value for cardiovascular risk stratification beyond creatinine. Literature published between 2015 and April 2026 was reviewed, focusing on biomarkers of tubular injury, functional renal impairment, fibrosis/remodeling and mineral metabolism. NGAL and KIM-1 may detect tubular stress and proximal tubular injury before overt functional decline and have shown relevance in heart failure, acute coronary syndromes and post-cardiac surgery settings. Cystatin C and pro-enkephalin refine functional renal assessment and may improve prognostic classification when creatinine is confounded by frailty, muscle mass or acute hemodynamic changes. Soluble ST2 and galectin-3 reflect inflammation, fibrosis and cardiorenal remodeling, while FGF-23 links kidney dysfunction to cardiovascular risk through phosphate imbalance, vascular calcification and myocardial hypertrophy. Multi-biomarker panels may help identify dominant cardiorenal phenotypes and personalize monitoring intensity. However, routine implementation requires standardized assays, validated thresholds, cost-effectiveness data and prospective evidence that biomarker-guided management improves clinical outcomes. Full article
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25 pages, 6335 KB  
Article
Enhancement of Signal-to-Noise Ratio of Void Detection Signals in Concrete-Filled Steel Tubular Structures Using the Good Point Set and Vibrational Snow Ablation Optimizer
by Gen He, Zhongchu Tian, Fanbo Guo, Jiaqi Chen and Binlin Xu
Sensors 2026, 26(13), 4261; https://doi.org/10.3390/s26134261 - 4 Jul 2026
Viewed by 201
Abstract
Deep learning (DL)-based percussion methods in concrete-filled steel-tube (CFST) void detection have gained much attention. However, the detection signal contains a large amount of noise, which affects the accuracy of qualitative and quantitative analyses of the subsequent detection results. To improve the signal-to-noise [...] Read more.
Deep learning (DL)-based percussion methods in concrete-filled steel-tube (CFST) void detection have gained much attention. However, the detection signal contains a large amount of noise, which affects the accuracy of qualitative and quantitative analyses of the subsequent detection results. To improve the signal-to-noise ratio (SNR) during percussion detection, this study proposes a CFST void detection method using the good point set and vibrational snow ablation optimizer (GVSAO) algorithm and dual-channel parallel convolutional neural networks (CNNs). The proposed method employs the gram angle field (GAF) to transform percussive sound signals into images. It then constructs a dual-channel parallel CNN structure, where the GAF is decomposed into the following two maps: the gram angle sum field (GASF) and the gram angle difference field (GADF). These maps are simultaneously fed into the CNN for training. The outputs from the two channels are concatenated and fused. Finally, the GVSAO algorithm was used for model optimization to improve convergence speed and recognition accuracy. Both the temporal and spatial characteristics of the knocking sound signal are fully preserved, while the interference of different construction noises is effectively avoided. Validation experiments were conducted on CFST specimens with different heights of voids (0, 50, 100, and 150 mm) under different pressure loads. The original sample dataset and the signal-enhanced dataset were obtained by adding background noise with different SNRs. The test results show that the prediction accuracies on the original signal dataset are consistently above 98.74%. Among them, the accuracy achieves 100% at pressure loads of 0 and 50 tons. Additionally, the prediction accuracies on the signal-enhanced dataset are all above 97.2%, indicating that the model maintains a high level of classification performance. This suggests that the model can effectively suppress noise and exhibits excellent robustness. Full article
(This article belongs to the Section Industrial Sensors)
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31 pages, 13865 KB  
Article
Topological Optimization of Steel and Concrete Tubular-Floor Trusses Based on CO2 Emission
by Chayana M. G. Silva, Beatriz V. Afonso, Adenílicia F. G. Calenzani, Moacir Kripka and Élcio C. Alves
J. Compos. Sci. 2026, 10(7), 350; https://doi.org/10.3390/jcs10070350 - 30 Jun 2026
Viewed by 215
Abstract
This paper addresses the topological optimization of composite floor systems, specifically focusing on tubular composite trusses with and without concrete filling in the upper chord. The optimization problem is formulated and solved using particle swarm optimization (PSO) and the Bonobo Algorithm (BO), both [...] Read more.
This paper addresses the topological optimization of composite floor systems, specifically focusing on tubular composite trusses with and without concrete filling in the upper chord. The optimization problem is formulated and solved using particle swarm optimization (PSO) and the Bonobo Algorithm (BO), both with CO2 emissions reduction as the objective. A comparative analysis is conducted against literature models using full-web beams, revealing a notable 20%+ reduction in total CO2 emissions for the proposed composite truss configuration. Additionally, a parametric analysis examines how various design parameters affect the optimization solution. Results indicate that the use of concrete in the upper chord has a substantial effect on reducing overall CO2 emissions, especially with concrete strengths exceeding 25 MPa. Notably, the Bonobo Algorithm outperforms PSO in finding optimal solutions for the composite floor system. The study contributes to the underexplored field of topological optimization for composite truss beams, providing valuable insights into sustainable design practices for structural engineering applications. Full article
(This article belongs to the Section Composites Applications)
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19 pages, 4450 KB  
Article
A Splice-Variant Imbalance of Reticulon-like Protein 16 (RTNLB16) Disrupts Growth and Decreases Sensitivity to ABA and Dark-Induced Senescence in Arabidopsis
by Tami Khazma, Dikla Levi, Hiba Waldman Ben-Asher, Tamir Shechtman, Gal Nisan and Gad Miller
Plants 2026, 15(13), 2022; https://doi.org/10.3390/plants15132022 - 30 Jun 2026
Viewed by 195
Abstract
Reticulon-like proteins shape the endoplasmic reticulum (ER) membrane network, yet the developmental and physiological roles of individual plant reticulon isoforms remain poorly understood. Here, we characterize an Arabidopsis RTNLB16 T-DNA allele, rtnlb16-1, that exhibits severe photoperiod-dependent growth retardation and chlorosis. Molecular analysis [...] Read more.
Reticulon-like proteins shape the endoplasmic reticulum (ER) membrane network, yet the developmental and physiological roles of individual plant reticulon isoforms remain poorly understood. Here, we characterize an Arabidopsis RTNLB16 T-DNA allele, rtnlb16-1, that exhibits severe photoperiod-dependent growth retardation and chlorosis. Molecular analysis revealed that rtnlb16-1 is not a simple loss-of-function mutant: the T-DNA insertion deletes the 5′ region required for RTNLB16 splice variant 7, while a CaMV35S enhancer associated with the insertion drives overexpression of the remaining splice variants. This misexpression is enhanced under long-day photoperiods and reduced under continuous low light, paralleling the severity of the mutant phenotype and its partial rescue. RTNLB16.5-GFP localized mainly to the tubular ER network and punctate cell-boundary structures consistent with plasmodesmata-associated ER. Neither overexpression of RTNLB16 isoforms 1–6 nor CRISPR-Cas9 disruption of major RTNLB16 isoforms reproduced the rtnlb16-1 phenotype, supporting a model in which altered splice-variant stoichiometry, rather than simple loss or gain of function, underlies the developmental defects. Transcriptome profiling showed that rtnlb16-1 undergoes extensive photoperiod-dependent transcriptional reprogramming, including changes in defense, hormone-response, senescence, photosynthesis, and iron/redox-associated gene networks. Physiologically, rtnlb16-1 displayed enhanced recovery from dark-induced senescence, while both rtnlb16-1 and rtnlb16-2 showed reduced sensitivity to exogenous abscisic acid during germination. Together, these findings suggest that balanced expression of RTNLB16 splice variants is important for normal growth and for coordinating ER-associated stress, hormone, and senescence responses in Arabidopsis. Full article
(This article belongs to the Section Plant Molecular Biology)
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14 pages, 6356 KB  
Article
Morphological, Histo-Morphometric and Histochemical Studies on Compartment 2 of Dromedary Camel (Camelus dromedarius) Stomach
by Zarroug Hassan Ibrahim
Vet. Sci. 2026, 13(7), 630; https://doi.org/10.3390/vetsci13070630 - 29 Jun 2026
Viewed by 215
Abstract
The second stomach compartment (C2) of the dromedary camel (Camelus dromedarius) plays an important role in digestion. However, detailed morphological and histochemical data remain limited. This study aimed to investigate the gross anatomy, histological organization, histometric features, and histochemical distribution of [...] Read more.
The second stomach compartment (C2) of the dromedary camel (Camelus dromedarius) plays an important role in digestion. However, detailed morphological and histochemical data remain limited. This study aimed to investigate the gross anatomy, histological organization, histometric features, and histochemical distribution of muco-substances in C2. The study was conducted on twenty dromedary camels, including fetuses and adults. Gross anatomical observations were performed on eight fresh and fixed specimens, while histological, histometric, and histochemical analyses were carried out on samples from twelve adult camels using routine and special staining techniques to identify neutral and acidic mucins. C2 was the smallest gastric compartment, located on the right side of the abdominal cavity and partially continuous with C1. Its mucosa formed chambered zones supported by prominent longitudinal muscular bands. Histologically, C2 comprised glandular and non-glandular regions. The glandular mucosa contained gastric pits and branched tubular glands with mucous, chief, and parietal cells, whereas the non-glandular region was lined by keratinized stratified squamous epithelium. Submucosal lymphoid aggregations were observed near the C2–C3 junction. Histometric analysis revealed a markedly developed tunica muscularis. Strong PAS and Alcian blue reactions indicated abundant neutral and acidic mucins. These findings demonstrate that C2 is a structurally specialized compartment supporting digestion, mucosal immune defense, and adaptation to arid environments, clearly distinguishing it from the reticulum of true ruminants. Full article
(This article belongs to the Special Issue Advances in Morphology and Histopathology in Veterinary Medicine)
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2 pages, 146 KB  
Abstract
Aglomerular Renal Function in Teleosts: A Comparative Molecular and Physiological Approach
by José Teixeira, Bernardo Pinto, Jonathan M. Wilson, Pedro M. Guerreiro and Filipe Castro
Proceedings 2026, 146(1), 121; https://doi.org/10.3390/proceedings2026146121 - 23 Jun 2026
Viewed by 112
Abstract
Introduction: The aglomerular kidney, characterised by the absence of functional glomeruli and reliance on tubular secretion alone, has evolved independently across multiple teleost lineages occupying diverse environments, including notothenioids of the Southern Ocean, gadids of cold North Atlantic and Arctic waters, and [...] Read more.
Introduction: The aglomerular kidney, characterised by the absence of functional glomeruli and reliance on tubular secretion alone, has evolved independently across multiple teleost lineages occupying diverse environments, including notothenioids of the Southern Ocean, gadids of cold North Atlantic and Arctic waters, and syngnathids distributed across temperate and tropical seas. Despite sharing this independently derived renal architecture, these groups face markedly distinct osmotic, thermal and chemical challenges in their natural habitats. How aglomerular kidneys cope with environmental stressors, including fluctuations in temperature and salinity, and how they handle the excretion of xenobiotics and other exogenous compounds through exclusively tubular mechanisms, remains poorly understood. The physiological and molecular responses underlying renal function in these lineages have received comparatively little attention relative to their glomerular counterparts. Objective: This study investigates how aglomerular kidneys across phylogenetically distinct teleost lineages respond, at molecular and physiological levels, to contrasting environmental conditions, namely temperature and salinity challenges predicted to alter the functional demands on renal osmoregulation. Methodology: Adult and juvenile specimens from target lineages were subjected to controlled exposure experiments combining different temperature and salinity regimes. Blood and urine samples were collected to assess osmolality and ionic composition. Renal tissues were processed for gene expression analysis of key transport and structural genes, histology, immunohistochemistry and enzymatic activity assays, providing an integrated picture of renal function under each condition. Results: Molecular analyses are currently underway. Preliminary work has established protocols for RNA extraction and quantitative PCR across target species, enabling comparative gene expression profiling to proceed across the full dataset. Conclusions: A comparative physiological and molecular approach across aglomerular teleost lineages will clarify whether shared renal architecture translates into shared functional responses to environmental challenge and identify lineage-specific mechanisms of renal adaptation, with broader relevance for predicting how these fishes may respond to ongoing environmental change. Full article
(This article belongs to the Proceedings of The XI Iberian Congress of Ichthyology)
14 pages, 3474 KB  
Article
Effect of Bacteriophage Administration Route on Phage Localization in a Rat MRSA Implant-Associated Infection Model
by Yusuf Hakan Abacı, Onur Genç, Erdem Ateş, Hatice Oruç Demirbağ and Cengiz Yılmaz
Antibiotics 2026, 15(7), 633; https://doi.org/10.3390/antibiotics15070633 - 23 Jun 2026
Viewed by 242
Abstract
Background/Objectives: Implant-associated infections are challenging conditions in orthopedic surgery. This experimental study aimed to evaluate phage localization within infected tissues following different routes of administration. Methods: An implant-related infection model was created using methicillin-resistant Staphylococcus aureus (MRSA) in twenty-four rats. Subjects were randomly [...] Read more.
Background/Objectives: Implant-associated infections are challenging conditions in orthopedic surgery. This experimental study aimed to evaluate phage localization within infected tissues following different routes of administration. Methods: An implant-related infection model was created using methicillin-resistant Staphylococcus aureus (MRSA) in twenty-four rats. Subjects were randomly divided into four groups depending on the bacteriophage administration route. Three rats were designated as the control group. Phage suspension was applied intraperitoneally, intravenously, orally and locally at 0.1 mL/day of 1 × 108 PFU/mL suspension for three consecutive days. In the control group, intravenous, intraperitoneal and oral phage suspensions were administered separately at the same dose for 3 days. After completion of the experiment, tibia samples were taken in the experimental group. Additionally, liver, kidney, stomach, brain, heart muscle and striated muscle tissue samples were taken from the three subjects in the control group. Results: In the control group, unconfirmed phage-like structures were incidentally observed in some mitochondria of renal proximal tubular epithelial cells on transmission electron microscopy. In the experimental group, there was a strong positive linear relationship between the total number of bacteria and the number of bacteriophage clusters, independent of the groups. Conclusions: Bacteriophage clusters were detected in infected tibial tissues after all administration routes, suggesting phage localization at the infection site. Unexpected phage-like clusters were observed within mitochondria of proximal tubular epithelial cells in the control animals. This finding should be regarded as an unconfirmed incidental finding requiring further validation. Full article
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14 pages, 6152 KB  
Article
Hollow Tubular Engineering and Electronic Structure Modulation of Vanadium-Incorporated MoP for Boosting Alkaline Hydrogen Evolution
by Wei Yang, Guimin Wang, Siyi Yang, Ganceng Yang, Haijing Yan and Yanqing Jiao
Nanomaterials 2026, 16(12), 776; https://doi.org/10.3390/nano16120776 - 19 Jun 2026
Viewed by 425
Abstract
Synergistically optimizing electronic structure and exposing abundant active sites is a promising route to enhance electrocatalytic activity, yet remains challenging. Herein, a hierarchical tubular structure of vanadium-incorporated molybdenum phosphide (V-MoP) was successfully constructed for highly effectively alkaline hydrogen evolution. Molecular self-assembly of a [...] Read more.
Synergistically optimizing electronic structure and exposing abundant active sites is a promising route to enhance electrocatalytic activity, yet remains challenging. Herein, a hierarchical tubular structure of vanadium-incorporated molybdenum phosphide (V-MoP) was successfully constructed for highly effectively alkaline hydrogen evolution. Molecular self-assembly of a V-substituted Keggin-type polyoxometalate (POM) with a simple organic ligand was exploited to induce a hollow tubular precursor and trigger precise V doping by virtue of the intrinsic structural features of POMs, thereby realizing simultaneous morphology engineering and electronic structure modulation. The unique open-ended hollow tubular structure, which furnishes both internal and external surfaces and superhydrophilicity, increases the exposure of electrochemical active sites, promotes rapid electrolyte penetration and shortens mass transfer pathways. Moreover, V doping effectively modulates the electronic structure of MoP, further renders Mo and P sites more electron-rich, meanwhile triggering the coexistence of V3+ and V5+, which further promotes water dissociation and hydrogen evolution. Consequently, the V-MoP catalyst exhibits significantly enhanced activity, far beyond that of pristine bulk MoP and bulk V-MoP, and even surpasses that of commercial 20% Pt/C at high current densities. This work provides a feasible strategy for designing advanced electrocatalysts with tailored morphology and tunable electronic structures. Full article
(This article belongs to the Section Inorganic Materials and Metal-Organic Frameworks)
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19 pages, 17323 KB  
Article
Transient Hydraulic Characteristics of Large-Capacity/Low-Head Pumped Storage System During Pump Mode Start-Up
by Yunge Xiao, Chunbing Shao, Congbing Huang, Benhong Wang, Hao Wang, Chaoyue Wang and Fujun Wang
Energies 2026, 19(12), 2877; https://doi.org/10.3390/en19122877 - 17 Jun 2026
Viewed by 217
Abstract
With the large-scale development of renewable energy such as wind, solar and ocean energy, the demand for energy storage is more urgent. Pumped hydro energy storage (PHES) is one of the fundamental solutions to the problem of intermittent supply of renewable energy. The [...] Read more.
With the large-scale development of renewable energy such as wind, solar and ocean energy, the demand for energy storage is more urgent. Pumped hydro energy storage (PHES) is one of the fundamental solutions to the problem of intermittent supply of renewable energy. The large-capacity/low-head pumped hydro energy storage (LL-PHES) system with the use of tubular pump turbine is a beneficial extension of traditional PHES systems owing to large flow rate and cheaper civil structures. However, the continuous competition between the “static water pressure difference caused by gravity” and the “pressure increase caused by accelerated impeller rotation” leads to prominent instability in the start-up process of the LL-PHES system under pump conditions. An explicit coupling algorithm is proposed for analyzing the transient characteristics in the start-up process of the LL-PHES system under pump conditions. This algorithm is based on the idea of dimensional transformation, and performs 3D flow calculations and 2D rigid body dynamics equation solution in the pump domain and the flap gate domain, respectively. This algorithm avoids the problems of high computational cost and poor convergence that exist in existing fully three-dimensional coupling algorithms and ensures the efficiency of transient hydraulic characteristic calculation. A comprehensive analysis of the transient characteristics of the LL-PHES system during pump start-up process is conducted using the proposed new algorithm. The entire process of the increase in rotational speed, valve opening, flow rate, and the continuous evolution of blade surface pressure during the start-up process is quantitatively described. The amplitude and spectral characteristics of the alternating pressure on multiple blades are clarified. The evolution law of blade load during the stage of severe pressure fluctuations during the start-up process is explained. The load distribution characteristics of “high in the leading and trailing edge areas and low in the middle” in the blade stream direction is presented. The research results have a direct guiding role in improving the hydraulic design and enhancing the operational stability of LL-PHES systems. Full article
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17 pages, 3449 KB  
Article
Multi-Organ Anatomical Context Improves Ureter Segmentation in Arterial-Phase CT: A Systematic Evaluation of nnU-Net Configurations
by Matthew Choi and Sangpil Kim
Appl. Sci. 2026, 16(12), 6115; https://doi.org/10.3390/app16126115 - 17 Jun 2026
Viewed by 214
Abstract
Accurate segmentation of the ureter on abdominal computed tomography (CT) remains challenging due to its thin tubular structure and limited expert-annotated training data. While recent deep learning approaches have shown promise on non-contrast CT, arterial-phase imaging remains under-researched. We systematically compared nnU-Net-based configurations [...] Read more.
Accurate segmentation of the ureter on abdominal computed tomography (CT) remains challenging due to its thin tubular structure and limited expert-annotated training data. While recent deep learning approaches have shown promise on non-contrast CT, arterial-phase imaging remains under-researched. We systematically compared nnU-Net-based configurations for ureter segmentation on arterial-phase CT using 25 radiologist-annotated cases from Seoul St. Mary’s Hospital. Seven training strategies were evaluated with five-fold cross-validation: binary ureter-only segmentation, multi-organ training with anatomical context from eight structures, alternative encoder architectures (ResEncM), specialized loss functions (Tversky, clDice), and a multi-phase fusion architecture. Multi-organ training with Tversky-Focal loss (Config 6) achieved the highest mean Dice of 0.743 ± 0.021 with the best clDice connectivity score (0.800 ± 0.046) and lowest fragmentation (6.56 connected components). Multi-phase fusion yielded a mean Dice of 0.713 on the 12-case subset; a controlled arterial-phase single-channel ablation on the identical 12-case subset achieved 0.721, marginally exceeding the two-channel fusion result (0.713). These findings are scoped to a single-institution exploratory cohort and should be interpreted as internally comparative benchmarking results; they may not generalize to other centres, scanners, or patient populations, and do not constitute clinical validation. Full article
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17 pages, 3630 KB  
Article
Effect of Internal Reinforcing on Impact Axial Collapse Behavior of Hat-Shaped Tubular Structure
by Gusmao Robbinson Noviano, Minoru Yamashita and Makoto Nikawa
Metals 2026, 16(6), 655; https://doi.org/10.3390/met16060655 - 14 Jun 2026
Viewed by 595
Abstract
A hollow steel structure with a hat cross-section was axially compressed under impact or quasistatic conditions. The hat height and hat width were 40 mm. The thickness was 0.6, 0.8, and 1.0 mm. The effect of the reinforcing member attached to the main [...] Read more.
A hollow steel structure with a hat cross-section was axially compressed under impact or quasistatic conditions. The hat height and hat width were 40 mm. The thickness was 0.6, 0.8, and 1.0 mm. The effect of the reinforcing member attached to the main structure on the collapse behavior was experimentally investigated. The formation of buckling lobes was observed, and the energy absorption performance was evaluated. The addition of the internal reinforcing member achieved increased compressive force, exhibiting a stepped force variation. This step became more pronounced as the wall thickness increased, and it was larger under impact conditions. When the height of the reinforcing member was 20 mm, or the hollow shape is square, a higher crush strength was achieved, with a very regular collapse pattern. To explain the increase in compressive force by using the reinforcing member, the deformation energy was calculated by considering the deformed shapes and the mechanical properties of the material. The calculated increase ratio of 3.18 was comparable with the experimental result of 3.54. The strain measurement at the hat top of the structure during the initial compression revealed that the damage, where the strain level is greater than 0.003, was successfully delayed at the reinforced section in the partially reinforced structure. Full article
(This article belongs to the Section Structural Integrity of Metals)
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35 pages, 7778 KB  
Review
A Review of the Application Research on Inorganic Clay Minerals Synergising with Bio-Based Flame-Retardant Systems to Enhance Polymer Performance
by Shihao Zheng, Yong Liu, Fang Zhou and Hao Yuan
Polymers 2026, 18(12), 1487; https://doi.org/10.3390/polym18121487 - 13 Jun 2026
Viewed by 487
Abstract
In recent years, synergistic effects between inorganic clay minerals (e.g., montmorillonite, sepiolite, kaolinite) and bio-based flame retardants (e.g., chitosan-based, lignin-based, phytate-based) have achieved certain progress in the area of polymer flame retardancy. The effects of bio-based flame retardants are exerted through mechanisms such [...] Read more.
In recent years, synergistic effects between inorganic clay minerals (e.g., montmorillonite, sepiolite, kaolinite) and bio-based flame retardants (e.g., chitosan-based, lignin-based, phytate-based) have achieved certain progress in the area of polymer flame retardancy. The effects of bio-based flame retardants are exerted through mechanisms such as catalytic char generation and vapour-phase hindrance. However, they have limitations when used alone, including insufficient thermal stability and the need for a high dosage. Inorganic clays form physical barriers through their layered or tubular structures. The high thermal stability of these structures suppresses heat and mass transfer, thereby offsetting the shortcomings of bio-based flame retardants. This synergistic combination greatly improves the flame retardancy of polymer composites, often strengthening their mechanical performance in the process. It therefore offers great potential for the design of multifunctional, eco-friendly flame-retardant polymer composites. Nevertheless, a systematic review of the synergistic mechanisms, fabrication approaches and application progress of different inorganic clay minerals when combined with various bio-based flame retardants is still lacking. Therefore, this article offers a comprehensive review of the current developments of synergistic systems that incorporate various primary clays, such as sepiolite and montmorillonite, with bio-based flame retardants for usage in polymers. Before this, the synergistic flame-retardant mechanism and the key preparation techniques of the composite system were explained in detail. Finally, this article puts forward solutions to the current challenges and sets out prospects for innovation in the designing of flame-retardant materials and the optimisation of processes. The aim is to promote the sustainable growth of efficient, eco-friendly flame-retardant materials. Full article
(This article belongs to the Topic Functionalized Materials for Environmental Applications)
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