Your search keyword '"Fu, P. P."' showing total 7,650 results

1. Redox-switchable multicolor luminescent polymers for theragnosis of osteoarthritis

Author

Chuan Peng, Yuling Zhu, Kaibo Zhang, Yiwei Wang, Yi Zheng, Yang Liu, Weili Fu, Hong Tan, Qiang Fu, and Mingming Ding

Subjects

Science

Abstract

Abstract Nonaromatic and nonconjugated fluorescent materials have garnered increasing attention in recent years. However, most non-classical chromophores are derived from electro-rich nitrogen and oxygen atoms, which suffer from short emission wavelengths, low efficiency, limited responsiveness, and obscure luminescence mechanisms. Here we present an emission mechanism in bioactive polycysteine, an aliphatic polymer that displays polymerization- and aggregation-induced emission, high quantum yield, and multicolor emission properties. We show that the hydrogen atoms bonded to the sulfur atoms play a crucial role in luminescence. This enables reversible modulation of polymer fluorescence under reducing and oxidizing conditions, facilitating specific imaging and quantitative detection of redox species in cells and in vivo. Furthermore, the polymer exhibits better anti-inflammatory and antioxidative activities compared to first-line clinical antioxidants, offering a promising platform for in vivo theragnosis of diseases such as osteoarthritis.

Published

2024

2. Organic–inorganic covalent–ionic network enabled all–in–one multifunctional coating for flexible displays

Author

Xiong Lin, Chen–Yu Li, Lu–Xuan Liang, Qing–Yun Guo, Yongzheng Zhang, Si–Rui Fu, Qin Zhang, Feng Chen, Di Han, and Qiang Fu

Subjects

Science

Abstract

Abstract Touch displays are ubiquitous in modern technologies. However, current protective methods for emerging flexible displays against static, scratches, bending, and smudge rely on multilayer materials that impede progress towards flexible, lightweight, and multifunctional designs. Developing a single coating layer integrating all these functions remains challenging yet highly anticipated. Herein, we introduce an organic–inorganic covalent–ionic hybrid network that leverages the reorganizing interaction between siloxanes (i.e., trifluoropropyl–funtionalized polyhedral oligomeric silsesquioxane and cyclotrisiloxane) and fluoride ions. This nanoscale organic–inorganic covalent–ionic hybridized crosslinked network, combined with a low surface energy trifluoropropyl group, offers a monolithic layer coating with excellent optical, antistatic, anti–smudge properties, flexibility, scratch resistance, and recyclability. Compared with existing protective materials, this all–in–one coating demonstrates comprehensive multifunctionality and closed–loop recyclability, making it ideal for future flexible displays and contributing to ecological sustainability in consumer electronics.

Published

2024

3. Different antiplatelet regimens for stenting versus coiling for acutely-ruptured cerebral aneurysms

Author

Li Li, Qing-Hai Huang, Qiu-Ji Shao, Kai-Tao Chang, Qian-Qian Zhang, Liang-Fu Zhu, Jian-Min Liu, Tian-Xiao Li, and Bu-Lang Gao

Subjects

Different antiplatelet regimens, Acutely ruptured intracranial aneurysms, Stenting, Coiling, Complications, Medicine, Science

Abstract

Abstract To investigate the safety, efficacy and risk factors for complications of stenting with optional coiling versus coiling alone for acutely ruptured cerebral aneurysms (ARCAs) using different antiplatelet schemes, 2021 patients were prospectively enrolled into the stenting group (n = 967) and the coiling group (n = 1054). Four different antiplatelet regimens were used. The clinical and treatment data were analyzed and compared. In the stenting group, the common antiplatelet regimen was applied in 259 patients (26.8%), loading regimen in 210 (21.7%), intravenous tirofiban regimen in 240 (24.8%), and premedication free regimen in 258 (26.7%). The aneurysm occlusion degrees in the coiling vs. stenting group were not significantly (P > 0.05) different after treatment. Complications occurred in 168 (15.94%) and 171 (17.68%) patients in the coiling and the stenting group, respectively. Fifteen (1.55%) patients experienced stent-related ischemic complications. The only significant (P

Published

2024

4. Symptoms can predict COVID-19 pneumonia in patients infected with SARS-CoV-2 Omicron variants

Author

Qian-Qian Liao, Ze-Feng Zhu, Ke-Wei Zhu, Zhe Yang, Gui-Li Liu, Xiang-Qing Li, Run Ge, Hong-Zhen Xu, Xuan Jiang, Yan-Feng Tang, Yan Chen, Zhi-Ling Yu, Zeng-Zhen Liao, Shao-Yuan Huang, Yue Qiu, Bin-Jing Zhao, Yong-Fei Fu, and Dong Qin

Subjects

Dyspnea, zero-COVID-19 policy, BA.5.2, BF.7, Difficulty breathing, Hospitalization, Medicine, Science

Abstract

Abstract Pneumonia is a key criterion for the severity of COVID-19. Whether COVID-19 symptoms are indicators of pneumonia in patients infected with SARS-CoV-2 Omicron variants is unclear. 6200 non-hospitalized patients with COVID-19 from three sites in three hospitals were divided into three cohorts: Cohort 1 (n = 1971, Outpatient Department), Cohort 2 (n = 1073, Emergency Department), and Cohort 3 (n = 3156, Fever Clinic). The association of COVID-19 symptoms with pneumonia in the patients were analysed. In Cohort 1, dry cough, expectoration, fever, muscle or body aches, sore throat, headache or dizziness, shortness of breath, and difficulty breathing were associated with pneumonia. For Cohort 2, expectoration, fatigue, congestion or runny nose, sore throat, headache or dizziness, chills, chest stuffiness, shortness of breath, and difficulty breathing were related to pneumonia. With Cohort 3, dry cough, expectoration, vomiting, chest stuffiness, shortness of breath, and difficulty breathing had associations with pneumonia. Moreover, duration of symptoms > 7 days was associated with pneumonia in all three cohorts. In the study, expectoration, shortness of breath, difficulty breathing, and duration of symptoms > 7 days were useful predictors of COVID-19 pneumonia in the patients infected with SARS-CoV-2 Omicron variants. Among these predictors, shortness of breath and difficulty breathing were high-risk early-warning factors for pneumonia, and duration of symptoms > 7 days was also a high-risk factor for pneumonia.

Published

2024

5. The association between the recurrence of atrial fibrillation and the shape of left atrial lateral ridge

Author

Yu-Han Sun, Xin Tian, Wen-Jun Bao, Xiao-Wei Liu, Chen-Guang Kou, Fu-Qian Guo, Hao-Wen Zhang, Meng-Ya Li, and Cai-Ying Li

Subjects

Atrial fibrillation, Left atrial lateral ridge, Recurrence, CT, Medicine, Science

Abstract

Abstract To investigate the role of the geometry of the left atrial lateral ridge (LLR) in the atrial fibrillation (AF) recurrence after radiofrequency ablation (RFA). A total of 225 patients with AF who underwent RFA for the first time were retrospectively enrolled and divided into the recurrence (n = 53) and non-recurrence (n = 172) groups. The clinical data and the volume of left atrium (LAV) and the LLR geometry were analyzed. The LAV in the recurrence group was greater than that in the non-recurrence group (P

Published

2024

6. Evaluation and correction methods for geometric errors of hydrostatic thrust bearings

Author

Zhiwei Wang, Bingqing Yang, Cong Xu, Penghao Fu, Yanhao Jia, Aiqin Sun, Lijun Zhang, and Liang Yuan

Subjects

Hydrostatic thrust bearing, Quick on-site measurement, Perpendicularity error, Error direction angle, Correction, Medicine, Science

Abstract

Abstract The value and direction angle of the perpendicularity error of the thrust surface and bearing bush in hydrostatic thrust bearings directly affect the motion accuracy. In this paper, a rapid onsite measurement method and evaluation model for the value and direction angle of the perpendicularity error of the thrust surface and bearing bush in hydrostatic thrust bearings are presented. The method is validated by comparing experimental measurements with those obtained using a CMM. An analysis of the perpendicularity errors before and after correction shows that at different speeds (10 rpm, 30 rpm, and 50 rpm), the errors in the mean axial and tilt displacements of the thrust bearing are reduced by 68.41% and 35.44%, respectively.

Published

2024

7. Differentiating erythroblasts adapt to mechanical stimulation by upregulation of cholesterol biosynthesis via S1P/SREBP-induced HMGCR expression

Author

Giulia Iacono, Asena Abay, Joan S. Gallego Murillo, Francesca Aglialoro, Nurcan Yagci, Eszter Varga, Tieme Bijlsma, Justine Sohler, Kerly Fu, Julie A. Reisz, Amy Argabright, Angelo D’Alessandro, Arthur F. Svendsen, Marieke von Lindern, and Emile van den Akker

Subjects

Medicine, Science

Abstract

Abstract Understanding how mechanical stress affects erythropoiesis is crucial to produce transfusable erythrocytes in fluid-turbulent bioreactors. We investigated the effects of shear-stress on differentiating CD49d+CD235a+ primary human erythroblasts (EBL) at molecular, cellular, and functional level. Shear-stress, at differentiation onset, enhanced EBL maturation and induced upregulation of genes regulating cholesterol/lipids biosynthesis, causing changes in cell lipid composition. Of note, the osmotic resistance, and the expression of 3-Hydroxy-3-methylglutaryl-CoA reductase (HMGCR), the rate-limiting enzyme of the cholesterol biosynthesis pathway, were higher in dynamic cultures. Inhibition of the S1P-induced proteolytic cleavage, activating SREBPs, led to abrogation of HMCGR expression, and loss of EBL in dynamic cultures, similar to lovastatin administration. This data reveals a role for the S1P-SREBP-HMGCR-axis in the regulation of shear-stress induced adaptation during erythropoiesis, shedding light into mechanisms that will assist the upscaling of erythroid differentiation into bioreactors. Moreover, as shear-stress on hematopoietic cells occurs within the bone-marrow, these results introduce a novel signalling axis in the transduction pathways controlling erythropoiesis.

Published

2024

8. Numerical and experimental study on smoke diffusion characteristics of tunnel with ceiling beams

Author

Xiangling Tian, Xiaoqiang Ding, Linchuan Xiang, Chang Liu, Shigen Fu, and Maohua Zhong

Subjects

Tunnel fire, Ceiling temperature, Temperature decay, Ceiling beam, Heat release rate, Medicine, Science

Abstract

Abstract Ceiling beams at the top of tunnels are more common in actual projects. Under the influence of thermal buoyancy, the ceiling structure significantly affects the diffusion characteristics of fire smoke within the tunnel. This study performed several sets of model experiments and numerical simulations to investigate the impact of the height and spacing of ceiling beams on the diffusion of smoke in tunnel fires, which results show that the maximum temperature rise and temperature decay patterns of fire smoke follow exponential changes. The increased height of the ceiling beams and the reduced spacing correspond to higher maximum temperatures on the ceiling. Furthermore, as the height of the ceiling beams increases and the spacing decreases, the longitudinal attenuation of ceiling temperature accelerates within the tunnel. A predictive model for ceiling temperature rise and a dimensionless temperature attenuation model were developed to characterize this phenomenon. The relative error between the predicted results and experimental findings falls within ± 15%. This study broadens the application scope of fire smoke diffusion models, which can provide technical support for smoke prevention and exhaust design of tunnels with similar structures.

Published

2024

9. Transforming CO2 into advanced 3D printed carbon nanocomposites

Author

Bradie S. Crandall, Matthew Naughton, Soyeon Park, Jia Yu, Chunyan Zhang, Shima Mahtabian, Kaiying Wang, Xinhua Liang, Kelvin Fu, and Feng Jiao

Subjects

Science

Abstract

Abstract The conversion of CO2 emissions into valuable 3D printed carbon-based materials offers a transformative strategy for climate mitigation and resource utilization. Here, we 3D print carbon nanocomposites from CO2 using an integrated system that electrochemically converts CO2 into CO, followed by a thermocatalytic process that synthesizes carbon nanotubes (CNTs) which are then 3D printed into high-density carbon nanocomposites. A 200 cm2 electrolyzer stack is integrated with a thermochemical reactor for more than 45 h of operation, cumulatively synthesizing 37 grams of CNTs from CO2. A techno-economic analysis indicates a 90% cost reduction in CNT production on an industrial scale compared to current benchmarks, underscoring the commercial viability of the system. A 3D printing process is developed that achieves a high nanocomposite CNT concentration (38 wt%) while enhancing composite structural attributes via CNT alignment. With the rapidly rising demand for carbon nanocomposites, this CO2-to-nanocomposite process can make a substantial impact on global carbon emission reduction efforts.

Published

2024

10. Photonic diffractive generators through sampling noises from scattering media

Author

Ziyu Zhan, Hao Wang, Qiang Liu, and Xing Fu

Subjects

Science

Abstract

Abstract Photonic computing, with potentials of high parallelism, low latency and high energy efficiency, have gained progressive interest at the forefront of neural network (NN) accelerators. However, most existing photonic computing accelerators concentrate on discriminative NNs. Large-scale generative photonic computing machines remain largely unexplored, partly due to poor data accessibility, accuracy and hardware feasibility. Here, we harness random light scattering in disordered media as a native noise source and leverage large-scale diffractive optical computing to generate images from above noise, thereby achieving hardware consistency by solely pursuing the spatial parallelism of light. To realize experimental data accessibility, we design two encoding strategies between images and optical noise latent space that effectively solves the training problem. Furthermore, we utilize advanced photonic NN architectures including cascaded and parallel configurations of diffraction layers to enhance the image generation performance. Our results show that the photonic generator is capable of producing clear and meaningful synthesized images across several standard public datasets. As a photonic generative machine, this work makes an important contribution to photonic computing and paves the way for more sophisticated applications such as real world data augmentation and multi modal generation.

Published

2024

11. Inhibition of ABCG2 prevents phototoxicity in a mouse model of erythropoietic protoporphyria

Author

Junjie Zhu, Fu-Ying Qin, Saifei Lei, Ruizhi Gu, Qian Qi, Jie Lu, Karl E. Anderson, Peter Wipf, and Xiaochao Ma

Subjects

Science

Abstract

Abstract Erythropoietic protoporphyria (EPP) is a genetic disease characterized by protoporphyrin IX-mediated painful phototoxicity. Currently, options for the management of EPP-associated phototoxicity are limited and no oral medication is available. Here, we investigated a novel therapy against EPP-associated phototoxicity by targeting the ATP-binding cassette subfamily G member 2 (ABCG2), the efflux transporter of protoporphyrin IX. Oral ABCG2 inhibitors were developed, and they successfully prevented EPP-associated phototoxicity in a genetically engineered EPP mouse model. Mechanistically, ABCG2 inhibitors suppress protoporphyrin IX release from erythroid cells and reduce the systemic exposure to protoporphyrin IX in EPP. In summary, our work establishes a novel strategy for EPP therapy by targeting ABCG2 and provides oral ABCG2 inhibitors that can effectively prevent protoporphyrin IX-mediated phototoxicity in mice.

Published

2024

12. Tumor-derived miR-9-5p-loaded EVs regulate cholesterol homeostasis to promote breast cancer liver metastasis in mice

Author

Mei-Xin Li, Sheng Hu, He-Hua Lei, Meng Yuan, Xu Li, Wen-Kui Hou, Xiang-Jie Huang, Bing-Wen Xiao, Teng-Xiang Yu, Xiao-Hui Zhang, Xiao-Ting Wu, Wen-Qiang Jing, Hyeon-Jeong Lee, Juan-Juan Li, Da Fu, Li-Min Zhang, and Wei Yan

Subjects

Science

Abstract

Abstract Cancer cells secrete extracellular vesicles (EV) encapsulating bioactive cargoes to facilitate inter-organ communication in vivo and are emerging as critical mediators of tumor progression and metastasis, a condition which is often accompanied by a dysregulated cholesterol metabolism. Whether EVs are involved in the control of cholesterol homeostasis during tumor metastasis is still undefined and warrant further investigation. Here, we find that breast cancer-derived exosomal miR-9-5p induces the expression of HMGCR and CH25H, two enzymes involved in cholesterol synthesis and the conversion of 25-hydroxycholesterol from cholesterol by targeting INSIG1, INSIG2 and ATF3 genes in the liver. Notably, in vivo miR-9-5p antagomir treatment and genetic CH25H ablation prevents tumor metastasis in a mouse model of breast cancer. Thus, our findings reveal the regulatory mechanism of tumor-derived miR-9-5p in liver metastasis by linking oxysterol metabolism and Kupffer cell polarization, shedding light on future applications for cancer diagnosis and treatment.

Published

2024

13. Self-healing actuatable electroluminescent fibres

Author

Xuemei Fu, Guanxiang Wan, Hongchen Guo, Han-Joon Kim, Zijie Yang, Yu Jun Tan, John S. Ho, and Benjamin C. K. Tee

Subjects

Science

Abstract

Abstract Alternating-current electroluminescent fibres are promising candidates as light sources for smart textiles and soft machines. However, physical damage from daily use causes device deterioration or failure, making self-healable electroluminescent fibres attractive. In addition, soft robots could benefit from light-emitting combined with magnetically actuated functions. Here, we present a self-healing and actuatable Scalable Hydrogel-clad Ionotronic Nickel-core Electroluminescent (SHINE) fibre which achieves a record luminance of 1068 cd × m−2 at 5.7 V × μm−1. The SHINE fibre can self-heal across all constituent layers after being severed, recovering 98.6% of pristine luminance and maintaining for over 10 months. SHINE fibre is also magnetically actuatable due to the ferromagnetic nickel electrode core, enabling a soft robotic fibre with omnidirectional actuation and electro-luminescence. Our approach to this multifunctional fibre broadens the design of fibre electronics and fibre robots, with applications in interactive displays and damage-resilient navigation.

Published

2024

14. 19.5% Inverted organic photovoltaic with record long-lifetime via multifunctional interface engineering featuring radical scavenger

Author

Jiaming Huang, Jiehao Fu, Bo Yuan, Hao Xia, Tianxiang Chen, Yongwen Lang, Heng Liu, Zhiwei Ren, Qiong Liang, Kuan Liu, Zhiqiang Guan, Guangruixing Zou, Hrisheekesh Thachoth Chandran, Tsz Woon Benedict Lo, Xinhui Lu, Chun-Sing Lee, Hin-Lap Yip, Yung-Kang Peng, and Gang Li

Subjects

Science

Abstract

Abstract Advances in improving the operational lifetime of highly efficient organic photovoltaic (OPV) and understanding photo-degradation mechanisms in molecular level are currently limited, especially on the promising inverted OPV, posing critical challenges to commercialization. Here, we demonstrate a radical scavenger (3-(3,5-Di-tert-butyl-4-hydroxyphenyl)propionic acid) capped ZnO (BHT@ZnO) nanoparticles as the electron transport layer providing effective surface oxygen vacancy passivation and reactive radical capture capability. Encouragingly, this BHT@ZnO-based empowered device achieves a record inverted OPV efficiency of 19.47% (Certificated efficiency: 18.97%). The devices demonstrate light soaking-free behavior, long-term stability under ISOS-D-1 (94.2% PCE retention after 8904 h in ambient) and ISOS-L-1 testing protocol (81.5% PCE retention after 7724 h in MPP). More importantly, we elucidate detailed degradation mechanism in OPV involving selectively catalytic degradation of donor and acceptor by superoxide and hydroxyl radicals, respectively, as well as the degradation pathway of polymer donor upon radiation exposure. Performance enhancement and mechanism comprehension provide strong support for the development of OPV technology.

Published

2024

15. Chromosome-level genome assembly of Cryptosporidium parvum by long-read sequencing of ten oocysts

Author

Yuancai Chen, Jianying Huang, Huikai Qin, Kaihui Zhang, Yin Fu, Junqiang Li, Rongjun Wang, Kai Chen, Jie Xiong, Wei Miao, Guangying Wang, and Longxian Zhang

Subjects

Science

Abstract

Abstract Cryptosporidium parvum is a zoonotic parasite of the intestine and poses a threat to human and animal health. However, it is difficult to obtain a large number of oocysts for genome sequencing using in vitro culture. To address this challenge, we employed the strategy of whole-genome amplification of 10 oocysts followed by long-read sequencing and obtained a high-quality genome assembly of C. parvum IIdA19G1 subtype isolated from a pre-weaning calf with diarrhea. The assembled genome was 9.13 Mb long and encompassed eight chromosomes with six capped by telomeric sequences at one or both ends. In total, 3,915 protein-coding genes were predicted, exhibiting a high completeness with 98.2% single-copy BUSCO genes. To our current knowledge, this represents the first chromosome-level genome assembly of C. parvum achieved through the combined use of whole-genome amplification of 10 oocysts and long-read sequencing. This achievement not only advances our understanding of the genomic landscape of this zoonotic intestinal parasite, but also provides valuable resources for comparative genomics and evolutionary analyses within the Cryptosporidium clade.

Published

2024

16. A study on the functional role of the DHCR24 gene in gonadal differentiation and development of Macrobrachium nipponense

Author

Pengfei Cai, Wenyi Zhang, Sufei Jiang, Yiwei Xiong, Hui Qiao, Shubo Jin, and Hongtuo Fu

Subjects

Gonadal development, Mn-DHCR24, Macrobrachium nipponense, RNAi, Sex differentiation, Sex hormone, Medicine, Science

Abstract

Abstract Sex differentiation in crustaceans is a complex process influenced by various factors, including the androgenic gland and sex-related genes. This study characterized the role of the Mn-DHCR24 gene in the oriental river prawn (Macrobrachium nipponense). We used bioinformatics to analyze sequence features and phylogenetic relationships of a single Mn-DHCR24 gene. The expression patterns of Mn-DHCR24 across different tissues and developmental stages were determined by real-time PCR, and its localization in testis was determined by in situ hybridization. RNA interference was used to knock down Mn-DHCR24 expression, followed by examining changes in sex ratio and gonadal development at the PL10 stage. Additionally, an enzyme-linked immunosorbent assay measured 17α-methyltestosterone levels, and tissue sections were used to characterize gonadal development. The results indicated that Mn-DHCR24 was high expression in testis, which was critical for sperm maturation and gonadal differentiation. RNAi experiments showed the role of Mn-DHCR24 during reproductive regulation rather than as a master gene for sex differentiation. This study further showed that Mn-DHCR24 regulated sex and hormone-related genes, influencing steroid biosynthesis pathways. Together, these findings provided valuable insights into the genetic and hormonal mechanisms of gonadal differentiation in M. nipponense, and supported the development of monosex culture technology.

Published

2024

17. FXR promotes clear cell renal cell carcinoma carcinogenesis via MMP-7-regulated EMT pathway

Author

Jiachen Liu, Shiyu Huang, Yanguang Hou, Shujie Fu, Lei Wang, Juncheng Hu, Cheng Liu, and Xiuheng Liu

Subjects

FXR, MMP-7, EMT, ccRCC, Medicine, Science

Abstract

Abstract Renal cell carcinoma (RCC) ranks as a prevalent malignant neoplasm, with clear cell renal cell carcinoma (ccRCC, also known as KIRC) accounting for approximately 75% of all RCC cases. The farnesoid X receptor (FXR, encoded by NR1H4), functioning as a nuclear receptor, plays a crucial role in regulating gene transcription. Although the involvement of FXR in tumors of the digestive system and in acute kidney injury has been extensively studied, its specific role in the pathogenesis of ccRCC has yet to be thoroughly investigated. Consequently, the objective of our current investigation is to uncover the functional roles of FXR in ccRCC. In this study, plasmids for the overexpression of FXR were constructed, and small interfering RNA (siRNA) constructs were designed. Dual-luciferase reporter assays confirmed a direct binding interaction between FXR and the promoter of the matrix metalloproteinase 7 (MMP-7) gene. Additionally, a mouse xenograft model elucidated the regulatory effect of FXR on MMP-7 in the context of tumor growth. This study elucidates how FXR regulates the promotion of ccRCC through the MMP-7-mediated EMT pathway. Interestingly, FXR is typically regarded as a tumor suppressor gene that affects gastrointestinal tumors, providing a potential new therapeutic direction for ccRCC.

Published

2024

18. CMTM7 shapes the chronic inflammatory and immunosuppressive tumor microenvironment in hepatocellular carcinoma as an M2 macrophage biomarker

Author

Zhipeng Zhu, Hanzhi Liu, Huafeng Fu, Yu Luo, Baisheng Chen, Xiaofang Wu, Anran Sun, Fuxing Zhang, and Tao Wang

Subjects

Hepatocellular carcinoma, Transmembrane domain containing 7, Macrophage, Immunosuppression, Chronic inflammation, Tumor microenvironment, Medicine, Science

Abstract

Abstract Transmembrane domain-containing 7 (CMTM7) is a protein located at the plasma membrane. It plays a role in regulating the development and immune microenvironment of tumor cells. However, the impact of CMTM7 on hepatocellular carcinoma (HCC) is not well understood. To better understand the role of CMTM7 in HCC, the correlations of CMTM7 with clinical characteristics, patient prognosis, chronic inflammation, and immune cell infiltration were analyzed using tissue microarray slides, sequencing datasets and various analysis tools (Web). The bulk sequencing analysis indicated that elevated expression of CMTM7 appears to promote chronic inflammation, immunosuppression, M2 macrophage infiltration, a diminished response to cancer immunotherapy, and an unfavorable clinical prognosis in patients with hepatocellular carcinoma (HCC). Further investigation through single-cell RNA sequencing and multiple fluorescence staining demonstrated that CMTM7 serves as a molecular marker for M2 macrophages and is associated with T cell exhaustion as well as highly plastic stem-like characteristics. We propose that CMTM7 may represent a novel immune checkpoint for HCC patients experiencing suboptimal therapeutic outcomes. Utilizing the Connectivity Map and AutoDock Vina, we predicted two potential compounds targeting CMTM7—fasudil and arachidonyltrifluoromethane—as promising therapeutic candidates. Collectively, these findings suggest that CMTM7-positive macrophages play significant roles in establishing an immunosuppressive tumor microenvironment while promoting highly plastic and stem-like traits in HCC cells, ultimately contributing to poor prognostic outcomes.

Published

2024

19. Spatial shifts on a hyperbolic metasurface of graphene grating/topological insulators

Author

Na Li, Yubo Li, Di Yu, Haoyuan Song, Qiang Zhang, Sheng Zhou, Shufang Fu, and Xuanzhang Wang

Subjects

Spatial shifts, Hyperbolic metasurface, The topological magnetoelectric effect, Topological insulators, Medicine, Science

Abstract

Abstract We theoretically study the Goos-Hänchen (GH) and Imbert–Fedorov (IF) shifts of a reflected Gaussian beam from a hyperbolic metasurface composed of graphene grating based on topological insulators (TIs). Perturbations are generated on the surface of TIs by applying a thin magnetic film, resulting in a broken time-reversal symmetry. The GH and IF shifts are greatly enhanced as a result of the combined interaction of the graphene grating and the topological magnetoelectric effect (TME). In particular, even with the p-polarized incident beam near Brewster angles, the magnitude of IF shifts is increased by approximately two orders when compared to the case without graphene or a single layer of graphene. A critical frequency is identified when the propagation model in TIs transitions from a surface wave to a bulk wave, which leads to comparatively substantial GH shifts with high reflection. By adjusting the filling ratio, chemical potential and rotation angle of the graphene grating, the shift of GH and IF can be controlled. The dependence of the spatial shifts on the TME and the degree of anisotropy of the TI are also discussed. Our results may provide new possibilities for applications of the TI with the TME.

Published

2024

20. 18F-NaF uptake in skull-base bone as a predictor of treatment response in advanced nasopharyngeal carcinoma

Author

Xingyu Mu, Jingze Li, Jingquan Huang, Zhenzhen Wang, Zuguo Li, Xun Li, Yu Jiang, Zhipeng Zhou, and Wei Fu

Subjects

18F-NaF, PET/CT, Skull-base bone invasion, Nasopharyngeal carcinoma, Treatment response, Medicine, Science

Abstract

Abstract This study investigates the utility of 18F-sodium fluoride (18F-NaF) positron emission tomography/computed tomography (PET/CT) in assessing skull-base bone invasion (SBBI) and predicting treatment response in advanced nasopharyngeal carcinoma (NPC). A retrospective analysis was conducted on 142 patients with newly diagnosed advanced NPC who underwent 18F-NaF PET/CT for initial staging from December 2020 to December 2023. 18F-NaF PET/CT scans were analyzed for uptake values at the skull-base bone, and these were correlated with treatment outcomes of primary tumor using the Response Evaluation Criteria in Solid Tumors (RECIST) 1.1. Statistical analyses involved Mann–Whitney U tests for group comparisons and logistic regression for evaluating risk factors. Higher 18F-NaF uptake at the skull-base bone was significantly associated with advanced T stages (p 10.0 and SUVmean > 5.2 as predictive of non-CR, with AUC values of 0.77 and 0.76, respectively. Univariate and multivariable analysis confirmed SUVmax as a significant predictor of treatment response (OR = 7.03, 95% CI: 1.97–25.13, p

Published

2024

21. Associations of advanced lung cancer inflammation index with all-cause and respiratory disease mortality in adults with asthma: NHANES, 1999–2018

Author

Jixin Fu, Yanan Zou, Lei Luo, Jian Zhang, Xinjian Wang, and Dianliang Zhang

Subjects

Asthma, Advanced lung cancer inflammation index, All-cause mortality, Respiratory disease mortality, National Health and Nutrition Examination Survey, Medicine, Science

Abstract

Abstract The Advanced Lung Cancer Inflammation Index (ALI) represents both the inflammatory and nutritional status of the host, but its link with mortality in asthma patients is uncertain. The purpose of this study was to look at the relationship between ALI levels and all-cause and respiratory disease mortality in asthmatic patients. We conducted our research using cohort data from the National Health and Nutrition Examination Survey (NHANES) from 1999 to 2018. The National Death Index was used to calculate mortality until December 31, 2019. The study employed multivariate logistic regression to look into the relationship between ALI levels and asthma prevalence. Weighted Kaplan–Meier and multivariate-adjusted Cox analyses were utilized for investigating the relationship between ALI levels and all-cause and respiratory disease mortality in individuals with asthma. A restricted cubic spline (RCS) analysis was used to assess their nonlinear relationship. Subgroup and sensitivity analyses were also performed to evaluate the robustness of the results that were obtained. We enrolled 40,497 people in our study, and 5,469 of them had asthma, representing a 14% prevalence. A median follow-up of 11.19 (9.38, 14.29) years revealed 109 fatalities from respiratory diseases and 724 deaths from all causes. After correcting for several covariates, there was no longer any link (P-trend = 0.2) between ALI levels and the prevalence of asthma. When compared to the lowest quartile, the highest quartile of ALI levels was substantially linked to a lower risk of mortality from respiratory diseases and all causes (all P-trend

Published

2024

22. Enhanced Mn(II)/peracetic acid by nitrilotriacetic acid to degrade organic contaminants: Role of Mn(V) and organic radicals

Author

Yiqing Liu, Runyu Zhou, Yuqi Tang, Xin Li, Linghan Xu, and Yongsheng Fu

Subjects

Peracetic acid, Mn(II), Nitrilotriacetic acid, High-valent manganese, Organic radicals, Medicine, Science

Abstract

Abstract In this work, it was found that the presence of nitrilotriacetic acid (NTA) could enhance the elimination of sulfamethoxazole (SMX) significantly in Mn(II)/peracetic acid (PAA) process. NTA firstly complexed with Mn(II) to produce Mn(II)-NTA complex, which could activate PAA producing CH3C(O)O· and Mn(III)-NTA complex. Subsequently, Mn(V) was generated via two-electron transfer between Mn(III)-NTA complex and PAA. According to the results of UV–vis spectrum analysis, scavenging experiments and chemical probe method, organic radicals and Mn(V) were proved to participate in SMX abatement and Mn(V) was the predominant reactive oxidant. Four possible degradation pathways of SMX in Mn(II)/PAA/NTA process including hydroxylation, amino oxidation, bond cleavage and coupling reaction were proposed based on six identified degradation products. Mn(II)/PAA/NTA process worked only in acidic and neutral conditions and the increase in PAA, Mn(II) or NTA concentration could accelerate SMX removal. This study provides a strategy for improving PAA activation by Mn(II) and an insight into SMX degradation mechanism by Mn(II)/PAA/NTA process.

Published

2024

23. Biological and genetic characterization of a newly established human primary multidrug-resistant distal cholangiocarcinoma cell line, CBC3T-6

Author

Mingzhen Bai, Ruoshui Wang, Chongfei Huang, Ruyang Zhong, Ningzu Jiang, Wenkang Fu, Ningning Mi, Long Gao, Yuyao Jin, Haidong Ma, Jie Cao, Haiying Yu, Qiang Jing, Chao Zhang, Ping Yue, Yong Zhang, Yanyan Lin, Hengwei Zhang, and Wenbo Meng

Subjects

Distal cholangiocarcinoma, Cell line, Multidrug resistance, KRAS mutations, TP53 mutations, Medicine, Science

Abstract

Abstract Distal cholangiocarcinoma is a rare and highly aggressive malignant tumor. The inherent tumor characteristics and growth pattern of cancer cells pose a challenge for diagnosis and treatment. Chemotherapy resistance leads to limited treatment options for patients with advanced cholangiocarcinoma. However, drug resistance studies in cholangiocarcinoma are often limited by the use of preclinical models that do not accurately replicate the essential features of the disease. In this study, we established and characterized a primary multidrug-resistant distal cholangiocarcinoma cell line, CBC3T-6. STR profiling indicated no evidence of cross-contamination. This cell line remains stable during long-term in vitro culture and is characterized by short doubling times and rapid subcutaneous tumor formation in mice. In addition, among the first-line anticancer drugs for cholangiocarcinoma, CBC3T-6 cells showed varying degrees of resistance to gemcitabine, oxaliplatin, cisplatin, and 5-FU. Whole exome sequencing analysis revealed that CBC3T-6 cells contained a variety of potentially pathogenic somatic cell mutations, such as TP53 and KRAS mutations. ABCB1 mutation as a possible therapeutic target for multidrug resistance. In conclusion, CBC3T-6 cells can be used as a useful tool to study the mechanism of cholangiocarcinoma and develop new therapeutic strategies for multidrug resistance.

Published

2024

24. Trimodal therapy and surgical approaches in stage IIIA/N2 non-small cell lung cancer

Author

Pin-Ching Hu, Jing-Yang Huang, Ya-Fu Cheng, Ching-Yuan Cheng, Chang-Lun Huang, Wei-Heng Hung, and Bing-Yen Wang

Subjects

Non-small cell lung cancer (NSCLC), Stage IIIA/N2, Overall survival rate, Trimodal therapy, Lobectomy, Medicine, Science

Abstract

Abstract The standard treatment guideline for stage IIIA/N2 non-small cell lung cancer (NSCLC) remains controversial despite years of research, and the necessity of surgery is still debated. This study aims to explore optimal treatment and surgical methods for stage IIIA/N2 NSCLC patients. We obtained data from the Taiwan Cancer Registry (TCR) to compare the overall survival rates of different subgroups of stage IIIA/N2 NSCLC patients, as well as the overall survival rates of different treatment strategies and surgical methods. Our study included 2,237 stage IIIA/N2 NSCLC patients. Neoadjuvant chemotherapy followed by surgery and adjuvant chemotherapy led to significantly higher survival rates. For T1N2 patients, surgery alone showed better survival (P

Published

2024

25. An autonomous navigation system with a trajectory prediction-based decision mechanism for rubber forest navigation

Author

Xirui Zhang, Yongqi Liu, Junxiao Liu, Xuanli Chen, Ruiwu Xu, Weiqiang Ma, Zhifu Zhang, and Shaohua Fu

Subjects

Rubber-tapping robot, Autonomous navigation system, Multi-objective navigation, Navigation decision mechanism, Medicine, Science

Abstract

Abstract The use of rubber-tapping robots capable of autonomous navigation in place of manual rubber-tapping is a growing trend, but the challenging multi-objective navigation task in forest environments impedes their autonomous operation. To tackle this issue, an autonomous navigation system with a trajectory prediction-based decision mechanism for rubber forest navigation is designed. This navigation decision mechanism is comprised of obtaining coordinates of target points (OCTP), selecting the next coordinate (SNC), generating the additional coordinates (GAC), and optimizing the planned paths (OPP). By utilizing this mechanism, the robot can autonomously select the next target point based on its current position and the actual operating logic while navigating in the forest areas, adding additional coordinates during row or column changes, and planning and optimizing the path. The on-site experiments demonstrate that during autonomous navigation, the positioning accuracy is favorable and supports subsequent operations. The overall rationality of the planned path reaches 92.14%, further confirming its effectiveness.

Published

2024

26. Creep characterisation and microstructural analysis of municipal solid waste incineration fly ash geopolymer backfill

Author

Lijuan Su, Siyao Wu, Guosheng Fu, Wancheng Zhu, Xiangdong Zhang, and Bing Liang

Subjects

Municipal solid waste incineration (MSWI) fly ash, Filling material, Creep, Fractional order model, Pore structure, Medicine, Science

Abstract

Abstract In this work, an alkali-activated municipal solid waste incineration (MSWI) fly ash-based filling material was prepared with MSWI fly ash as the raw material and slag as the auxiliary material. The filling body experiences long-term creep, which may have a direct effect on the stability of the overlying strata of the mine goaf. The long-term mechanical properties of the fly ash-based filling materials were tested with a triaxial rheological apparatus. First, uniaxial creep testing was carried out at five levels of axial stress: 50%, 60%, 70%, 80% and 90% of the uniaxial compressive strength (UCS). Then, triaxial creep testing was carried out by considering the geological environment of the goaf. The creep characteristics of fly ash-based filling materials under a three-dimensional stress state were explored. The results indicate that (1) under different stress levels, the creep curves of fly ash-based filling materials can be divided into three types: decelerated creep‒stable creep, decelerated creep‒constant creep, and decelerated creep‒constant creep‒accelerated creep. (2) The total creep deformation of the fly ash-based filling material is 0.46 ~ 0.78%, which is similar to the creep deformation of soft rock. The instantaneous deformation during loading contributes most of the total deformation. (3) The polymerization products generated in the fly ash-based filling material system can effectively cement the raw material particles, and the presence of gel can effectively delay the accelerating creep process of the material. (4) A nonlinear fractional-order model composed of an Abel dashpot can fully describe the complete process of decelerating creep-constant creep-accelerating creep.

Published

2024

27. Circulating YKL-40 levels but not CHI3L1 or TRIB1 gene variants predict long-term outcomes in patients with angiographically confirmed multivessel coronary artery disease

Author

Hsin-Hua Chou, Ming-Sheng Teng, Jyh-Ming Jimmy Juang, Fu-Tien Chiang, I-Shiang Tzeng, Semon Wu, and Yu-Lin Ko

Subjects

YKL-40, CHI3L1, TRIB1, Weighted genetic risk score, Taiwan Biobank, Coronary artery disease, Medicine, Science

Abstract

Abstract YKL-40 is significantly associated with the prevalence and severity of coronary artery disease (CAD). YKL-40 levels are significantly associated with variations in the CHI3L1 and TRIB1 genes. We investigated candidate genes for YKL-40 levels and evaluated the prognostic value of this biomarker and corresponding variants for long-term outcomes in patients with CAD. We included 4664 and 521 participants from the Taiwan Biobank (TWB) and CAD cohorts, respectively. Candidate variants for circulating YKL-40 levels were investigated using genome-wide association study (GWAS) data from the TWB cohort, and the results were validated in the CAD cohort. The primary endpoint was all-cause mortality. The secondary endpoint was major adverse cardiac events (MACEs), which included the composite endpoints of all-cause mortality, nonfatal acute coronary syndrome, hospitalization for heart failure, and nonfatal stroke. According to the GWAS data from the TWB cohort, three CHI3L1 variants (rs4950928, rs10399931, and rs872129) and one TRIB1 variant (rs6982502) were independently associated with YKL-40 levels. These findings were validated in the CAD cohort. The combined CHI3L1 and TRIB1 weighted genetic risk scores (WGRSs) were not associated with the long-term outcomes (median follow-up period of 3.7 years) in patients with CAD. Conversely, patients with YKL-40 levels in the upper tertile had the highest rates of all-cause mortality and MACEs (log-rank p = 9.58 × 10−8 for all-cause mortality and 1.34 × 10−7 for MACEs). Furthermore, YKL-40 levels predicted poor clinical outcomes only in patients with multivessel CAD (log-rank p = 3.0 × 10−6 for all-cause mortality and 1.10 × 10−5 for MACEs) and not in patients with single-vessel CAD. This study revealed that YKL-40 levels but not the combined CHI3L1 and TRIB1 WGRSs were found to be independent predictors of poor clinical outcomes in patients with multivessel CAD.

Published

2024

28. Enhanced horizontal deposition of large stone in granular flow with mixing small spherical grains after slide along slope and free fall

Author

Hai-Hua Gu, Lin-Tao Fu, and Yu Lei

Subjects

Extreme mobility, Grain segregation, Grain composition, Grain sphericity, Mass distribution, Medicine, Science

Abstract

Abstract Geophysical mass flows, which could endanger our health, lives, and property safety, commonly occur in mountain regions. Although many efforts have been made, transport of granular flows consisting of polydisperse grains, which is influenced by multiple factors, is still not well understood. This work focused on the effect of small spherical grains on the movement of large stones in granular flows of different grain compositions (quartz gravel, glass bead and angular stone), through experimentally measuring mass frequency distributions of granular materials deposited on flat surface. Three characteristic deposition distances (X 20, X 50 and X 80) and one extreme mobility probability (P s ) were extracted from cumulative frequency distributions. It reveals that, in most of cases, the inclusion of glass beads reduced X 20 , X 50, and X 80 but increased P s for total mass. For angular stone mass, the inclusion of glass beads increased the occurrence frequency of that X 20, X 50 and X 80 increase, apart from increasing P s . These results indicated small spherical grains could effectively enhance the extreme mobility of large angular stones in mixtures. We hope these results could be helpful for improving our understanding of the transport of geophysical mass flow as well as the grain segregation in different natural environment.

Published

2024

29. Manipulating C-C coupling pathway in electrochemical CO2 reduction for selective ethylene and ethanol production over single-atom alloy catalyst

Author

Shifu Wang, Fuhua Li, Jian Zhao, Yaqiong Zeng, Yifan Li, Zih-Yi Lin, Tsung-Ju Lee, Shuhui Liu, Xinyi Ren, Weijue Wang, Yusen Chen, Sung-Fu Hung, Ying-Rui Lu, Yi Cui, Xiaofeng Yang, Xuning Li, Yanqiang Huang, and Bin Liu

Subjects

Science

Abstract

Abstract Manipulation C-C coupling pathway is of great importance for selective CO2 electroreduction but remain challenging. Herein, two model Cu-based catalysts, by modifying Cu nanowires with Ag nanoparticles (AgCu NW) and Ag single atoms (Ag1Cu NW), respectively, are rationally designed for exploring the C-C coupling mechanisms in electrochemical CO2 reduction reaction (CO2RR). Compared to AgCu NW, the Ag1Cu NW exhibits a more than 10-fold increase of C2 selectivity in CO2 reduction to ethanol, with ethanol-to-ethylene ratio increased from 0.41 over AgCu NW to 4.26 over Ag1Cu NW. Via a variety of operando/in-situ techniques and theoretical calculation, the enhanced ethanol selectivity over Ag1Cu NW is attributed to the promoted H2O dissociation over the atomically dispersed Ag sites, which effectively accelerated *CO hydrogenation to form *CHO intermediate and facilitated asymmetric *CO-*CHO coupling over paired Cu atoms adjacent to single Ag atoms. Results of this work provide deep insight into the C-C coupling pathways towards target C2+ product and shed light on the rational design of efficient CO2RR catalysts with paired active sites.

Published

2024

30. Global distribution and decline of mangrove coastal protection extends far beyond area loss

Author

Xichen Xu, Dongjie Fu, Fenzhen Su, Vincent Lyne, Hao Yu, Jiasheng Tang, Xiaorun Hong, and Juan Wang

Subjects

Science

Abstract

Abstract Mangroves protect coasts from extreme weather and erosion but can be destroyed by climate change and harvesting. However, there is no consistent formulation of protective capacity that integrates key factors such as area, width, height, and health. Here, we quantified and analyzed a process-based measure of mangrove coastal protection index (MCPI) incorporating cross-shore width, canopy height, and the normalized difference vegetation index (health index). Width/area generally declined at low rates but width increases in some regions reduced MCPI. Cluster exchange network analysis from 2007 to 2019 showed an 800% increase in mangrove forests with characteristically low height, width, and MCPI. Globally, this suggests a 25% decrease in MCPI from 2007 to 2019, primarily from height/biomass change, compared to a 2% decrease in area. Relatively sheltered low-latitude high mangrove strands (>20 m) of high-MCPI appear to be resilient to destruction from cyclones. In contrast, our results highlight an alarming, widespread decline in low MCPI, particularly along coasts exposed to deep water, possibly in concert with human destruction, cyclones, and intensifying oceanic boundary currents.

Published

2024

31. The hyper-enrichment of silver through the aggregation of silver sulfide nanoparticles

Author

Mingchun Chai, Anthony E. Williams-Jones, Wei Fu, Jianwei Li, and Cheng Xu

Subjects

Science

Abstract

Abstract Silver deposits have long been considered to form due to the direct precipitation of silver minerals from aqueous fluids, in which the metal is transported as chloride and/or bisulfide complexes. Ultra-high-grade silver ores have silver contents up to tens of weight-percent in the form of silver sulfides and native silver. Ore-forming fluids of most silver deposits, however, typically contain low silver contents of parts per million silver. The challenge is to explain how fluids with such low concentrations of silver can form ultra-high-grade silver ores. Here, we present direct mineralogical evidence from natural samples showing that the high-grade silver ores form from the aggregation of silver sulfide nanoparticles through intermediate microparticles and dendrites to acanthite crystals. Native silver grows from silver sulfides via solid-state silver ion aggregation. This study traces the formation of silver sulfides from their nanoparticulate precursors, thereby providing insights into the genesis of ultra-high-grade silver ores in a variety of metallogenic settings.

Published

2024

32. Switchable planar chirality and spin texture in highly ordered ferroelectric hybrid perovskite domains

Author

Chuanzhao Li, Mykola Telychko, Yue Zheng, Shurong Yuan, Zhenyue Wu, Walter P. D. Wong, Yixin Li, Yuanyuan Jin, Weng Fu Io, Xinyun Wang, Junhao Lin, Jianhua Hao, Cheng Han, and Kai Leng

Subjects

Science

Abstract

Abstract Chiral organic-inorganic hybrid perovskites offer a promising platform for developing non-linear chiro-optical applications and chiral-induced spin selectivity. Here, we show that achiral hybrid perovskites that have highly ordered ferroelectric domains with orthogonal polarization exhibit planar chirality, as manifested by second harmonic generation with strong circular dichroism. Interestingly, the handedness of the second harmonic generation circular dichroism response can be alternatingly switched between orthogonally polarized domains and domain walls. To correlate the origin of planar chirality in these domains, atom-resolved atomic force microscopy is used to reveal distinct arrangements of atomic rows in these ferroelectric crystals that indicate planar symmetry breaking. Remarkably, a large SHG anisotropy factor of 0.41 is measured at the domain wall. Additionally, spatially resolved two-photon photoluminescence excitation measurement provide evidence of larger Rashba spin-splitting in these chiral ferroelectric domains compared to domain-free areas. Our discoveries of domain-dependent planar chirality and spin texture hold great promise for advancement of domain-specific chiro-optical applications.

Published

2024

33. Azocarboxamide-enabled enantioselective regiodivergent unsymmetrical 1,2-diaminations

Author

Yun-Dong Fu, Han Zhang, Bei-Bei Li, Lihua Huang, Xiao Xiao, Min-Can Wang, Donghui Wei, and Guang-Jian Mei

Subjects

Science

Abstract

Abstract Enantioenriched unsymmetrical vicinal diamines are important basic structural motifs. While catalytic asymmetric intermolecular 1,2-diamination of carbon–carbon double bonds represents the most straightforward approach for preparing enantioenriched vicinal-diamine-containing heterocycles, these reactions are often limited to the installation of undifferentiated amino functionalities through metal catalysis and/or the use of stoichiometric amounts of oxidants. Here, we report organocatalytic enantioselective unsymmetrical 1,2-diaminations based on the rational design of a bifunctional 1,2-diamination reagent, namely, azocarboxamides (ACAs). Under the catalysis of chiral phosphoric acid, unsymmetrical 1,2-diaminations of ACAs with various electron-rich double bonds readily occur in a regiodivergent manner. Indoles prefer dual hydrogen-bonding mode to give dearomative (4 + 2) products, and 3-vinylindoles and azlactones are inclined to undergo unsymmetrical 1,2-diamination via the (3 + 2) process. DFT calculations are performed to reveal the reaction mechanism and the origin of the regio- and enantioselectivity. Guided by computational design, we are able to reverse the regioselectivity of the dearomative unsymmetrical 1,2-diamination of indoles using Lewis acid catalysis.

Published

2024

34. Spin transport of a doped Mott insulator in moiré heterostructures

Author

Emma C. Regan, Zheyu Lu, Danqing Wang, Yang Zhang, Trithep Devakul, Jacob H. Nie, Zuocheng Zhang, Wenyu Zhao, Kenji Watanabe, Takashi Taniguchi, Sefaattin Tongay, Alex Zettl, Liang Fu, and Feng Wang

Subjects

Science

Abstract

Abstract Moiré superlattices of semiconducting transition metal dichalcogenide heterobilayers are model systems for investigating strongly correlated electronic phenomena. Specifically, WSe2/WS2 moiré superlattices have emerged as a quantum simulator for the two-dimensional extended Hubbard model. Experimental studies of charge transport have revealed correlated Mott insulator and generalized Wigner crystal states, but spin transport of the moiré heterostructure has not yet been sufficiently explored. Here, we use spatially and temporally resolved circular dichroism spectroscopy to directly image the spin transport as a function of carrier doping and temperature in WSe2/WS2 moiré heterostructures. We observe diffusive spin transport at all hole concentrations at 11 Kelvin — including the Mott insulator at one hole per moiré unit cell — where charge transport is strongly suppressed. At elevated temperatures the spin diffusion constant remains unchanged in the Mott insulator state, but it increases significantly at finite doping away from the Mott state. The doping- and temperature-dependent spin transport can be qualitatively understood using a t–J model, where spins can move via the hopping of spin-carrying charges and via the exchange interaction.

Published

2024

35. The Acrasis kona genome and developmental transcriptomes reveal deep origins of eukaryotic multicellular pathways

Author

Sanea Sheikh, Cheng-Jie Fu, Matthew W. Brown, and Sandra L. Baldauf

Subjects

Science

Abstract

Abstract Acrasids are amoebae with the capacity to form multicellular fruiting bodies in a process known as aggregative multicellularity (AGM). This makes acrasids the only known example of multicellularity among the earliest branches of eukaryotes (the former Excavata). Here, we report the Acrasis kona genome sequence plus transcriptomes from pre-, mid- and post-developmental stages. The genome is rich in novelty and genes with strong signatures of horizontal transfer, and multigene families encode nearly half of the amoeba’s predicted proteome. Development in A. kona appears molecularly simple relative to the AGM model, Dictyostelium discoideum. However, the acrasid also differs from the dictyostelid in that it does not appear to be starving during development. Instead, developing A. kona appears to be very metabolically active, does not induce autophagy and does not up-regulate its proteasomal genes. Together, these observations strongly suggest that starvation is not essential for AGM development. Nonetheless, development in the two amoebae appears to employ remarkably similar pathways for signaling, motility and, potentially, construction of an extracellular matrix surrounding the developing cell mass. Much of this similarity is also shared with animal development, suggesting that much of the basic tool kit for multicellular development arose early in eukaryote evolution.

Published

2024

36. Photochemical 1,3-boronate rearrangement enables three-component N-alkylation for α-tertiary hydroxybenzylamine synthesis

Author

Peng Zou, Dongmin Fu, Haoyang Wang, Ruoyu Sun, Yu Lan, and Yiyun Chen

Subjects

Science

Abstract

Abstract Hydroxybenzylamines are prevalent in drugs and bioactive molecules, including various antimalarial and anticancer drugs. α-tertiary alkylation of amines impacts drug-target interactions significantly through their influence on basicity and lipophilicity. Traditional N-alkylation methods, especially for α-tertiary amines, suffer from limitations due to high energy barriers from steric hindrance. In this work, we leverage visible light irradiation to enable the organoboronic acid addition to sterically hindered ketimines in the excited state. Notably, it overcomes the limitations of the well-explored Petasis reaction, which is restricted to aldimines due to the high energy barrier associated with ketimines (51.3 kcal/mol). This three-component coupling of aliphatic amines, o-phenolic ketones, and organoboronic acids delivers diverse α-tertiary o-hydroxybenzylamines (77 examples, yields up to 82%) with broad functional group tolerance. The light-driven 1,3-boronate rearrangement introduces quaternary carbon centers adjacent to the amine moiety to enable late-stage functionalization of complex bioactive molecules. This versatile tool for complex amine synthesis holds significant potential for accelerating advancements in drug discovery, chemical biology, and materials science research.

Published

2024

37. DEAD-box RNA helicase 10 is required for 18S rRNA maturation by controlling the release of U3 snoRNA from pre-rRNA in embryonic stem cells

Author

Xiuqin Wang, Gongcheng Hu, Lisha Wang, Yuli Lu, Yanjiang Liu, Shengxiong Yang, Junzhi Liao, Qian Zhao, Qiuling Huang, Wentao Wang, Wenjing Guo, Heying Li, Yu Fu, Yawei Song, Qingqing Cai, Xiaofei Zhang, Xiangting Wang, Yue-Qin Chen, Xiaorong Zhang, and Hongjie Yao

Subjects

Science

Abstract

Abstract Ribosome biogenesis plays a pivotal role in maintaining stem cell homeostasis, yet the precise regulatory mechanisms governing this process in mouse embryonic stem cells (mESCs) remain largely unknown. In this investigation, we ascertain that DEAD-box RNA helicase 10 (DDX10) is indispensable for upholding cellular homeostasis and the viability of mESCs. Positioned predominantly at the nucleolar dense fibrillar component (DFC) and granular component (GC), DDX10 predominantly binds to 45S ribosomal RNA (rRNA) and orchestrates ribosome biogenesis. Degradation of DDX10 prevents the release of U3 snoRNA from pre-rRNA, leading to perturbed pre-rRNA processing and compromised maturation of the 18S rRNA, thereby disrupting the biogenesis of the small ribosomal subunit. Moreover, DDX10 participates in the process of liquid-liquid phase separation (LLPS), which is necessary for efficient ribosome biogenesis. Notably, the NUP98-DDX10 fusion associated with acute myelocytic leukemia (AML) alters the cellular localization of DDX10 and results in loss of ability to regulate pre-rRNA processing. Collectively, this study reveals the critical role of DDX10 as a pivotal regulator of ribosome biogenesis in mESCs.

Published

2024

38. Nearly perfect spin polarization of noncollinear antiferromagnets

Author

Gautam Gurung, Mohamed Elekhtiar, Qing-Qing Luo, Ding-Fu Shao, and Evgeny Y. Tsymbal

Subjects

Science

Abstract

Abstract Ferromagnets with high spin polarization are known to be valuable for spintronics—a research field that exploits the spin degree of freedom in information technologies. Recently, antiferromagnets have emerged as promising alternative materials for spintronics due to their stability against magnetic perturbations, absence of stray fields, and ultrafast dynamics. For antiferromagnets, however, the concept of spin polarization and its relevance to the measured electrical response are elusive due to nominally zero net magnetization. Here, we define an effective momentum-dependent spin polarization and reveal an unexpected property of many noncollinear antiferromagnets to exhibit nearly 100% spin polarization in a broad area of the Fermi surface. This property leads to the emergence of an extraordinary tunneling magnetoresistance (ETMR) effect in antiferromagnetic tunnel junctions (AFMTJs). As a representative example, we predict that a noncollinear antiferromagnet Mn3GaN exhibits nearly 100% spin-polarized states that can efficiently tunnel through low-decay-rate evanescent states of perovskite oxide SrTiO3 resulting in ETMR as large as 104%. Our results uncover hidden functionality of material systems with noncollinear spin textures and open new perspectives for spintronics.

Published

2024

39. Hall probe calibration in high-precision magnetic field mapping system of superconducting cyclotron

Author

Xu Manman, Cao Chuqing, Fu Yili, Wu Yonghong, Wang Xiangdong, Su Yongsheng, Xi Lin, and Liu Yongming

Subjects

magnetic field mapping, measurement accuracy, polynomial fitting, probe calibration, superconducting cyclotron, Science

Abstract

Superconducting cyclotron can generate high-energy proton beams and are mainly used for radiation therapy of tumors and cancers. In the superconducting cyclotron SC200, the maximum magnetic induction intensity can typically reach up to 4.6 T, and the magnetic field accuracy is 1e-4. Hall probes are commonly used tools for measuring high-intensity magnetic fields.

Published

2024

40. Chest computed tomography for patients with sepsis in the emergency intensive care unit

Author

Senjun Jin, Wenwei Cai, Qiang Shen, Lingfan Yang, Hu Sheng’an, Jin Fu, and Zhongheng Zhang

Subjects

Science

Abstract

Abstract Sepsis is a systemic inflammatory response syndrome (SIRS) caused by infection, which may lead to multiple organ dysfunction in susceptible patient. The most frequently involved organs/systems include the lung, kidney and circulation system. It is well established that sepsis is a risk factor for acute lung injury. While overt pulmonary infiltrates can be well captured by human operators, subtle structural changes of the lung might be ignored. Since the advantage of chest computed tomography (CT) is its capability of providing fine structural changes in high spatial resolution, the study of chest CT by means of computer science may provide further insights into the underlying pathophysiology. The integration of chest CT into the study of sepsis is limited partly due to the lack of well-curated database. The study aims to establish a database comprising detailed clinical tabular data, as well as the raw chest CT images. The database is intended to support a wide array of research studies involving radiomics in sepsis patients, helping to reduce barriers to the reproducibility of clinical research.

Published

2024

41. Single and joint exposure of Pb, Cd, Hg, Se, Cu, and Zn were associated with cognitive function of older adults

Author

Zixuan Fu, Xiaofang Xu, Li Cao, Qianying Xiang, Qian Gao, Huirong Duan, Shuhan Wang, Liye Zhou, and Xiujuan Yang

Subjects

Heavy metals exposure, Cognitive function, QR, RCS, BKMR, Medicine, Science

Abstract

Abstract Background: Impaired cognitive function following exposure to heavy metals has emerged as a significant global health concern. Nevertheless, the impact of combined exposure to multiple heavy metals on cognitive impairment remains unclear. Objective: This study aimed to explore the association between multiple heavy metals exposure and cognitive function to provide theoretical evidence to guide prevention strategies. Methods: The blood levels of lead (Pb), cadmium (Cd), mercury (Hg), selenium (Se), copper (Cu) and zinc (Zn) and the results of the cognitive function tests were extracted from 811 elderly Americans who completed the NHANES between 2011 and 2014. Quantile regression (QR), restricted cubic splines (RCS), and Bayesian kernel machine regression (BKMR) were used to explore the individual and joint association between heavy metals exposure and performance in 4 standardized cognitive tests; Item Response Theory (IRT), Delayed Recall Test (DRT), Animal Fluency Test (AFT) and Digit Symbol Substitution Test (DSST). Results: A negative association was noted between Cd levels and IRT (p = 0.048, 95%CI: -2.7, -0.1). Se concentrations ranging between 2.197 µg/L (95%CI: 0.004, 0.15) to 2.29 µg/L (95%CI: 2.56, 7.64) (log10Se) was postively associated with DSST (p = 0.001 ). Cu was negatively associated with DSST (p = 0.049, 95%CI: -37.75, -0.09), while Zn was positively associated with IRT (p = 0.022, 95%CI: 0.55, 11.73). Exposure to the 6 heavy metals combined showed a positive linear association with IRT, DRT, and a negative linear association with DSST. An interaction between Cd and the other heavy metals (excepted for Pb). Conclusion: Exposure to Pb, Cd, Hg, Se, Cu, and Zn was associated with cognitive function. Joint exposure to the 6 heavy metals showed a positive linear association with IRT, DRT, contrarily, a negative linear association with DSST.

Published

2024

42. Serum IL-40 increases in patients with rheumatoid arthritis and correlates with some clinical characteristics and comorbidities

Author

Wei Wang, Juan Zhao, Siyu Wu, Jinfang Fu, Yunli Zhang, and Wanchan Peng

Subjects

Rheumatoid arthritis, Comorbidities, Disease-modifying antirheumatic drugs, Biomarkers, Medicine, Science

Abstract

Abstract The role of Interleukin-40 (IL-40) in rheumatoid arthritis (RA) is not well understood, and this study was designed to explore serum IL-40 levels in RA patients to assess its potential as a disease biomarker. In this research, serum IL-40 levels were determined using enzyme-linked immunosorbent assay in 116 patients with RA, 40 with osteoarthritis (OA), 29 with systemic lupus erythematosus (SLE), and 66 healthy controls (HCs). Paired serum samples were collected from 86 of the 116 patients treated during follow-up visits at week 12. Group comparison analysis showed that serum IL-40 levels were significantly higher in patients with RA than in HCs, and the areas under the curve for IL-40 were 0.688, 0.865, and 0.870 for distinguishing patients with RA from HCs and those with OA and SLE, respectively. Furthermore, in RA, serum IL-40 levels were lower in patients with comorbidities of cardiovascular diseases or OA. Correlation analyses revealed that serum IL-40 levels were positively associated with RA-related autoantibodies and coagulation-related indicators, whereas no correlation was observed with disease activity-associated factors. When comparing paired samples, treatment with TNF inhibitors (TNFi) significantly reduced serum IL-40 levels, emphasizing its potential as a treatment guide.

Published

2024

43. The clinical significance of intraoperative lavage fluid culture during pancreaticoduodenectomy on organ/space surgical site infection

Author

Yifei Yang, Jianjie Sheng, Chenglin Lu, Hao Cheng, Gang Li, Liang Mao, Chuang Chen, Yudong Qiu, Chang Liu, and Xu Fu

Subjects

Pancreaticoduodenectomy, Surgical site infection, Intraoperative lavage, Medicine, Science

Abstract

Abstract Organ/space surgical site infection (SSI) are common after pancreaticoduodenectomy (PD). There is limited research on the clinical impact of intraoperative lavage fluid contamination in patients undergoing PD. One hundred five patients who underwent PD between August 2022 and July 2023 were retrospectively enrolled. The intraoperative bile and peritoneal lavage were collected for bacterial culture. Postoperative drainage bacterial cultures were performed every 2–3 days thereafter until drains were all removed. The bacteria isolated from intraoperative lavage fluid, intraoperative bile, and postoperative drainage fluid were examined in detail. The risk factors associated with positive intraoperative lavage fluid culture were analyzed through both univariate and multivariate analyses. Organ/space SSI occurred in 59(56.2%) of the 105 patients. The positivity rates of cultures in intraoperative lavage fluid, intraoperative bile, and postoperative drainage fluid were found to be 41.0%, 67.6%, and 84.8%, respectively. Patients with positive intraoperative lavage fluid culture had a significantly higher occurrence of organ/space SSI compared to the negative group (69.0% vs. 29.4%, P

Published

2024

44. Nomogram models for predicting myocardial ischemia under high altitude exposure: a cohort study

Author

Yu Chen, Yan-Kun Shi, Shi-Zhong Fu, Zhuo-Dong Li, Sheng-Yu Yang, Xiao-Ying Zhou, Zhu Yan, Chun-Ping Bao, Xin-Ming Xu, Xin Zhang, and Li-Xia Yang

Subjects

High altitude, Myocardial ischemia, Coronary microvascular disease, Nomogram, Prediction model., Medicine, Science

Abstract

Abstract Background: Exposure to high altitude increases the risk of myocardial ischemia (MI) and subsequent cardiovascular death. Nomogram is a graphical regression model, but there are no reports on using nomogram to predict myocardial ischemia under high altitude exposure. Our goal was to establish prediction models based on pre-high-altitude physical exposure examination data and identify key risk factors. Methods: We prospectively enrolled a total of 2,855 healthy individuals who underwent physical examination at the 920th Hospital of Joint Logistics Support Force and were scheduled to undergo high-altitude (3000–3500 m) training within six months. These participants were randomly divided into a training cohort (75%) and a validation cohort (25%). In the training set, single-factor analysis of variance and Least Absolute Shrinkage and Selection Operator (LASSO) regression analysis were used to select variables, and two nomograms were established based on clinical features (CF) and clinical features + blood tests (CF + BT), respectively. The performance of the nomograms was evaluated using the area under the receiver operating characteristic curve (ROC), the concordance index (C-index), and calibration curves. Results: The C-index for the prediction models CF and CF + BT were 0.652 and 0.804, respectively. In the training cohort, the AUC for prediction models CF and CF + BT were 0.61 and 0.80, respectively. In the validation cohort, the AUC for prediction models CF and CF + BT were 0.61 and 0.81, respectively. Conclusion: We have successfully established two nomogram models to predict myocardial ischemia under high-altitude exposure and identified some risk factors.

Published

2024

45. A comparative study of foliar particulate matter wash-off from plants under natural and simulated rain conditions

Author

Bingjie Zhang, Yi Zhou, Magdalena Pawełkowicz, Elżbieta Wójcik-Gront, Mariia Pismanik, Łukasz Wnorowski, Zongchi Fu, Han Liu, Monika Małecka-Przybysz, Hanna Moniuszko, Chunyang Y. Zhu, and Arkadiusz Przybysz

Subjects

Air phytoremediation, Air pollutants, Precipitation, Natural rain, Simulated rain, Medicine, Science

Abstract

Abstract Urban greening can reduce concentrations of particulate matter (PM). However, most of the PM is deposited temporarily on foliage and can be removed by precipitation. Due to the unpredictability and randomness of natural rain and the complexity of environmental conditions, the effect of rainfall on PM removal from foliage is usually examined using simulated rain. The aim of this study was to compare the effects of natural and simulated rain on washing off PM deposited on the foliage of seventeen plant species (evergreen/deciduous trees and shrubs, herbaceous plants). Regardless of the PM fraction studied, simulated rain washed off a larger fraction of the PM than natural rain. A novel finding is the differential role played by various plant characteristics in determining the effectiveness of PM wash off under natural and simulated rain conditions, with their influence being more pronounced under natural rainfall. The type of rainfall and PM size fraction influenced the effectiveness of the PM wash-off from different plant groups. Natural rain was more effective at removing PM from evergreen trees, while simulated rainfall was more effective at removing PM from deciduous shrubs and herbaceous plants. The results obtained from this study suggest that simulated rain does not reflect the effects of natural precipitation on the processes removing PM from leaves, and therefore should not be used to explain phenomena that occur in realistic conditions.

Published

2024

46. The de novo design and synthesis of yeast chromosome XIII facilitates investigations on aging

Author

Chun Zhou, Yun Wang, Yikun Huang, Yongpan An, Xian Fu, Daqian Yang, Yilin Wang, Jintao Zhang, Leslie A. Mitchell, Joel S. Bader, Yizhi Cai, Junbiao Dai, Jef D. Boeke, Zhiming Cai, Zhengwei Xie, Yue Shen, and Weiren Huang

Subjects

Science

Abstract

Abstract In the era of synthetic biology, design, construction, and utilization of synthetic chromosomes with unique features provide a strategy to study complex cellular processes such as aging. Herein, we successfully construct the 884 Kb synXIII of Saccharomyces cerevisiae to investigate replicative aging using these synthetic strains. We verify that up-regulation of a rRNA-related transcriptional factor, RRN9, positively influence replicative lifespan. Using SCRaMbLE system that enables inducible whole-genome rearrangement on synXIII, we obtain 20 SCRaMbLEd synXIII strains with extended lifespan. Transcriptome analysis reveal the expression of genes involve in global protein synthesis is up-regulated in longer-lived strains. We establish causal links between genotypic change and the long-lived phenotype via reconstruction of some key structural variations observed in post-SCRaMbLE strains and further demonstrate combinatorial effects of multiple aging regulators on lifespan extension. Our findings underscore the potential of synthetic yeasts in unveiling the function of aging-related genes.

Published

2024

47. Dual receptor-binding, infectivity, and transmissibility of an emerging H2N2 low pathogenicity avian influenza virus

Author

Ju Sun, Tianyi Zheng, Mingjun Jia, Yanjun Wang, Jingru Yang, Yun Liu, Pengyun Yang, Yufeng Xie, Honglei Sun, Qi Tong, Jiaming Li, Jing Yang, Guanghua Fu, Yi Shi, Jianxun Qi, Wenjun Liu, Jinhua Liu, Wen-xia Tian, George F. Gao, and Yuhai Bi

Subjects

Science

Abstract

Abstract The 1957 H2N2 influenza pandemic virus [A(H2N2)pdm1957] has disappeared from humans since 1968, while H2N2 avian influenza viruses (AIVs) are still circulating in birds. It is necessary to reveal the recurrence risk and potential cross-species infection of these AIVs from avian to mammals. We find that H2 AIVs circulating in domestic poultry in China have genetic and antigenic differences compared to the A(H2N2)pdm1957. One H2N2 AIV has a dual receptor-binding property similar to that of the A(H2N2)pdm1957. Molecular and structural studies reveal that the N144S, and N144E or R137M substitutions in hemagglutinin (HA) enable H2N2 avian or human viruses to bind or preferentially bind human-type receptor. The H2N2 AIV rapidly adapts to mice (female) and acquires mammalian-adapted mutations that facilitated transmission in guinea pigs and ferrets (female). These findings on the receptor-binding, infectivity, transmission, and mammalian-adaptation characteristics of H2N2 AIVs provide a reference for early-warning and prevention for this subtype.

Published

2024

48. Mandelonitrile produced by commensal bacteria protects the Colorado potato beetle against predation

Author

Wei-Nan Kang, Yang Pan, Lan-Lan Liao, Yi-Kuan Wu, Xiao-Qing Zhang, Lin Jin, Kai-Yun Fu, Wen-Chao Guo, and Guo-Qing Li

Subjects

Science

Abstract

Abstract Larvae and adults of the Colorado potato beetle (Leptinotarsa decemlineata), a major pest of potato crops, display conspicuous coloration to advertise their toxicity to predators. However, the identity of the toxic compounds remains unclear. Here, we show that larvae and adults release toxic hydrogen cyanide (HCN) from the degradation of mandelonitrile and other cyano-compounds, which are produced by commensal bacteria. We isolate the bacterium Proteus vulgaris Ld01 from the insect’s gut, and show that it produces HCN and a mandelonitrile-producing cyanoglucoside, amygdalin. Knockout of a gene (hcnB) encoding putative hydrogen cyanide synthase impairs HCN production in P. vulgaris Ld01. Antibiotic treatment of larvae, to eliminate their commensal bacteria, leads to a substantial reduction of HCN emission in larvae and adults. HCN release by bacteria-deprived beetles can be restored by addition of mandelonitrile or by re-infection with P. vulgaris Ld01 (but not with its ∆hcnB1 or ∆hcnB2 mutants). Finally, we use dual-choice experiments to show that domestic chicks prefer to eat bacteria-deprived larvae over control larvae, larvae re-colonized with P. vulgaris Ld01, or mandelonitrile-injected larvae. Our work highlights the role of the beetle’s intestinal bacteria in the production of the cyanoglucoside amygdalin and its derived metabolites, including mandelonitrile and HCN, which protect the insect from predation.

Published

2024

49. Multimodal single cell-resolved spatial proteomics reveal pancreatic tumor heterogeneity

Author

Yanfen Xu, Xi Wang, Yuan Li, Yiheng Mao, Yiran Su, Yize Mao, Yun Yang, Weina Gao, Changying Fu, Wendong Chen, Xueting Ye, Fuchao Liang, Panzhu Bai, Ying Sun, Shengping Li, Ruilian Xu, and Ruijun Tian

Subjects

Science

Abstract

Abstract Despite the advances in antibody-guided cell typing and mass spectrometry-based proteomics, their integration is hindered by challenges for processing rare cells in the heterogeneous tissue context. Here, we introduce Spatial and Cell-type Proteomics (SCPro), which combines multiplexed imaging and flow cytometry with ion exchange-based protein aggregation capture technology to characterize spatial proteome heterogeneity with single-cell resolution. The SCPro is employed to explore the pancreatic tumor microenvironment and reveals the spatial alternations of over 5000 proteins by automatically dissecting up to 100 single cells guided by multi-color imaging of centimeter-scale formalin-fixed, paraffin-embedded tissue slide. To enhance cell-type resolution, we characterize the proteome of 14 different cell types by sorting up to 1000 cells from the same tumor, which allows us to deconvolute the spatial distribution of immune cell subtypes and leads to the discovery of subtypes of regulatory T cells. Together, the SCPro provides a multimodal spatial proteomics approach for profiling tissue proteome heterogeneity.

Published

2024

50. Integrable utilization of intermittent sunlight and residual heat for on-demand CO2 conversion with water

Author

Xianjin Shi, Wei Peng, Yu Huang, Chao Gao, Yiman Fu, Zhenyu Wang, Leting Yang, Zixuan Zhu, Junji Cao, Fei Rao, Gangqiang Zhu, Shuncheng Lee, and Yujie Xiong

Subjects

Science

Abstract

Abstract Abundant residual heat from industrial emissions may provide energy resource for CO2 conversion, which relies on H2 gas and cannot be accomplished at low temperatures. Here, we report an approach to store electrons and hydrogen atoms in catalysts using sunlight and water, which can be released for CO2 reduction in dark at relatively low temperatures (150−300 °C), enabling on-demand CO2 conversion. As a proof of concept, a model catalyst is developed by loading single Cu sites on hexagonal tungsten trioxide (Cu/WO3). Under light illumination, hydrogen atoms are generated through photocatalytic water splitting and stored together with electrons in Cu/WO3, forming a metastable intermediate (Cu/HxWO3). Subsequent activation of Cu/HxWO3 through low-temperature heating releases the stored electrons and hydrogen atoms, reducing CO2 into valuable products. Furthermore, we demonstrate the practical feasibility of utilizing natural sunlight to drive the process, opening an avenue for harnessing intermittent solar energy for CO2 utilization.

Published

2024