Your search keyword '"Zhao Jie"' showing total 816 results

1. Efficient and Thermally Stable Cr3+‐Doped Phosphor Achieved by Cation Substitution: Plant Lighting Application.

Author

Dai, Xiangyi, Zou, Xikun, Wei, Mingkai, Zhang, Xuejie, Dong, Bin, Li, Xinming, Cong, Yan, Li, Dongyu, Zhao, Jie, Molokeev, Maxim S., and Lei, Bingfu

Abstract

Far‐red phosphor‐converted light‐emitting diodes are receiving increasing attention as an essential component of the next‐generation plant‐growth lights. However, developing far‐red phosphors with high quantum efficiency, low thermal quenching, and suitable emitting wavelength is crucial and urgent. Herein, a new far‐red phosphor BaY2Ga3.9GeO12:0.1Cr3+ with high internal quantum efficiency (98%) and thermal stability (90.2%@423K) is obtained via the substitution of CaO8 with bigger BaO8 dodecahedrons, which is attributed to variations in the lattice environment of Cr3+. Meanwhile, controllable emission tuning from 780 to 708 nm and enhanced luminescence performance are achieved due to the cation substitution can reduce the production of Cr4+ and modulate the lattice occupancy of the Cr3+ ions, and the enhancement of metal‐ligand interactions resulting in the enhancement of the crystal field and the breaking of the forbidden d‐d transition of Cr3+. The proof‐of‐concept demonstration of the pakchoi lighting experiment reveals the great potential of BaY2Ga3.9GeO12:Cr3+ phosphor in stimulating plant growth and pushing the yield. These results demonstrate the feasibility of cationic substitution to optimize the optical performance of Cr3+‐doped phosphors, providing an alternative strategy for designing efficient far‐red light sources for plant lighting. [ABSTRACT FROM AUTHOR]

Published

2024

2. Advanced High‐Throughput Rational Design of Porphyrin‐Sensitized Solar Cells Using Interpretable Machine Learning.

Author

Liao, Jian‐Ming, Chen, Yu‐Hsuan, Lee, Hsuan‐Wei, Guo, Bo‐Cheng, Su, Po‐Cheng, Wang, Lun‐Hong, Reddy, Nagannagari Masi, Yella, Aswani, Zhang, Zhao‐Jie, Chang, Chuan‐Yung, Chen, Chia‐Yuan, Zakeeruddin, Shaik M, Tsai, Hui‐Hsu Gavin, Yeh, Chen‐Yu, and Grätzel, Michael

Abstract

Accurately predicting the power conversion efficiency (PCE) in dye‐sensitized solar cells (DSSCs) represents a crucial challenge, one that is pivotal for the high throughput rational design and screening of promising dye sensitizers. This study presents precise, predictive, and interpretable machine learning (ML) models specifically designed for Zn‐porphyrin‐sensitized solar cells. The model leverages theoretically computable, effective, and reusable molecular descriptors (MDs) to address this challenge. The models achieve excellent performance on a "blind test" of 17 newly designed cells, with a mean absolute error (MAE) of 1.02%. Notably, 10 dyes are predicted within a 1% error margin. These results validate the ML models and their importance in exploring uncharted chemical spaces of Zn‐porphyrins. SHAP analysis identifies crucial MDs that align well with experimental observations, providing valuable chemical guidelines for the rational design of dyes in DSSCs. These predictive ML models enable efficient in silico screening, significantly reducing analysis time for photovoltaic cells. Promising Zn‐porphyrin‐based dyes with exceptional PCE are identified, facilitating high‐throughput virtual screening. The prediction tool is publicly accessible at https://ai‐meta.chem.ncu.edu.tw/dsc‐meta. [ABSTRACT FROM AUTHOR]

Published

2024

3. Research on the control of thrust vectoring turbojet aircraft with uncertainties and input saturation based on fixed‐time control.

Author

Liu, Benshan, Gao, Yongsheng, Gao, Liang, Zhang, Junming, Zhu, Yanhe, and Zhao, Jie

Subjects

SLIDING mode control, PARTICLE swarm optimization, TURBOJET engines, SYSTEM dynamics, ERROR rates

Abstract

One‐dimensional thrust vectoring turbojet vertical takeoff and landing (VTOL) aircraft have attracted research attention due to their high thrust‐to‐weight ratios and their solution for the slow speed response of turbojet engines. However, there are some uncertainties and physical limitations in their systems, such as external disturbances, unknown parameters and input saturation. To improve the accuracy and convergence speed of trajectory tracking, a fixed‐time control method that is robust to saturation is proposed. The system dynamics are established, and an auxiliary system is built within a fixed time control framework to address the influence of input saturation and increase the error convergence rate. Nonsingular fast terminal sliding mode technology is combined with a few adaptive laws to ensure the robustness of the closed‐loop system against dynamic uncertainties and improve the precision of steady‐state control. The stability of the control system is proven based on Lyapunov, and the controller parameters are optimized based on particle swarm optimization (PSO). The proposed method based on fixed‐time stability guarantees that the states of the closed‐loop system can reach the residual set around zero within the designed time, and an expression for the upper bound on the convergence time is given. Finally, numerical simulations demonstrate the superiority of the proposed method based on the error integral criterion. [ABSTRACT FROM AUTHOR]

Published

2024

4. A hybrid, nonlinear programming approach for optimizing passive shimming in MRI.

Author

Zhao, Jie, Zhu, Minhua, Xia, Ling, Fan, Yifeng, and Liu, Feng

Subjects

*MAGNETIC particle imaging, *PARTICLE swarm optimization, *MAGNETIC resonance imaging, *LINEAR programming, *NONLINEAR programming, *QUADRATIC programming

Abstract

Background: In magnetic resonance imaging (MRI), maintaining a highly uniform main magnetic field (B0) is essential for producing detailed images of human anatomy. Passive shimming (PS) is a technique used to enhance B0 uniformity by strategically arranging shimming iron pieces inside the magnet bore. Traditionally, PS optimization has been implemented using linear programming (LP), posing challenges in balancing field quality with the quantity of iron used for shimming. Purpose: In this work, we aimed to improve the efficacy of passive shimming that has the advantages of balancing field quality, iron usage, and harmonics in an optimal manner and leads to a smoother field profile. Methods: This study introduces a hybrid algorithm that combines particle swarm optimization with sequential quadratic programming (PSO‐SQP) to enhance shimming performance. Additionally, a regularization method is employed to reduce the iron pieces' weight effectively. Results: The simulation study demonstrated that the magnetic field was improved from 462 to 3.6 ppm, utilizing merely 1.2 kg of iron in a 40 cm diameter spherical volume (DSV) of a 7T MRI magnet. Compared to traditional optimization techniques, this method notably enhanced magnetic field uniformity by 96.7% and reduced the iron weight requirement by 81.8%. Conclusion: The results indicated that the proposed method is expected to be effective for passive shimming. [ABSTRACT FROM AUTHOR]

Published

2024

5. Metastasis‐associated protein 1 participates in regulating luminal acidification of the epididymis via repressing estrogen receptor alpha transcription.

Author

Cheng, Pang, Wei, Jinhua, Liu, Bo, Zhao, Ya, Ma, Binfang, Feng, Xiao, Xiong, Mingxiang, Zhao, Jie, Shi, Changhong, and Li, Zhen

Subjects

MALE reproductive organs, ESTROGEN receptors, GENETIC transcription, KNOCKOUT mice, EPIDIDYMIS

Abstract

Background: As a component of the nucleosome remodeling and deacetylating (NuRD) complex, metastasis‐associated protein 1 (MTA1) has been reported to be abundant in male reproductive system and might participate in spermatogenesis and sperm maturation, whereas the precise functional role of MTA1 in these processes is still undetermined. Objective: To investigate the effect and potential function of MTA1 in male fertility. Materials and methods: Mta1 knockout mice (Mta1−/−) were employed to detect their reproductive phenotype. The pH value of Mta1−/− epididymal luminal fluid was measured, and the potential mechanism of MTA1 involved in regulating luminal acidification was detected in vivo and in vitro. A vasectomy model with abnormal pH of epididymal lumen was established to further detect the effect of MTA1 on epididymal luminal microenvironment. Results: Mta1−/− mice were fertile without any detectable defects in spermatogenesis or sperm motility while the deficiency of MTA1 could acidify the initial segment of epididymis to a certain extent. MTA1 could interact with estrogen receptor alpha (ERα) and inhibit the transcription of ERα target gene, hydrogen exchanger 3 (NHE3), and ultimately affect the epididymal luminal milieu. After vasectomy, the Mta1−/− mice presented a more acidic epididymal lumen which was closer to the normal state compared to the wild‐type model. Discussion and conclusion: MTA1 is dispensable for male fertility in mice, but plays a potentially important function in regulating luminal acidification of the epididymis. [ABSTRACT FROM AUTHOR]

Published

2024

6. Mutual communication intervention for colorectal cancer patient–spousal caregiver dyads: A randomized controlled trial.

Author

Zhou, Junrui, Wang, Zhiming, Chen, Xuan, Lin, Chunyan, Zhao, Jie, Loke, Alice Yuen, and Li, Qiuping

Subjects

MEDICAL personnel, QUALITY of life, CLINICAL trials, COLORECTAL cancer, RANDOMIZED controlled trials, DYADIC communication

Abstract

Objective: Gender could impact the psychosocial outcomes and coping strategies of cancer patients and their spousal caregivers (SCs). This study aims to develop a gender‐concerned program for colorectal cancer (CRC) couple‐based mutual communication intervention (MCI) and to assess its effectiveness on the intra‐couple relationship and the individual functions of the partners. Design: A randomized clinical trial with two study groups was utilized. Methods: A total of 144 CRC patients and their SCs were randomly assigned to either MCI or usual care (UC) groups, and all of them were required to complete the measurements at baseline and post‐intervention. The primary outcome was for mutual communication, and the secondary outcomes included dyadic coping, relationship satisfaction, anxiety, depression, benefit finding and quality of life. The data were analysed by multi‐level modelling. Results: The MCI program was feasible and acceptable for Chinese CRC couples and was effective for the improvement of the intra‐couple relationship and the individual functions of each partner. CRC patients showed more improvement in mutual communication and dyadic coping than their SCs in the MCI group. Also, this intervention effectiveness was found to be independent of gender. Conclusions: The MCI program is beneficial for Chinese CRC couple's adaptation outcomes. This suggests that clinical medical staff should consider the gender tendency during the implementation of interventions. More researches are needed to extend the application of the MCI program to different participants (e.g. patients with the diagnosis of other types of cancer and their SCs). [ABSTRACT FROM AUTHOR]

Published

2024

7. Cluster analysis of social isolation in gynecologic cancer patients: A cross‐sectional survey.

Author

Zhang, Wenjia, Zhan, Liuyan, Huang, Jie, Zhao, Jie, and Wei, Siqi

Published

2024

8. A Bio‐Inspired Janus Patch for Treating Abdominal Wall Defects.

Author

Liu, Ziting, Liu, Jiahui, Bai, Yutong, Wu, Shuilin, Zhao, Jie, and Ren, Luquan

Subjects

TISSUE adhesions, SURGICAL complications, CELL adhesion, CYTOCOMPATIBILITY, CICADAS, ABDOMINAL wall, ZWITTERIONS

Abstract

Implantable biomedical patch used in treating abdominal wall defects requires antibacterial, anti‐adhesion, and pro‐healing activities to ensure surgical success and prevent postsurgical complications. However, it often encounters challenges in fulfilling these three critical properties simultaneously, as these processes can always be contradictory during treatment. Herein, to break the barriers between bactericidal activity and cytocompatibility, cell adhesion and anti‐adhesion, a bio‐inspired patch with an asymmetric Janus structure is developed. This bio‐inspired Janus patch features cicada wing‐inspired nanostructures on its top surface, enabling both mechano–bactericidal effects and promotion of fibroblast adhesion and proliferation, which stems from its inherent "selective biocidal activity" toward bacteria and mammalian cells. Subsequently, a poly‐zwitterion layer with robust nonfouling properties is grafted on the bottom surface, realizing cell adhesion and anti‐adhesion on two sides of the same patch. Compared to the commercially available polypropylene (PP) meshes, the top surface of the Janus patch, which faces the abdominal wall, demonstrates superior capabilities in preventing postoperative infection and promoting tissue repair. Simultaneously, the other side facing the viscera efficiently prevents any visceral tissue adhesion. With these prominent performances, the bio‐inspired Janus patch presents a pioneering strategy for designing next‐generation patches to treat abdominal wall defects. [ABSTRACT FROM AUTHOR]

Published

2024

9. A Shared Control Method for Teleoperated Robot Using Artificial Potential Field.

Author

Qin, Wenlei, Zhang, He, Fan, Zhibin, Zhu, Yanhe, and Zhao, Jie

Subjects

ROBOT control systems, RETINAL surgery, OPHTHALMIC surgery, TELEROBOTICS, ROBOTS

Abstract

Retinal surgery requires enclosed spatial constraints to improve the safety and success of the surgery. Herein, a shared control method is proposed for master–slave robot systems, utilizing tubular guidance constraints based on a novel potential field function to optimize the commands of the surgeon. Within the tube, attractive constraints intensify with increasing task error and approach infinity at the boundary of the tube. This ensures that the surgery is confined within a closed tubular space. Haptic feedback provides force cues to inform the surgeon about the feasibility of the input commands. Theoretical derivations demonstrate that the entire closed‐loop system is passive. Two simulation experiments are conducted on the ophthalmic surgery robot platform to evaluate the functionality of the proposed method. The experimental results indicate that translational errors are kept less than certain predefined values. Furthermore, the proposed method outperforms the comparison method in terms of task accuracy and efficiency. [ABSTRACT FROM AUTHOR]

Published

2024

10. Composite electrolytes and interface designs for progressive solid‐state sodium batteries.

Author

Hou, Junyu, Zhu, Tianke, Wang, Gang, Cheacharoen, Rongrong, Sun, Wu, Lei, Xingyu, Yuan, Qunyao, Sun, Dalin, and Zhao, Jie

Subjects

ENERGY storage, IONIC conductivity, ALTERNATIVE fuels, RAW materials, ELECTROLYTES

Abstract

Solid‐state sodium batteries (SSSBs) are poised to replace lithium‐ion batteries as viable alternatives for energy storage systems owing to their high safety and reliability, abundance of raw material, and low costs. However, as the core constituent of SSSBs, solid‐state electrolytes (SSEs) with low ionic conductivities at room temperature (RT) and unstable interfaces with electrodes hinder the development of SSSBs. Recently, composite SSEs (CSSEs), which inherit the desirable properties of two phases, high RT ionic conductivity, and high interfacial stability, have emerged as viable alternatives; however, their governing mechanism remains unclear. In this review, we summarize the recent research progress of CSSEs, classified into inorganic–inorganic, polymer–polymer, and inorganic–polymer types, and discuss their structure–property relationship in detail. Moreover, the CSSE–electrode interface issues and effective strategies to promote intimate and stable interfaces are summarized. Finally, the trends in the design of CSSEs and CSSE–electrode interfaces are presented, along with the future development prospects of high‐performance SSSBs. [ABSTRACT FROM AUTHOR]

Published

2024

11. Amorphous FeSnOx Nanosheets with Hierarchical Vacancies for Room‐Temperature Sodium‐Sulfur Batteries.

Author

Sun, Wu, Hou, Junyu, Zhou, Yunlei, Zhu, Tianke, Yuan, Qunyao, Wang, Shaolei, Manshaii, Farid, Song, Changsheng, Lei, Xingyu, Wu, Xiaoyan, Kim, Hern, Yu, Yi, Xiao, Chuanxiao, Zhang, Hongjun, Song, Yun, Sun, Dalin, Jia, Binbin, Zhou, Guangmin, and Zhao, Jie

Subjects

SODIUM-sulfur batteries, CRYSTALLINE interfaces, ELECTRIC power distribution grids, DENDRITIC crystals, GLASS fibers, LITHIUM sulfur batteries

Abstract

Room‐temperature sodium‐sulfur (RT Na−S) batteries, noted for their low material costs and high energy density, are emerging as a promising alternative to lithium‐ion batteries (LIBs) in various applications including power grids and standalone renewable energy systems. These batteries are commonly assembled with glass fiber membranes, which face significant challenges like the dissolution of polysulfides, sluggish sulfur conversion kinetics, and the growth of Na dendrites. Here, we develop an amorphous two‐dimensional (2D) iron tin oxide (A‐FeSnOx) nanosheet with hierarchical vacancies, including abundant oxygen vacancies (Ovs) and nano‐sized perforations, that can be assembled into a multifunctional layer overlaying commercial separators for RT Na−S batteries. The Ovs offer strong adsorption and abundant catalytic sites for polysulfides, while the defect concentration is finely tuned to elucidate the polysulfides conversion mechanisms. The nano‐sized perforations aid in regulating Na ions transport, resulting in uniform Na deposition. Moreover, the strategic addition of trace amounts of Ti3C2 (MXene) forms an amorphous/crystalline (A/C) interface that significantly improves the mechanical properties of the separator and suppresses dendrite growth. As a result, the task‐specific layer achieves ultra‐light (~0.1 mg cm−2), ultra‐thin (~200 nm), and ultra‐robust (modulus=4.9 GPa) characteristics. Consequently, the RT Na−S battery maintained a high capacity of 610.3 mAh g−1 and an average Coulombic efficiency of 99.9 % after 400 cycles at 0.5 C. [ABSTRACT FROM AUTHOR]

Published

2024

12. Study on the structure and γ‐ray shielding performance of polypropylene/PbO composites with heterogeneous networks.

Author

Tian, Bo, Zhao, Jie, Zhou, Na, Li, Jinfeng, Fan, Jizhuang, Du, Yunchen, and Zhao, Hongtao

Subjects

*RADIATION shielding, *ATOMIC number, *THERMAL stability, *DISPERSION (Chemistry), *MELTING

Abstract

Polymer‐based radiation shielding materials are receiving more and more interests due to their desirable advantages in lightweight and maneuverability. Herein, we employ polypropylene (PP) as the matrix to construct γ‐ray shielding composites through the embedment of PbO particles with a wet reaction melt blending method. From the changes in dynamic rheological behaviors and fracture surface of PP/PbO composite, it can be found that the gradient addition of PbO particles facilitates the formation of heterogeneous network structure with, and high PbO content may make the composites undergo a “liquid–solid” transition. Rheological temperature and time scanning show that both PbO content and heterogeneous network structure greatly contribute to the storage modulus (G') and thermal stability. The γ‐ray (137Cs) shielding tests manifest that BPP/PbO‐4 has the best shielding performance, whose thicknesses of half value layer (HVL) and tenth value layer (TVL) are 0.32 and 1.05 cm, respectively, obviously smaller than those shielding materials ever reported. The analyses on effective atomic number (Zeff) and effective electron density (NE) reveal that the good shielding performance of BPP/PbO‐4 benefits from its proper content and dispersion of PbO particles. [ABSTRACT FROM AUTHOR]

Published

2024

13. Anion‐Regulated Ionic Covalent Organic Frameworks for Highly Selective Recovery of Gold from E‐Waste.

Author

Zhao, Jie, Qiao, Zelong, He, Yuncheng, Zhang, Rui, Li, Han, Song, Xuezhen, Cao, Dapeng, and Wang, Shitao

Subjects

*COUNTER-ions, *CHEMICAL industry, *CHEMICAL potential, *ANIONS, *GOLD, *ELECTRONIC waste

Abstract

The existing electronic waste (e‐waste) and leaching solutions generated by industries accumulate significant amounts of gold (Au), even in excess of those in natural minerals. Therefore, the recycling of Au is extremely significant for the potential sustainability of chemical industry. By designing ionic covalent organic frameworks (COFs), here we synthesize a series of Ionic‐COF‐X (X=Cl−, Br−, AcO−, and SO42−) by anion regulation strategy and further explore their adsorption performance towards Au recovery. All these ionic COFs exhibit ultrahigh gold adsorption efficiency and excellent regeneration. Moreover, anion regulation could indeed affect the Au capture performance. In particular, when Cl− ions serve as counter ions, the Au capacity of Ionic‐COF‐Cl could reach 1270.8 mg g−1. Moreover, in the actual CPU leaching solution test, the selectivity of Ionic‐COF‐Cl towards Au3+ ion hits 39000 and 4600 times higher than that of Cu2+ and Ni2+ ions, respectively, suggesting that the Ionic‐COF‐Cl is a promising material for highly selective recovering gold from actual e‐waste. DFT calculations further reveal that counter ions can regulate the adsorption affinity of ionic COF framework toward Au. In short, this work provides a useful anion regulation strategy to design ionic COFs as a promising platform for gold selective recovery from actual e‐waste. [ABSTRACT FROM AUTHOR]

Published

2024

14. Synthesis of Deoxy Pyranosides Via Fe(III) Catalyzed Regioselective Thiocarbonylation of Partially Protected Carbohydrates.

Author

Zhao, Jie, Zhang, Xiaorui, Yang, Qichang, Wang, Haifeng, Gu, Shuang‐Xi, Yan, Qiongjiao, Lv, Jian, and Chen, Fen‐Er

Subjects

*IRON chlorides, *DEOXYGENATION, *GLYCOSIDES, *CATALYSIS, *CARBOHYDRATES

Abstract

Rapid and efficient synthesis of targeted deoxygenated glycosides is highly desired. Herein, we disclose a two‐step procedure for the synthesis of deoxysugars from partially protected pyranosides via site‐selective thiocarbonylation followed by tin‐free Barton–McCombie deoxygenation. The selectivity can be smoothly achieved through anhydrous FeCl3 as the catalyst assisted by low‐priced benzoyltrifluoroacetonate (Hbtfa) ligand in the presence of K2CO3 as base. Further deoxygenation can be carried out using greener silicon reagent, avoiding highly toxic organotin reagents in traditional procedures. Conspicuous features of this method include mild conditions, easy operation, high selectivity and non or low toxic reagents, making it a more attractive strategy. [ABSTRACT FROM AUTHOR]

Published

2024

15. Global, regional, and national burdens of leukemia from 1990 to 2019: A systematic analysis of the global burden of disease in 2019 based on the APC model.

Author

Qu, Xiang, Zheng, Anjie, Yang, Jie, Zhang, Jinru, Qiao, Hongmei, Jiang, Fan, Zhao, Jie, Wang, Chunping, and Ning, Peng

Subjects

GLOBAL burden of disease, OCCUPATIONAL exposure, LEUKEMIA, COHORT analysis, ETIOLOGY of cancer

Abstract

Background: Leukemia is the tenth most common cause of cancer death worldwide and one of the most important causes of disability. To understand the current status and changing trends of the disease burden of leukemia at the global, regional, and national levels, and to provide a scientific basis for the development of leukemia prevention and treatment strategies. Methods: Based on open data from the Global Burden of Disease Study 2019 (GBD 2019), R software was used to calculate estimated annual percentage changes to estimate trends in the age‐standardized incidence (ASIR) and the age‐standardized disability‐adjusted life years (DALY) rate due to leukemia and its major subtypes from 1990 to 2019. Results: In 2019, globally, the number of incidences and DALYs of leukemia were 643.6 × 103 (587.0 × 103, 699.7 × 103) and 11,657.5 × 103 (10529.1 × 103, 12700.7 × 103), respectively. The ASIR (estimated annual percentage change (EAPC) = −0.37, 95%UI −0.46 to −0.28) and the age‐standardized DALY rate (EAPC = −1.72, 95%UI −1.80 to −1.65) of leukemia showed a decreasing trend from 1990 to 2019. The APC model analysis showed that the age effect of leukemia risk was a "U"‐shaped distribution of relative risk (RR) with increasing age from 1990 to 2019, globally. The time effect was an increase in incidence rate with increasing years but a decrease in DALY rate with increasing years. The cohort effects of both incidence and DALY rates tended to increase and then decrease with the development of the birth cohort. In 1990 and 2019, smoking, high body‐mass index, occupational exposure to benzene, and occupational exposure to formaldehyde were risk factors for DALY in leukemia, especially in areas with high SDI. Conclusions: From 1990 to 2019, the disease burden of leukemia showed a decreasing trend, but it is worth noting that its overall severity is still very high. The disease burden of leukemia varies greatly from region to region, and exclusive strategies for the prevention and treatment of leukemia should be developed according to the economic and cultural development of each region. [ABSTRACT FROM AUTHOR]

Published

2024

16. Conversion of lipids into carbohydrates rescues energy insufficiency in rapeseed germination under waterlogging stress.

Author

Yang, Haiyun, Bai, Chenyang, Ai, Xueying, Yu, Haiqiu, Xu, Zhenghua, Wang, Jing, Kuai, Jie, Zhao, Jie, Wang, Bo, and Zhou, Guangsheng

Subjects

PHYSIOLOGY, WATERLOGGING (Soils), CARBOHYDRATE metabolism, PLANT development, LIPID metabolism, GERMINATION

Abstract

Waterlogging stress, particularly during seed germination, significantly affects plant growth and development. However, the physiological and molecular mechanisms underlying waterlogging stress responses during rapeseed germination remain unclear. In this study, two rapeseed cultivars, Xiangzayou518 (waterlogging‐sensitive) and Dadi199 (waterlogging‐tolerant), were used to explore the physiological mechanisms underlying rapeseed response to waterlogging stress during germination. Our results showed that waterlogging significantly decreased the emergence percentage and seedling growth rate. During the radicle elongation period (from 48 to 96 h post‐germination), the most sensitive period to waterlogging during germination, sugar content, and glycolysis efficiency were significantly decreased, but anaerobic fermentation was enhanced. In tolerant cultivars, when the energy supply was insufficient, the conversion efficiency of lipids into sugar increased, and the activities of isocitrate lyase, malate synthase, and fructose‐1, 6‐diphosphatase were enhanced by 11.63, 19.06, and 20.37%, respectively, at 72 h post‐germination under waterlogging stress. Transcriptome data showed that the differentially expressed genes were significantly enriched in glucose and lipid metabolism pathways when comparing waterlogged stress and normal conditions. These results indicate that waterlogging affects seed germination in rapeseed by inhibiting carbohydrate metabolism, and the conversion capacity of lipids into sugar under waterlogging stress was stronger in tolerant cultivars than in sensitive cultivars, thus rescuing the insufficient energy supply in seed germination and seedling growth. This study reveals the physiological mechanism of rapeseed response to waterlogging stress during seed germination and provides a valuable reference for improving waterlogging tolerance. [ABSTRACT FROM AUTHOR]

Published

2024

17. Measuring the Impact of Postsimultaneous Pancreas–Kidney Transplantation Complications: Comparing the Comprehensive Complication Index and Clavien–Dindo Classification.

Author

Nian, Yeqi, Hu, Lu, Cao, Yu, Wang, Zhen, Wang, Hui, Feng, Gang, Zhao, Jie, Zheng, Jianming, and Song, Wenli

Subjects

TYPE 2 diabetes, DIABETES complications, SURGICAL complications, REGRESSION analysis, RANK correlation (Statistics)

Abstract

Introduction: The Clavien–Dindo classification (CDC) is commonly used for assessing postoperative complications; however, it may not be comprehensive. A comprehensive complication index (CCI) was introduced to address this limitation. This study aimed to compare the effectiveness of the CCI and CDC in evaluating the complications after simultaneous pancreas–kidney (SPK) transplantation. Methods: Data were collected from patients who underwent SPK transplantation at our center between February 2018 and February 2021. Complications encountered during hospitalization were assessed using both the CDC and CCI. Linear regression analyses were performed to identify the factors related to postoperative length of stay (PLOS). Results: Overall, 125 patients were included, with an average age of 46.87 years. Type 2 diabetes was present in 79% of the recipients. Among them, 117 patients experienced postoperative complications of CDC grades I (2.4%), II (57.6%), IIIa (8.0%), IIIb (9.6%), IVa (14.4%), IVb (0.8%), and V (0.8%) postoperative complications. The median CCI for the entire cohort was 37.2. Spearman's correlation analysis revealed significant associations between the CDC and PLOS and the CCI and PLOS. Notably, CCI exhibited a stronger correlation with PLOS (CCI: ρ = 0.698 vs. CDC: ρ = 0.524; p = 0.024). Conclusion: The CCI demonstrated a stronger correlation with PLOS than CDC. Our finding suggests that the CCI may be a useful tool for comprehensively assessing complications following SPK transplantation. [ABSTRACT FROM AUTHOR]

Published

2024

18. Digital light processing‐based additive manufacturing of orientation‐controlled Al2O3 ceramics with improved damage tolerance.

Author

Wang, Yang, Han, Zhuoqun, Zhou, Qingxuan, Han, Yongning, Bi, Lunan, Zhang, Xia, Lu, Xiang, Zhao, Jie, Chu, Wei, Li, Jian, Zhao, Zhicheng, Wang, Yingying, Li, Ling, and Liu, Futian

Abstract

Digital light processing (DLP) provides a promising avenue for constructing ceramic parts with high precision and complex shapes, yet the inherent brittleness and strength‐toughness trade‐off hinder their wide applications. Here, according to DLP 3D printing, the textured alumina ceramic components with horizontally aligned textured microstructure were successfully created by adding anisotropically shaped platelets. As a critical process in the preparation of textured ceramics, the alumina platelets were aligned horizontally during printing by using the special shear fields and forming capabilities of DLP technology. The shrinkage, density, microstructure, mechanical performance, and damage‐tolerance behavior of alumina parts with different platelet concentrations were examined, and the toughening mechanisms were investigated. The strength and toughness of ceramics with 5 vol.% platelet addition are increased by 22% and 43%, respectively, as compared with those without platelets. The improved damage tolerance capabilities were primarily ascribed to the collaborative toughening mechanisms stimulated by the platelet addition, including crack branching, crack deflection, uncracked‐ligament bridging, and platelet pull‐out, which increased the crack tortuosity and consumed more fracture energy. The strategy opens up new opportunities to design complex 3D ceramic geometries with bio‐inspired layered or textured architectures, providing optimized damage tolerance. [ABSTRACT FROM AUTHOR]

Published

2024

19. p38MAPK/HSPB1 is involved in the regulatory effects of selenomethionine on the apoptosis, viability and testosterone secretion of sheep Leydig cells exposed to heat.

Author

Xu, Yinying, Xia, Yuting, Zhao, Jie, Yu, Hao, Zhang, Yanli, and Mao, Dagan

Subjects

LEYDIG cells, CELL survival, SELENOMETHIONINE, TESTOSTERONE, SECRETION

Abstract

Testosterone derived from testicular Leydig cells (LCs) is important for male sheep, and the testis is susceptible to external temperature. The present study aimed to explore the alleviating effect of selenomethionine (Se‐Met) on heat‐induced injury in Hu sheep LCs. Isolated LCs were exposed to heat (41.5°C, heat exposure, HE) or not (37°C, nonheat exposure, NE), and cells in NE and HE were treated with 0 (C) or 8 μmol/L (S) Se‐Met for 6 h. Cell viability, testosterone level, and the expression of GPX1, HSD3B, apoptosis‐related genes and p38 mitogen‐activated protein kinase (p38MAPK)/heat shock protein beta‐1 (HSPB1) pathway were examined. The results showed that Se‐Met increased GPX1 expression (NE‐S vs. NE‐C: 2.28‐fold; HE‐S vs. HE‐C: 2.36‐fold, p < 0.05) and alleviated heat‐induced decrease in cell viability (HE‐S vs. HE‐C: 1.41‐fold; HE‐C vs. NE‐C: 0.61‐fold, p < 0.01), although the viability was still lower than that in the NE‐C cells (HE‐S vs. NE‐C: 0.85‐fold) and Se‐Met‐treated cells (HE‐S vs. NE‐S: 0.81‐fold). Se‐Met relieved heat‐induced decrease in testosterone level (HE‐S vs. HE‐C: 1.84‐fold, p < 0.05) and HSD3B expression (HE‐S vs. HE‐C: 1.67‐fold, p < 0.05). Se‐Met alleviated heat‐induced increase in Bcl2‐associated protein X (BAX) expression (HE‐C vs. HE‐S: 2.4‐fold, p < 0.05), and decrease in B‐cell lymphoma‐2 (BCL2) expression (HE‐S vs. HE‐C: 2.62‐fold, p < 0.05), resulting in increased BCL2/BAX ratio in the HE‐S cells (HE‐S vs. HE‐C: 5.24‐fold, p < 0.05). Furthermore, Se‐Met alleviated heat‐induced activation of p‐p38MAPK/p38MAPK (HE‐C vs. HE‐S: 1.79‐fold, p < 0.05) and p‐HSPB1/HSPB1 (HE‐C vs. HE‐S: 2.72‐fold, p < 0.05). In conclusion, p38MAPK/HSPB1 might be involved in Se‐Met‐mediated alleviation of heat‐induced cell apoptosis, cell viability and testosterone secretion impairments in sheep LCs. [ABSTRACT FROM AUTHOR]

Published

2024

20. Nature‐Inspired Strategy: Novel Borohydride‐Based Solid Electrolytes Extracted from Cathode‐Electrolyte Interphase.

Author

Yin, Yuhang, Yan, Fei, Li, Shuyang, Chen, Yufan, Guo, Dingcheng, Zhao, Jie, Sun, Dalin, Fang, Fang, and Song, Yun

Published

2024

21. Garnet and Li29Zr9Nb3O40 Modified PEO‐Based Hybrid Solid Electrolytes for All‐Solid‐State Lithium Metal Batteries.

Author

Liu, Qing, Lin, Haiqin, Zhao, Jie, Zhou, Bingxue, Zhang, Yudong, Cui, Can, Shen, Jiangwei, Dai, Weiji, Zhao, Cuijiao, and Huang, Saifang

Subjects

IONIC conductivity, SOLID electrolytes, POLYETHYLENE oxide, LITHIUM cells, LITHIUM-ion batteries, SUPERIONIC conductors

Abstract

Inorganic‐organic hybrid solid electrolytes (HSEs) are an important category of electrolyte materials for solid‐state batterie. It is of interest and importance to investigate the influence of composition and content of inorganic fillers on the electrochemical performance of HSEs. In this paper, we fabricated HSEs using polyethylene oxide (PEO) as matrix and incorporating different inorganic powders as active fillers. A series of HSEs with different contents of Ga/Nb co‐substituted garnet oxide (Li6.35Ga0.15La3Zr1.8Nb0.2O12, GN‐LLZO) and Y‐doped Li29Zr9Nb3O40 (Li29.3Zr8.7Y0.3Nb3O40, 0.3Y‐LZNO) were carefully designed. The ionic conductivity of these PEO‐based HSEs were studied, and their performance in solid‐state lithium‐ion batteries with LiFePO4 (LFP) as cathode material and Li metal as anode were evaluated. The results showed that the HSE with addition content of inorganic powders, namely PEOLiTFSI@5 % GN‐LLZO +5 %0.3Y‐LZNO (noted as PL3) showed the optimized ionic conductivity of 2.9×10−4 S cm−1 at room temperature with an activation energy Ea of 0.21 eV. It has an electrochemical stability window of 4.65 V and ionic transfer number of 0.242. The addition of inorganic powders not only enhanced the ionic conductivities of PEO‐based HSEs, but also exhibited superior stability and interfacial compatibility with electrodes, leading to the improved cycle stability in the LFP/PL3/Li solid‐state battery configuration. [ABSTRACT FROM AUTHOR]

Published

2024

22. Neural network‐based integrated reactive power optimization study for power grids containing large‐scale wind power.

Author

Zhao, Jie, Wang, Chenhao, Zhao, Biao, Du, Xiao, Zhang, Huaixun, and Shang, Lei

Subjects

*PARTICLE swarm optimization, *RENEWABLE energy sources, *OPTIMIZATION algorithms, *REACTIVE power control, *ELECTRIC power distribution grids, *REACTIVE power, *WIND power

Abstract

The high uncertainty of wind power output greatly affects the rapid reactive power optimization of power systems. This paper proposes a neural network‐based comprehensive reactive power optimization method for large‐scale wind power grids, effectively addressing the challenges of rapid reactive power optimization in power systems. Firstly, by constructing typical wind‐power‐load scenarios, the generalization ability of the neural network is improved. Then, focusing on the comprehensive reactive power optimization problem after integrating typical wind‐power‐load scenarios into the system, the improved Harris hawks optimization algorithm (HHO) is compared with the particle swarm optimization algorithm and traditional HHO algorithm, highlighting its advantages. Finally, HHO is utilized for solving, thereby constructing a comprehensive reactive power optimization strategy tag set. Furthermore, through deep fitting of the neural network between the power grid operating state and the comprehensive reactive power optimization strategy, the computational complexity and decision‐making time of reactive power optimization are reduced. [ABSTRACT FROM AUTHOR]

Published

2024

23. Feature‐based molecular networking with MS2LDA to profile compounds in Lanbuzheng based on ultra‐high‐performance liquid chromatography‐quadrupole Exactive Orbitrap high‐resolution mass spectrometry.

Author

Kong, Xixian, Tian, Guanghuan, Wu, Tong, Hu, Shaowei, Zhao, Jie, Pan, Fuzhu, Liu, JingTong, OuYang, Yi, Tang, Liying, and Wu, Hongwei

Abstract

Lanbuzheng (Geum japonicum Thunb. var. chinense Bolle), a plant found in Southwest China, is a traditional Chinese medicine that promotes hematopoiesis and antioxidant functions. Many of its chemical constituents remain unknown, posing challenges both to understanding its pharmacological mechanisms and to conducting quality control research. In this work, ultra‐high performance liquid chromatography coupled with quadrupole Exactive Orbitrap high‐resolution mass spectroscopy was used for profiling the composition of Lanbuzheng. Using positive ion mass spectrometry data enriched from Lanbuzheng extract, feature‐based molecular networking (FBMN) was constructed and associated with Mass2Motifs substructures using MS2LDA. Prediction and validation of unknown constituents of Lanbuzheng using a custom‐built compound library, SIRIUS, and network annotation propagation, achieved a semi‐automated annotation of the molecular network. Based on the custom‐built library comprising 206 compounds and the FBMN clustering results, the constituents in Lanbuzheng primarily include tannins, triterpenes, flavonoids, and phenolics. Using only 65 pre‐identified compounds as references, 210 unknown compounds were annotated in various polarity regions of Lanbuzheng. Results of the current work indicate that molecular networks enable the efficient annotation of compounds in complex systems, laying the groundwork for the preliminary identification of pharmacologically active constituents of Lanbuzheng. [ABSTRACT FROM AUTHOR]

Published

2024

24. Metalized Plastic Current Collectors Incorporated with Halloysite Nanotubes toward Highly Safe Lithium‐Ion Batteries.

Author

Li, Nuo, Zhao, Jie, Long, Zihan, Song, Ruifeng, Cui, Yanming, Lin, Jiu, Xu, Henghui, and Huang, Yunhui

Subjects

*COPPER, *FRACTURE strength, *HALLOYSITE, *POTENTIAL energy, *ENERGY density

Abstract

Metalized plastic current collectors (MPCCs) have shown potential in improving the energy density and safety of lithium‐ion batteries (LIBs). However, the poor mechanical strength, weak interfacial adhesion force, and surface metal corrosion have impeded the practical application of MPCCs. Here, an innovative engineering of MPCCs is proposed by incorporating halloysite nanotubes (HNTs) as fillers into polyimide (PI) polymer layer, which is further coated with two thin copper (Cu) layers. Because of the strong bonding between HNTs surface and the PI precursor, HNTs improve the mechanical strength of PI‐HNTs composite film, reinforce the interfacial adhesion force between the PI‐HNTs film and the coated Cu layer, and suppress the Cu corrosion by electrolyte. The prepared MPCCs exhibit a low mass density and only account about one‐fifth of the density of commercial Cu CCs. Furthermore, the PI‐HNTs‐Cu composite demonstrates significantly enhanced interfacial adhesion force doubled to 4 N cm−1 along with prolonged stability under electrolyte immersion and electrochemical reaction conditions, and delivers a high fracture strength of 125 MPa. LIBs assembled with MPCCs deliver a twice higher discharge capacity compared to battery with Cu CCs and reach a long‐term cycle capacity retention as high as 92.9% at 0.5 C after 500 cycles. [ABSTRACT FROM AUTHOR]

Published

2024

25. Post‐Assembly Polymerization of Discrete Anion‐Coordinated Triple Helicate.

Author

Zhao, Jie, Lv, Ruying, Zhao, Fen, and Yang, Dong

Subjects

*POLYMERIZATION, *RUBBER, *GLASS, *METALS

Abstract

Hierarchical self‐assembly has been recently employed in the construction of anion‐coordination‐driven gel materials. However, the post‐assembly modification strategy, which may be a highly efficient strategy to realize the functionalization of discrete 'aniono' supramolecular architectures, has not been employed yet. Herein we report the first example of anion‐coordination‐driven gel material cross‐linked by well‐defined 'aniono' triple helicate through post‐assembly polymerization. The obtained gel shows self‐healing property and excellent compatibility with various surfaces, including glass, rubber, leaf, PP, and metal. The viscoelastic gel constructed through the post‐assembly modification strategy enriches the method to construct the anion‐coordination‐driven smart materials. [ABSTRACT FROM AUTHOR]

Published

2024

26. An Inducible CRISPR‐dCas9‐Based Transcriptional Repression System for Cancer Therapy.

Author

Gu, Pengfei, Zhao, Jie, Zhang, Wei, Ruan, Xianhui, Hu, Linfei, Zeng, Yu, Hou, Xiukun, Zheng, Xiangqian, Gao, Ming, and Chi, Jiadong

Subjects

*GENE regulatory networks, *SYNTHETIC genes, *TUMOR treatment, *CHINESE medicine, *CANCER treatment

Abstract

Gene therapy has been adapted for improving malignant tumor treatment. However, pharmacotherapies targeting cancer remain limited and are generally inapplicable for rare disease patients. Oleanolic acid (OA) is a plant‐derived triterpenoid that is frequently used in Chinese medicine as a safe but slow‐acting treatment for many disorders. Here, the congruent pharmacological activities of OA and CRISPR‐dCas9 in targeting AURKA or KDM1A and improving disease‐specific prognosis and used a synthetic‐biology‐inspired design principle to engineer a therapeutic gene circuit that enables a concerted action of both drugs are utilized. In particular, the OA‐triggered CRISPR‐dCas9 transcriptional repression system rapidly and simultaneously attenuated lung and thyroid cancer. Collectively, this work shows that rationally engineered synthetic gene circuits are capable of treating multifactorial diseases in a synergistic manner by multiplexing the targeting efficiencies of single therapeutics. [ABSTRACT FROM AUTHOR]

Published

2024

27. Photoinduced Low‐Valent Zirconium Catalysis for Cross‐Electrophile Coupling of Ethers.

Author

Guo, Ping, Song, Xuedong, Huang, Banruo, Zhang, Ruixue, and Zhao, Jie

Subjects

REDUCTIVE coupling reactions (Chemistry), BENZYLIC group, GRIGNARD reagents, ORGANIC synthesis, FUNCTIONAL groups

Abstract

Accessing versatile C(sp3)−C(sp3) bond through the cross‐electrophile coupling of two distinct etheric C−O bonds is crucial in organic synthesis but remains barely explored. Herein, we report an innovative photoinduced low‐valent zirconocene catalysis enabling the reductive coupling of ethers with high activity and cross‐selectivity. Mechanistic investigation suggests that photoexcitation of low‐valent zirconocene facilitates the C(sp3)−O bond scission of benzylic ethers, leading to the benzylic radicals intermediate via a single‐electron reduction pathway. The subsequent recombination of this benzylic radical with the Zr center followed by carbomagnesiation generates benzylic Grignard reagents for downstream coupling with aliphatic ethers through an SN2‐like mechanism. In application, a wide range of ethers readily in situ derived from aldehydes and ketones becomes feasible with high functional group compatibility as well as excellent cross‐selectivity. [ABSTRACT FROM AUTHOR]

Published

2024

28. Long‐term insulin resistance is associated with frailty, frailty progression, and cardiovascular disease.

Author

Ke, Zezhi, Wen, Han, Huang, Rihua, Xu, Xinghao, Yang, Kevin, Liu, Wenbin, Wang, Suisui, Zhang, Xu, Guo, Ye, Liao, Xinxue, Zhuang, Xiaodong, Zhao, Jie, Pan, Litao, and Liao, Lizhen

Published

2024

29. A Review of Somatic Design for Soft Robotic Grippers: From Parts Integration to Functional Synergy.

Author

Xu, Zhidong, Shi, Peipei, Yan, Jihong, and Zhao, Jie

Subjects

SOFT robotics, EDIACARAN fossils

Abstract

Somatic design is crucial for soft grippers to emulate the embodied intelligence of their biological counterparts, due to the blurry boundaries among material, structure, and function. There are five critical parts in somatic design, including morphology, material, fabrication, actuation, and variable stiffness. The strong nonlinear coupling among these factors often leads to mutual influence and functional compromise after integration. Herein, methods and strategies harnessed in these parts for performance improvement of soft grippers are systematically reviewed, particularly clarifying how to exert the coupling enhancement effects of the somatic parts for functional synergy. Finally, the remaining challenges and the future development directions of soft grippers for organism‐like intelligence and wide‐range applications are discussed. [ABSTRACT FROM AUTHOR]

Published

2024

30. Enhancing Longitudinal Flight Performance of Drones through the Coupling of Wings Morphing and Deflection of Aerodynamic Surfaces.

Author

Zhang, Junming, Liu, Yubin, Gao, Liang, Zhu, Yanhe, Zang, Xizhe, Cai, Hegao, and Zhao, Jie

Subjects

GLIDING & soaring, CLOSED loop systems, ARTIFICIAL satellite attitude control systems, FLAPS (Airplanes), ELEVATORS

Abstract

In nature, gliding birds frequently execute intricate flight maneuvers such as aerial somersaults, perched landings, and swift descents, enabling them to navigate obstacles or hunt prey. It is evident that birds rely on different wing–tail configurations to accomplish a wide range of aerial maneuvers. For traditional fixed‐wing unmanned aerial vehicles (UAVs), pitch control primarily comes from the tail's elevators, while adjusting flight lift and drag involves deploying wing flaps. Although these designs ensure reliable flight, they compromise the drones' maneuverability to maintain longitudinal stability. Therefore, the study introduces a biomimetic morphing wing UAV, and presents a pitch control strategy that simultaneously engages morphing wings, ailerons, and tail elevators. The pull‐up maneuver tests indicate that the proposed control method results in a pitch rate that is approximately 2.5 times greater than when using only the elevator control. A closed‐loop control system for the drone is also established. The closed‐loop flight experiment, which tracks a 45° pitch angle, demonstrates the effectiveness of the proposed coupled control method in adjusting the flight attitude. In addition, during cruising, the UAV employs three configurations, straight wing, forward‐swept wing, and back‐swept wing, to cater to different mission objectives and augment its flight capabilities. [ABSTRACT FROM AUTHOR]

Published

2024

31. Multivalent Sulfur Vacancy‐Rich NiCo2S4@MnO2 Urchin‐Like Heterostructures for Ambient Electrochemical N2 Reduction to NH3.

Author

Mushtaq, Muhammad Asim, Kumar, Anuj, Yasin, Ghulam, Tabish, Mohammad, Arif, Muhammad, Ajmal, Saira, Raza, Waseem, Naseem, Sajid, Zhao, Jie, Li, Pengyan, Ali, Hina Ghulam, Ji, Shengfu, and Yan, Dongpeng

Published

2024

32. Bio‐Inspired Interlocking Structures for Enhancing Flexible Coatings Adhesion.

Author

Lu, Pengpeng, Li, Xin, Xu, Jingyang, Fan, Yong, Sun, Jiyu, Liang, Yunhong, Tian, Limei, Ming, Weihua, Ren, Luquan, and Zhao, Jie

Published

2024

33. Open‐Shelled Covalent–Organic Frameworks Based on Organic Mixed‐Valence Systems with NIR‐II Absorption for Solar‐Heating Activation.

Author

He, Mingxu, Hu, Yuan, Song, Qiuyan, Wang, Wenjing, Xu, Weiquan, Zhao, Jie, Ma, Mingjun, Zhao, Shuai, Fan, Kaijie, Nie, Jun, and Chang, Yincheng

Subjects

ORGANIC bases, NEAR infrared radiation, VOLATILE organic compounds, ENERGY consumption, ABSORPTION, LIGHT absorption, TRIPHENYLAMINE

Abstract

A novel kind of open‐shelled covalent–organic framework (TPAPL‐COF‐OX) is fabricated based on organic mixed‐valence (MV) systems, which is used for aromatic volatile organic compounds (VOCs) adsorption and activation without the artificial energy consumption. The triphenylamine nucleus endow TPAPL‐COF with an abundance of nitrogen‐active sites. A mild oxidation process on TPAPL‐COF results in the generation of MV structures (TPAPL‐COF‐OX), enhancing its absorption capacity into the NIR‐II region. The nitrogen‐rich TPAPL‐COF‐OX exhibits exceptional adsorption capabilities for VOCs. Its broad light absorption spanning from UV to NIR‐II regions endow it with remarkable photothermal properties, enabling it to attain activation temperatures under sunlight without artificial energy consumption. It is expected that this study may present a novel strategy for managing VOCs by solar‐heating activation with energy‐efficient advantages. [ABSTRACT FROM AUTHOR]

Published

2024

34. Structural Evolution of Bacterial Polyphosphate Degradation Enzyme for Phosphorus Cycling.

Author

Dai, Shang, Wang, Binqiang, Ye, Rui, Zhang, Dong, Xie, Zhenming, Yu, Ning, Cai, Chunhui, Huang, Cheng, Zhao, Jie, Zhang, Furong, Hua, Yuejin, Zhao, Ye, Zhou, Ruhong, and Tian, Bing

Subjects

BACTERIAL evolution, PHOSPHORUS, ENZYMES, BALLAST water, HIGH temperatures, POLYPS

Abstract

Living organisms ranging from bacteria to animals have developed their own ways to accumulate and store phosphate during evolution, in particular as the polyphosphate (polyP) granules in bacteria. Degradation of polyP into phosphate is involved in phosphorus cycling, and exopolyphosphatase (PPX) is the key enzyme for polyP degradation in bacteria. Thus, understanding the structure basis of PPX is crucial to reveal the polyP degradation mechanism. Here, it is found that PPX structure varies in the length of ɑ‐helical interdomain linker (ɑ‐linker) across various bacteria, which is negatively correlated with their enzymatic activity and thermostability – those with shorter ɑ‐linkers demonstrate higher polyP degradation ability. Moreover, the artificial DrPPX mutants with shorter ɑ‐linker tend to have more compact pockets for polyP binding and stronger subunit interactions, as well as higher enzymatic efficiency (kcat/Km) than that of DrPPX wild type. In Deinococcus‐Thermus, the PPXs from thermophilic species possess a shorter ɑ‐linker and retain their catalytic ability at high temperatures (70 °C), which may facilitate the thermophilic species to utilize polyP in high‐temperature environments. These findings provide insights into the interdomain linker length‐dependent evolution of PPXs, which shed light on enzymatic adaption for phosphorus cycling during natural evolution and rational design of enzyme. [ABSTRACT FROM AUTHOR]

Published

2024

35. Intrahippocampal Supramolecular Assemblies Directed Bioorthogonal Liberation of Neurotransmitters to Suppress Seizures in Freely Moving Mice.

Author

Wu, Chengling, Xie, Jingyu, Yao, Qingxin, Song, Yilin, Yang, Gucheng, Zhao, Jie, Zhang, Ruijia, Wang, Ting, Jiang, Xingyu, Cai, Xinxia, and Gao, Yuan

Published

2024

36. Prioritizing Forestation in China Through Incorporating Biogeochemical and Local Biogeophysical Effects.

Author

Li, Yu, Zhang, Pengyi, Wang, Huanhuan, Ma, Hui, Zhao, Jie, Xu, Mengyang, Wang, Mengyu, Guo, Chenhui, and Yue, Chao

Subjects

LAND surface temperature, CLIMATE change mitigation, FORESTS & forestry, CARBON sequestration, CLIMATE change, ATMOSPHERIC carbon dioxide

Abstract

Forestation is a key strategy for climate mitigation in China through its biogeochemical (BGC) effect of ecosystem carbon sequestration. Additionally, the BGC effect of forestation can be either reinforced or counteracted by concurrent biogeophysical processes (BGP effect) resulting in local land surface warming or cooling, which can be translated into CO2e (i.e., BGC effect) using a local transient climate response. Previous evaluations of the climate mitigation potential of future forestation in China have, however, focused on the BGC effect only and neglected the BGP effect, potentially leading to suboptimal forestation areas. Here, we determined priority forestation areas in China by incorporating both effects to maximize its global climate mitigation effect. Our results suggest an additional 167.2 Mha potentially suitable for forestation in China, exceeding the largest forestation target (86.8 Mha) possibly assumed by the government in 2060. The forestation‐induced BGP effect (18.7 ± 61.9 tCO2e ha−1) largely reinforces the BGC effect (458.2 ± 92.6 tCO2e ha−1) in China, yielding a total climate mitigation effect of 476.9 ± 114.2 tCO2e ha−1 over 40 years (2021–2060). Under the 2060 forestation target, considering both BGC and BGP effects will displace 17.7% (15.3 Mha) of the forestation area derived by considering the BGC effect alone. Integrating both BGC and BGP effects will lead to a CO2 uptake of 28.8 GtCO2e by 2060, 3.9 GtCO2e higher than the value obtained when considering the BGC effect only. Our results highlight the importance of considering BGP effect when making forestation policies for climate mitigation. Plain Language Summary: Forestation plays a crucial role in mitigating climate change through both carbon sequestration (biogeochemical or BGC effect) and modification of land surface temperature (biogeophysical or BGP effect). Maximizing forestation contribution to global climate mitigation requires maximizing the collective effects of both BGC and BGP through converting BGP to BGC, as temperature change is fundamentally driven by atmospheric CO2 changes which are further influenced by forestation BGC effect. However, previous evaluations of China's forestation potential almost completely focused on the BGC effect. This study identified optimal forestation areas to maximize their global climate mitigation effect in China by considering both BGC and BGP effects. Considering both effects will displace 17.7% (15.3 Mha) of forestation areas determined by considering only the BGC effect under the 2060 forestation target. Considering both effects also leads to a higher CO2 uptake of 3.9 GtCO2e than the value when considering the BGC effect only by 2060. Forestation‐induced BGC and BGP effects mostly work in synergy in China, mutually enhancing the overall climate benefits. Our findings have implications for future forestation policy in China to maximize its contribution to global climate mitigation. Key Points: The biogeophysical (BGP) effect should be included in the traditional forestation policies considering only biogeochemical (BGC) effectConsidering BGC and BGP effects will lead to 17.7% of forestation area being displaced, compared to considering the BGC effect only by 2060Integrating BGC and BGP effects exhibits a 15.8% (3.9 GtCO2e) increase in CO2 uptake by 2060 [ABSTRACT FROM AUTHOR]

Published

2024

37. Shape Control of Elastic Deformable Linear Objects for Robotic Cable Assembly.

Author

Cao, Bin, Zang, Xizhe, Zhang, Xuehe, Chen, Zhuo, Li, Shouqiang, and Zhao, Jie

Abstract

Currently, cables are manually installed in aircraft manufacturing scenarios. The utilization of robots in cable assemblies can enhance efficiency and ensure quality, presenting great promise for the future. However, the assembly process must control the shape of the cables, which is a significant challenge for robots. On the one hand, cables have high degrees of freedom in space, making accurate modeling of cable dynamics for robotic arm manipulation difficult; on the other hand, cable deformation has uncertainty, and the applied forces cause simultaneous deformation and motion, which is difficult to control. To address these problems, this study proposes a cable‐shape control method based on graph neural networks and online visual shape‐servoing. The method first approximates cable dynamics with a graph neural network. Then, in practice, the learnt model is used alongside visual‐based shape‐servoing to generate optimal robotic arm movements, controlling the cable to attain the desired shape. In the experiments, precise control of three different cable types is realized, and an example of a completed cable assembly is shown. [ABSTRACT FROM AUTHOR]

Published

2024

38. A Fault‐Tolerant Approach for Modular Robots through Self‐Reconfiguration.

Author

Qi, Jian, Lai, Mingzhu, Yang, Zhiyuan, Zhao, Ning, Han, Kai, Sui, Xin, Zhao, Jie, and Zhu, Yanhe

Abstract

Modular robots have unique advantages in handling faults and improving their robustness due to their self‐reconfiguration capacity and homogeneous interchangeability. When locked joint failure occurs in modular robots, the distribution of the failed modules will affect the manipulation capacity of the robot. In this article, a novel self‐reconfiguration method that utilizes only the remaining resources available to mitigate the damage caused by module joint failures is proposed. The key node configuration is searched by the particle swarm optimization (PSO) algorithm, and then the collision‐free reconfiguration path is planned by the rapidly exploring random trees (RRT) algorithm. The proposed method not only handles single‐module lockup failure but can also be expanded to multi‐module lockup failures, fully improving the fault tolerance of the modular robot. The method is deployed on the hardware, and the feasibility of the algorithm is verified by self‐reconfiguration experiments containing faulty modules. [ABSTRACT FROM AUTHOR]

Published

2024

39. YTHDF1 mediates N‐methyl‐N‐nitrosourea‐induced gastric carcinogenesis by controlling HSPH1 translation.

Author

Song, Peng, Li, Xiang, Chen, Shuai, Gong, Yu, Zhao, Jie, Jiao, Yuwen, Dai, Yi, Yang, Haojun, Qian, Jun, Li, Yuan, He, Jian, and Tang, Liming

Subjects

CARCINOGENESIS, GENE expression, CANCER cells, PROTEIN expression, CELL transformation, PHENOTYPES

Abstract

YT521‐B homology (YTH) domain family (YTHDF) proteins serve as readers that directly recognise m6A modifications. In this study, we aim to probe the role of YTHDF1 in environmental carcinogen‐induced malignant transformation of gastric cells and gastric cancer (GC) carcinogenesis. We established a long‐term low‐dose MNU‐induced malignant transformation model in gastric epithelial cells. In vivo and in vitro experiments were conducted to validate the malignant phenotype and characterise the roles of YTHDF1 and its downstream genes in malignant transformation cells. Additionally, we explored downstream m6A modification targets of YTHDF1 using RNA‐sequencing, RNA immunoprecipitation, and proteomics analyses, and conducted validation experiments in cell experiments and clinical samples. Long‐term low‐dose exposure of MNU converted normal Gges‐1 cells into malignant cells. YTHDF1 mRNA and protein expression are increased in MNU‐induced malignant cells (p<0.001). Meanwhile, YTHDF1 knockdown inhibits the malignant potential of MNU‐treated cells (p<0.01). YTHDF1 knockdown specifically suppresses HSPH1 protein, but not RNA levels. RIP‐qPCR validates HSPH1 is the target of YTHDF1 (p<0.01). HSPH1 knockdown impairs the malignant potential of MNU‐induced transformed cells. The increased expression of the key regulatory factor YTHDF1 in MNU‐induced gastric carcinogenesis affects malignant transformation and tumorigenesis by regulating the translation of downstream HSPH1. These findings provide new potential targets for preventing and treating environmental chemical‐induced gastric carcinogenesis. [ABSTRACT FROM AUTHOR]

Published

2024

40. Machine Learning to Promote Efficient Screening of Low‐Contact Electrode for 2D Semiconductor Transistor Under Limited Data.

Author

Li, Penghui, Dong, Linpeng, Li, Chong, Li, Yan, Zhao, Jie, Peng, Bo, Wang, Wei, Zhou, Shun, and Liu, Weiguo

Published

2024

41. Infections associated with CAR‐T cell therapy in patients with relapsed refractory multiple myeloma: Risks and prevention strategies.

Author

An, Jing, Zhao, Jie, Zou, Ping, Zhang, Yicheng, Wei, Junni, Tian, Weiwei, and Wei, Jia

Subjects

*MULTIPLE myeloma, *CELLULAR therapy, *CYTOKINE release syndrome, *CHIMERIC antigen receptors, *SYMPTOMS, *MONOCLONAL gammopathies

Abstract

Background: Chimeric antigen receptor T (CAR‐T) cell therapy has emerged as a potent treatment for relapsed or refractory multiple myeloma, demonstrating significant clinical efficacy. Despite these advances, treatment‐related toxicities, particularly infections, pose a significant challenge to patient safety. Methods: This review synthesizes current knowledge on the mechanisms underlying post‐CAR‐T therapy infections, focusing on the interplay between immune dysfunction, host factors, and treatment‐induced toxicity. It provides a comprehensive analysis of the temporal and individual variability in infection characteristics and the confounding clinical presentation of cytokine release syndrome. Results: The review identifies that patients receiving CAR‐T cells are at increased risk of concurrent infections due to the heterogeneity in infection characteristics across different time periods, individuals, and patient groups. It highlights the diagnostic and therapeutic complexities introduced by the overlapping symptoms of infection and cytokine release syndrome. Conclusion: To enhance the infection control post‐CAR‐T therapy, this review proposes preventive strategies tailored to the early and long‐term management of patients. It underscores the need for a nuanced understanding of infection mechanisms and the importance of personalized prevention plans to improve clinical outcomes in multiple myeloma treatment. [ABSTRACT FROM AUTHOR]

Published

2024

42. Impact of hormone replacement therapy on all‐cause and cancer‐specific mortality in colorectal cancer: A systematic review and dose‒response meta‐analysis of observational studies.

Author

Liu, Kefeng, He, Yazhou, Li, Qiong, Sun, Shusen, Mei, Zubing, and Zhao, Jie

Subjects

HORMONE therapy, MORTALITY, COLORECTAL cancer, CANCER-related mortality, DEATH rate

Abstract

Objective: The effect of hormone replacement therapy (HRT) on colorectal cancer (CRC) mortality and all‐cause mortality remains unclear. We conducted a systematic review and dose–response meta‐analysis to determine the effects of HRT on CRC mortality and all‐cause mortality. Methods: We searched the electronic databases of PubMed, Embase, and The Cochrane Library for all relevant studies published until January 2024 to investigate the effects of HRT exposure on survival rates for patients with CRC. Two reviewers independently extracted individual study data and evaluated the risk of bias between the studies using the Newcastle‒Ottawa Scale. We performed a two‐stage random‐effects dose–response meta‐analysis to examine a possible nonlinear relationship between the year of HRT use and CRC mortality. Results: Ten cohort studies with 480,628 individuals were included. HRT was inversely associated with the risk of CRC mortality (hazard ratios (HR) = 0.77, 95% CI (0.68, 0.87), I2 = 69.5%, p < 0.05). The pooled results of seven cohort studies revealed a significant association between HRT and the risk of all‐cause mortality (HR = 0.71, 95% CI (0.54, 0.92), I2 = 89.6%, p < 0.05). A linear dose–response analysis (p for nonlinearity = 0.34) showed a 3% decrease in the risk of CRC for each additional year of HRT use; this decrease was significant (HR = 0.97, 95% CI (0.94, 0.99), p < 0.05). An additional linear (p for nonlinearity = 0.88) dose–response analysis showed a nonsignificant decrease in the risk of all‐cause mortality for each additional year of HRT use. Conclusions: This study suggests that the use of HRT is inversely associated with all‐cause and colorectal cancer mortality, thus causing a significant decrease in mortality rates over time. More studies are warranted to confirm this association. [ABSTRACT FROM AUTHOR]

Published

2024

43. A Metal Coordination Number Determined Catalytic Performance in Manganese Borides for Ambient Electrolysis of Nitrogen to Ammonia.

Author

Mushtaq, Muhammad Asim, Kumar, Anuj, Liu, Wei, Ji, Qianqian, Deng, Yonggui, Yasin, Ghulam, Saad, Ali, Raza, Waseem, Zhao, Jie, Ajmal, Saira, Wu, Yanyan, Ahmad, Muhammad, Lashari, Najeeb ur Rehman, Wang, Yan, Li, Tingshuai, Sun, Shengjun, Zheng, Dongdong, Luo, Yongsong, Cai, Xingke, and Sun, Xuping

Published

2024

44. Encouraging Solution to the Problem of Synthesizing Protein α‐Thioester.

Author

Liu, Xinliang, Gao, Zijun, Zhao, Jie, Ye, Farong, Huang, Ping, and Wang, Ping

Subjects

SMALL ubiquitin-related modifier proteins, GRANULOCYTE-colony stimulating factor, ESCHERICHIA coli, CHIMERIC proteins, PROTEIN structure

Abstract

Comprehensive Summary: Expressed protein ligation (EPL) provides a powerful tool to access large‐size proteins with precise structures. Existing methods for constructing the critical protein thioester for EPL have predominantly relied on the recombinant intein fusion expressed in Escherichia coli (E. coli). Despite its powerful applications, the expression of thioester derived from eukaryotic protein in E. coli inherently suffers from its limited solubility, the inactivity of intein, premature hydrolysis and low yields. To overcome these obstacles, we present herein the facile one‐flask synthesis of inaccessible protein α‐thioester via a SUMO‐protein‐intein (SPI) sandwich model. The utility of SUMO enhances the protein fusion yield and solubility, prevents premature hydrolysis and simplifies the purification process. The inaccessible protein thioester with internal Cys residues can be readily produced and is compatible with the EPL‐desulfurization protocol used to prepare complex proteins, which is otherwise difficult to obtain using traditional methods. Its utility has been highlighted through the synthesis of human granulocyte colony‐stimulating factor (G‐CSF). [ABSTRACT FROM AUTHOR]

Published

2024

45. Numerical Simulation of Electromagnetic Responses to an Earthquake Source Due To the Piezoelectric Effect of '∞m' Symmetry.

Author

Zhao, Jie, Gao, Yongxin, Cheng, Qianli, Zhou, Guanqun, Chen, Chieh‐Hung, Zhang, Xuemin, and Sun, Yang‐yi

Subjects

*PIEZOELECTRICITY, *EARTHQUAKES, *COMPUTER simulation, *EARTHQUAKE zones, *QUARTZ crystals, *SEISMIC waves, *SPACE charge

Abstract

It is reported that earthquakes are accompanied by electromagnetic (EM) anomalies. These anomalies are thought to be caused by earthquakes but their generation mechanism is still unclear. The piezoelectric effect has been proposed as a possible mechanism, particularly in quartz‐rich rocks. However, the EM responses to earthquakes due to such an effect have not been well understood. In this article, we study the EM signals generated by an earthquake source due to the piezoelectric effect. We develop a semi‐analytical method to simulate the EM responses to earthquake sources in a 3‐D layered model and conduct numerical simulations to investigate the characteristics of the EM fields. The results show that the piezoelectric effect in quartz‐rich rocks could be the responsible mechanism for the EM signals recorded during the earthquake. Two kinds of EM signals can be generated by the earthquake, namely, the early EM wave arriving before the seismic waves and the coseismic EM field accompanying the seismic waves. For an Mw 6.1 earthquake, the coseismic electric field is ∼0.1 μV/m and the magnetic field can only reach ∼10−5 nT. We also study the sensitivity of the coseismic EM fields to the rock conductivity. The results indicate that the coseismic EM fields are mainly affected by the conductivity of the shallow layer where the receiver is located, and if the top layer is thin, they are also affected by the conductivity of the deeper layer due to the contribution of the evanescent EM wave created at the interface. Plain Language Summary: When a quartz‐rich rock is under stress, the positive and negative charge centers of quartz crystals are shifted, resulting in a polarization, which manifests macroscopically as the EM radiation. Such a phenomenon is known as the piezoelectric effect. It is a plausible mechanism for the generation of the earthquake‐associated electromagnetic (EM) anomaly. In this paper, we propose a simple method to simulate the EM disturbances generated by an earthquake source arising from the piezoelectric effect. We also conduct numerical simulations to study the properties of the EM fields. The results show that earthquakes can produce two kinds of EM signals. One signal propagates with the speed of the EM wave in the rocks and it arrives earlier than the seismic waves. The other is the coseismic EM field that appears simultaneously with the seismic waves. Such a coseismic signal is restricted to inside of the area disturbed by the seismic wave. Based on the sensitivity analysis, we find that the coseismic EM signal is sensitive not only to the conductivity of shallow rocks, but also to that of the deep rocks. The results also indicate that the electric signals produced by the piezoelectric effect during an earthquake are observable. Key Points: A method is presented to simulate the seismo‐electromagnetic fields due to the piezoelectric effect in quartz‐rich strataAn earthquake source can generate an early electromagnetic (EM) wave and coseismic EM fields due to the piezoelectric effectNumerical results show that the piezoelectric effect is an effective mechanism to produce observable electric signals [ABSTRACT FROM AUTHOR]

Published

2024

46. Effect of Controlled Rolling on the Strength and Toughness of Low‐Alloy Martensitic Steel.

Author

Tang, Yuanshou, Zhao, Jie, Si, Yu, Li, Kejian, Zhang, Longzhu, Zhao, Linlin, Li, Shouhua, Wen, Tong, and Cao, Pengjun

Subjects

*LOW alloy steel, *COLD rolling, *AUTOMOTIVE materials, *MILD steel, *HOT rolling, *STEEL alloys

Abstract

Low‐carbon martensitic steel is the key material of automobile lightweight. Unfortunately, the strategies for increasing the material strength, such as processing to create line defects (dislocations), tend to decrease the ductility. Herein, a strategy to circumvent this problem in an inexpensive, microalloy low‐carbon (0.32%) martensitic steel by regulating the accelerated cooling stop temperature after hot rolling is developed. Steel with fine austenite grains embedded in a highly dislocated martensite matrix is developed by cold rolling followed by saltwater quenching and low‐temperature tempering. This deformed process produces dislocation hardening, but retains high ductility both through the glide of intensive mobile dislocations. The proposed strategy provides a pathway for the development of high‐strength, high‐ductility materials. [ABSTRACT FROM AUTHOR]

Published

2024

47. Prediction performance comparison of biomarkers for response to immune checkpoint inhibitors in advanced non‐small cell lung cancer.

Author

Zhao, Jie, Zhuang, Wei, Sun, Boyang, Bai, Hua, Wang, Zhijie, Zhong, Jia, Wan, Rui, Liu, Lihui, Duan, Jianchun, and Wang, Jie

Subjects

*PREDICTIVE tests, *RESEARCH funding, *RECEIVER operating characteristic curves, *PROGRAMMED death-ligand 1, *IMMUNOTHERAPY, *TUMOR markers, *TREATMENT effectiveness, *DESCRIPTIVE statistics, *IMMUNE checkpoint inhibitors, *IMMUNOHISTOCHEMISTRY, *ODDS ratio, *EPIDERMAL growth factor, *GENE expression profiling, *DRUG efficacy, *STATISTICS, *LUNG cancer, *GENETIC mutation, *COMPARATIVE studies, *PROGRESSION-free survival, *CONFIDENCE intervals, *DATA analysis software, *SENSITIVITY & specificity (Statistics), *OVERALL survival, *PHARMACODYNAMICS, *EVALUATION

Abstract

Background: The aim of the present study was to compare the predictive accuracy of PD‐L1 immunohistochemistry (IHC), tissue or blood tumor mutation burden (tTMB, bTMB), gene expression profile (GEP), driver gene mutation, and combined biomarkers for immunotherapy response of advanced non‐small cell lung cancer (NSCLC). Methods: In part 1, clinical trials involved with predictive biomarker exploration for immunotherapy in advanced NSCLC were included. The area under the curve (AUC) of the summary receiver operating characteristic (SROC), sensitivity, specificity, likelihood ratio and predictive value of the biomarkers were evaluated. In part 2, public datasets of immune checkpoint inhibitor (ICI)‐treated NSCLC involved with biomarkers were curated (N = 871). Odds ratio (OR) of the positive versus negative biomarker group for objective response rate (ORR) was measured. Results: In part 1, the AUC of combined biomarkers (0.75) was higher than PD‐L1 (0.64), tTMB (0.64), bTMB (0.68), GEP (0.67), and driver gene mutation (0.51). Combined biomarkers also had higher specificity, positive likelihood ratio and positive predictive value than single biomarkers. In part 2, the OR of combined biomarkers of PD‐L1 plus TMB (PD‐L1 cutoff 1%, 0.14; cutoff 50% 0.13) was lower than that of PD‐L1 (cutoff 1%, 0.33; cutoff 50% 0.24), tTMB (0.28), bTMB (0.48), EGFR mutation (0.17) and KRAS mutation (0.47), for distinguishing ORR of patients after immunotherapy. Furthermore, positive PD‐L1, tTMB‐high, wild‐type EGFR, and positive PD‐L1 plus TMB were associated with prolonged progression‐free survival (PFS). Conclusion: Combined biomarkers have superior predictive accuracy than single biomarkers for immunotherapy response of NSCLC. Further investigation is warranted to select optimal biomarkers for various clinical settings. [ABSTRACT FROM AUTHOR]

Published

2024

48. Screening of novel biomarkers for acute kidney transplant rejection using DIA‐MS based proteomics.

Author

Wang, Ce, Feng, Gang, Zhao, Jie, Xu, Yang, Li, Yang, Wang, Lin, Wang, Meng, Liu, Miao, Wang, Yilin, Mu, Hong, and Zhou, Chunlei

Published

2024

49. Motion‐Compensation Control of Supernumerary Robotic Arms Subject to Human‐Induced Disturbances.

Author

Zhang, Qinghua, Sui, Dongbao, Jing, Hongwei, Sun, Kerui, Li, Yuancheng, Li, Xianglong, Ju, Haotian, Tang, Yuan, Lai, Mingzhu, Zhao, Jie, and Zhu, Yanhe

Subjects

ROBOTICS, ROBOTIC exoskeletons, HUMAN mechanics, ROBOT control systems, HUMAN error, SHOULDER

Abstract

Supernumerary robotic limbs (SRLs) are a novel type of wearable robot used as the third limb to assist the wearer to perform operations that are difficult or impossible for human hands. Although SRLs can compensate for and enhance human physiological abilities, the unpredictable disturbances caused by human movements significantly affect the coordinating control between the robot and wearer. In this study, a general modeling of supernumerary robotic arms (SRAs) on an omnidirectional floating base is presented. Using position and orientation feedback from sensors at the base and tip, three control methods based on different sensor feedback are proposed to improve tracking accuracy. Experiments on point and trajectory tracking are conducted on the SRAs. In the results (point and circular trajectory‐tracking errors with the manipulator as floating base: 1.18 ± 0.56 mm [mean ± standard deviation(SD) error] and 1.42 ± 0.43 mm, point trajectory‐tracking errors with the human shoulder as floating base: 1.37 ± 0.58 mm, and the performance in perforation positioning operation experiment), it is demonstrated that the proposed controllers enable the SRAs to achieve high‐precision tracking and good adaptability to different user movements and frequencies. Also, in the results, future studies on dynamic high‐precision manipulation of SRLs are motivated. [ABSTRACT FROM AUTHOR]

Published

2024

50. Longitudinal Coupling Synthesis in Superconducting Qubits.

Author

Chen, Jie, Yan, Wenchang, Zhao, Jie, Tan, Xinsheng, and Yu, Yang

Subjects

QUBITS, QUANTUM computing, MUTUAL inductance, QUANTUM gates, QUANTUM wells, SUPERCONDUCTING quantum interference devices

Abstract

Longitudinal coupling, which generates entanglement without energy exchange, has extensive applications in quantum computing and quantum simulation. However, achieving available direct and flexible longitudinal couplings between highly coherent superconducting qubits is challenging. In this study, a method is developed to achieve direct and flexible longitudinal couplings between superconducting qubits, including the direct longitudinal coupling between capacitively shunted flux qubits (C‐shunt flux qubits) and that between transmon qubits. Herein, first, a variant of the prototype C‐shunt flux qubit, the concentric C‐shunt flux qubit, is introduced. It is demonstrated that the large mutual inductance between concentric C‐shunt flux qubits produces a longitudinal coupling strength up to 21 MHz. It is also demonstrated that the method can be used to realize a strong longitudinal coupling between two transmon qubits. In the findings, it is demonstrated that it is possible to achieve a flexible and efficient direct longitudinal coupling between superconducting qubits, and open up new possibilities for the development of quantum gate operation methods as well as quantum simulation methods. [ABSTRACT FROM AUTHOR]

Published

2024