Your search keyword '"Mingfeng Xu"' showing total 185 results

1. Towards the performance limit of catenary meta-optics via field-driven optimization

Author

Siran Chen, Yingli Ha, Fei Zhang, Mingbo Pu, Hanlin Bao, Mingfeng Xu, Yinghui Guo, Yue Shen, Xiaoliang Ma, Xiong Li, and Xiangang Luo

Subjects

catenary optics, catenary structures, field-driven optimization, Optics. Light, QC350-467

Abstract

Catenary optics enables metasurfaces with higher efficiency and wider bandwidth, and is highly anticipated in the imaging system, super-resolution lithography, and broadband absorbers. However, the periodic boundary approximation without considering aperiodic electromagnetic crosstalk poses challenges for catenary optical devices to reach their performance limits. Here, perfect control of both local geometric and propagation phases is realized through field-driven optimization, in which the field distribution is calculated under real boundary conditions. Different from other optimization methods requiring a mass of iterations, the proposed design method requires less than ten iterations to get the efficiency close to the optimal value. Based on the library of shape-optimized catenary structures, centimeter-scale devices can be designed in ten seconds, with the performance improved by ~15%. Furthermore, this method has the ability to extend catenary-like continuous structures to arbitrary polarization, including both linear and elliptical polarizations, which is difficult to achieve with traditional design methods. It provides a way for the development of catenary optics and serves as a potent tool for constructing high-performance optical devices.

Published

2024

2. High SARS-CoV-2 infection rate in children unvaccinated with COVID-19 vaccine in Changzhou, China, shortly after lifting zero-COVID-19 policy in December 2022

Author

Jie Tang, Yong Wang, Weiqin Lu, Zhihong Gao, Mingfeng Xu, Lin Wu, and Jianhua Jin

Subjects

Antibody to SARS-CoV-19, Seropositivity, Children, COVID-19 vaccination, Discontinuation of zero-COVID-19 policy, Infectious and parasitic diseases, RC109-216

Abstract

Abstract Background China experienced an overwhelming COVID-19 pandemic from middle December 2022 to middle January 2023 after lifting the zero-COVID-19 policy on December 7, 2022. However, the infection rate was less studied. We aimed to investigate the SARS-CoV-2 infection rate in children shortly after discontinuation of the zero-COVID-19 policy. Methods From February 20 to April 10, 2023, we included 393 children aged 8 months to less than 3 years who did not receive COVID-19 vaccination and 114 children aged 3 to 6 years who received inactivated COVID-19 vaccines based on the convenience sampling in this cross-sectional study. IgG and IgM antibodies against nucleocapsid (N) and subunit 1 of spike (S1) of SARS-CoV-2 (anti-N/S1) were measured with commercial kits (Shenzhen YHLO Biotech, China). Results Of the 393 unvaccinated children (1.5 ± 0.6 years; 52.2% boys), 369 (93.9%) were anti-N/S1 IgG positive. Of the 114 vaccinated children (5.3 ± 0.9 years; 48.2% boys), 112 (98.2%) were anti-N/S1 IgG positive. None of the unvaccinated or vaccinated children was anti-N/S1 IgM positive. The median IgG antibody titers in vaccinated children (344.91 AU/mL) were significantly higher than that in unvaccinated children (42.80 AU/mL) (P

Published

2024

3. Long-term behaviors of fiber reinforced alkali-activated composite cured at ambient condition: Mechanical characterization

Author

Lili Kan, Benrui Chen, Jiabao Zhai, Lanqing Dai, Fei Wang, Mingfeng Xu, and Pingjiang Bai

Subjects

Long-term behaviors, High ductile, Alkali-activated, Fiber reinforced composites, Mechanical properties, Digital image correlation (DIC), Materials of engineering and construction. Mechanics of materials, TA401-492

Abstract

This paper focused on investigating the long-term behaviors of alkali-activated fiber reinforced composites (AAFRCs) cured at ambient temperature. Three sets of curing ages (1d, 28d, and 365d) were prepared. The Compression test, uniaxial tensile test, three-point bending test, single crack tensile test and digital image correlation (DIC) test were performed, along with the microscopic characterizations of SEM (scanning electron microscope) and XRD (X-ray diffraction). The results demonstrate that the AAFRC in this study has early strength characteristics, and the compressive strength and tensile strength of 1d is 34.6 MPa and 2.66 MPa, respectively. The compressive strength tended to be stable after 28 days, The compressive strength of 28d and 365d was very similar, 74.9 MPa and 74.4 MPa, respectively. It is worth noting that the tensile strength and tensile strain reached the highest value at 365d, and the tensile strain remained at a high level of more than 4% after 28d. DIC analysis cloud maps visually describe the formation and propagation of cracks, which can be applied to predict reliably the direction and location of cracks to a certain extent. The variation in tensile strain is explained by insufficient index margins of σoc/σcr and Jb′/Jtip. Embodied energy and carbon emissions of solid waste-based materials are calculated to assess the sustainability. AAFRC shows less energy consumptions and lower carbon emissions compared to concrete classic engineered cementitious composites (ECC, M45-PVA) and LC3-ECC. Scanning electron microscopy (SEM) analysis showed that the failure modes of fibers at different ages explained the tensile strength and tensile strain of the corresponding age specimens, and energy dispersive spectroscopy (EDS) showed that the primary polymerization products were C-(A) -S-H gel and N-A-S-H gel.

Published

2024

4. Improved spatiotemporal resolution of anti-scattering super-resolution label-free microscopy via synthetic wave 3D metalens imaging

Author

Yuting Xiao, Lianwei Chen, Mingbo Pu, Mingfeng Xu, Qi Zhang, Yinghui Guo, Tianqu Chen, and Xiangang Luo

Subjects

super-resolution, anti-scattering, unlabeled, high temporal resolution, Optics. Light, QC350-467, Applied optics. Photonics, TA1501-1820

Abstract

Super-resolution (SR) microscopy has dramatically enhanced our understanding of biological processes. However, scattering media in thick specimens severely limits the spatial resolution, often rendering the images unclear or indistinguishable. Additionally, live-cell imaging faces challenges in achieving high temporal resolution for fast-moving subcellular structures. Here, we present the principles of a synthetic wave microscopy (SWM) to extract three-dimensional information from thick unlabeled specimens, where photobleaching and phototoxicity are avoided. SWM exploits multiple-wave interferometry to reveal the specimen’s phase information in the area of interest, which is not affected by the scattering media in the optical path. SWM achieves ~0.42 λ/NA resolution at an imaging speed of up to 106 pixels/s. SWM proves better temporal resolution and sensitivity than the most conventional microscopes currently available while maintaining exceptional SR and anti-scattering capabilities. Penetrating through the scattering media is challenging for conventional imaging techniques. Remarkably, SWM retains its efficacy even in conditions of low signal-to-noise ratios. It facilitates the visualization of dynamic subcellular structures in live cells, encompassing tubular endoplasmic reticulum (ER), lipid droplets, mitochondria, and lysosomes.

Published

2023

5. Physics-data-driven intelligent optimization for large-aperture metalenses

Author

Yingli Ha, Yu Luo, Mingbo Pu, Fei Zhang, Qiong He, Jinjin Jin, Mingfeng Xu, Yinghui Guo, Xiaogang Li, Xiong Li, Xiaoliang Ma, and Xiangang Luo

Subjects

intelligence method, physics-data-driven method, inverse design, large-aperture metalenses, Optics. Light, QC350-467

Abstract

Metalenses have gained significant attention and have been widely utilized in optical systems for focusing and imaging, owing to their lightweight, high-integration, and exceptional-flexibility capabilities. Traditional design methods neglect the coupling effect between adjacent meta-atoms, thus harming the practical performance of meta-devices. The existing physical/data-driven optimization algorithms can solve the above problems, but bring significant time costs or require a large number of data-sets. Here, we propose a physics-data-driven method employing an “intelligent optimizer” that enables us to adaptively modify the sizes of the meta-atom according to the sizes of its surrounding ones. The implementation of such a scheme effectively mitigates the undesired impact of local lattice coupling, and the proposed network model works well on thousands of data-sets with a validation loss of 3×10−3. Based on the “intelligent optimizer”, a 1-cm-diameter metalens is designed within 3 hours, and the experimental results show that the 1-mm-diameter metalens has a relative focusing efficiency of 93.4% (compared to the ideal focusing efficiency) and a Strehl ratio of 0.94. Compared to previous inverse design method, our method significantly boosts designing efficiency with five orders of magnitude reduction in time. More generally, it may set a new paradigm for devising large-aperture meta-devices.

Published

2023

6. The Effect of Elevation Gradient on Distribution and Body Size of Carabid Beetles in the Changbaishan Nature Reserve in Northeast Asia

Author

Shengdong Liu, Jiaqi Tong, Mingfeng Xu, Qingfan Meng, Ying Shi, Hongrui Zhao, and Yan Li

Subjects

indicator species, richness, abundance, tundra, Science

Abstract

The environment of mountain ecosystems can change greatly in short distances as elevation increases. The effects of elevation change on the distribution and body size of carabid beetles were investigated at elevations of 750–2600 m in the Changbaishan Nature Reserve (Northeast China). The richness and abundance of carabid species decreased significantly as elevation increased. However, the change trends are different in forests and tundra. In the broad-leaved Korean pine forest and coniferous forest at low elevations, carabid beetle species have high richness and abundance. The community composition of carabid beetles was significantly different at different elevations and among different vegetation types. Some species only occurred at specific elevations. There were fewer indicator species in high-elevation areas, but Carabus macleayi Dejean, Nebria pektusanica Horratovich and Pterostichus jaechi Kirschenhofer were mainly found in high-elevation areas. The average body size of species in the carabid beetle community was negatively correlated with elevation. The sizes of the larger Carabus canaliculatus Adams and Carabus venustus Morawitz were negatively correlated with elevation. Their body sizes decreased obviously in the tundra at elevations above 2000 m. Changes in vegetation types at high elevations affect the distribution and body sizes of beetles along the elevation gradient. Some large carabid species may be smaller at high elevations where a unique insect fauna has developed. The body size and distribution range of the carabid may be the factors that affect body size reduction at high elevation. Although some high-elevation species also occur in low-elevation areas, the protection of species diversity in high-elevation areas should be emphasized in the context of global climate change. The results illustrate the mechanisms of carabid beetles’ response to elevation change and the need for carabid beetles’ diversity conservation under global climate change.

Published

2024

7. The Effect of Ultrasound Treatment on the Structural and Functional Properties of Tenebrio molitor Myofibrillar Protein

Author

Xiu Wang, Xiangxiang Ni, Chaoyi Duan, Ruixi Li, Xiao’e Jiang, Mingfeng Xu, and Rongrong Yu

Subjects

T. molitor, myofibrillar protein, ultrasound treatment, structural properties, functional properties, Chemical technology, TP1-1185

Abstract

The objective of this study was to explore the impacts of various ultrasonic powers (0, 300, 500, 700, and 900 W) on the structure and functional attributes of the myofibrillar protein (MP) of Tenebrio molitor. As the ultrasonic intensity escalated, the extraction efficiency and yield of the MP rose, while the particle size and turbidity decreased correspondingly. The reduction in sulfhydryl group content and the increase in carbonyl group content both suggested that ultrasonic treatment promoted the oxidation of the MP to a certain extent, which was conducive to the formation of a denser and more stable gel network structure. This was also affirmed by SEM images. Additionally, the findings of intrinsic fluorescence and FTIR indicated that high-intensity ultrasound significantly altered the secondary structure of the protein. The unfolding of the MP exposed more amino acid residues, the α-helix decreased, and the β-helix improved, thereby resulting in a looser and more flexible conformation. Along with the structural alteration, the surface hydrophobicity and emulsification properties were also significantly enhanced. Besides that, SDS–PAGE demonstrated that the MP of T. molitor was primarily composed of myosin heavy chain (MHC), actin, myosin light chain (MLC), paramyosin, and tropomyosin. The aforementioned results confirmed that ultrasonic treatment could, to a certain extent, enhance the structure and function of mealworm MP, thereby providing a theoretical reference for the utilization of edible insect proteins in the future, deep-processing proteins produced by T. molitor, and the development of new technologies.

Published

2024

8. Ultra-high pressure improved gelation and digestive properties of Tai Lake whitebait myofibrillar protein

Author

Mingfeng Xu, Xiangxiang Ni, Qiwei Liu, Chengcheng Chen, Xiaohong Deng, Xiu Wang, and Rongrong Yu

Subjects

Ultra-high pressure, Physicochemical properties, Gelling properties, In vitro digestion characteristics, Tai Lake whitebait, Myofibrillar protein, Nutrition. Foods and food supply, TX341-641, Food processing and manufacture, TP368-456

Abstract

This study investigated the effects of ultra-high pressure (UHP) at different levels on the physicochemical properties, gelling properties, and in vitro digestion characteristics of myofibrillar protein (MP) in Tai Lake whitebait. The α-helix gradually unfolded and transformed into β-sheet as the pressure increased from 0 to 400 MPa. In addition, the elastic modulus (G') and viscous modulus (G'') of the 400 MPa-treated MP samples increased by 4.8 and 3.8 times, respectively, compared with the control group. The gel properties of the MP also increased significantly after UHP treatment, e.g., the gel strength increased by a 4.8-fold when the pressure reached 400 Mpa, compared with the control group. The results of in vitro simulated digestion showed that the 400 MPa-treated MP gel samples showed a 1.8-fold increase in digestibility and a 69.6 % decrease in digestible particle size compared with the control group.

Published

2024

9. An investigation of magnetic field distribution for assembly of magnets and its effect on alignment of steel fiber in aligned steel fiber-reinforced concrete

Author

Mingfeng Xu, Hui Li, and Ru Mu

Subjects

aligned steel fiber-reinforced concrete, assembled magnets, magnetic field distribution, orientation coefficient, flexural properties, Technology

Abstract

The magnetic field method for preparing aligned steel fiber-reinforced concrete (ASFRC) by solenoid coil has a limitation, which is that the specimen must be placed inside the solenoid coil, limiting its practical engineering application. To overcome this shortcoming, this study proposes a method for preparing ASFRCs using an external magnetic field created by assembled magnets. A theoretical model is proposed to predict the distribution of the external magnetic field and the orientation coefficient of ASFRCs prepared by assembled magnets. The predicted results are compared with the experimental results to verify the proposed model. Finally, flexural tests are used to compare the mechanical characteristics of ASFRCs prepared using assembled magnets and solenoid coil. The results indicate that the assembled magnets can be used to prepare the ASFRC with an orientation coefficient of 0.9 or higher, and the flexural strength is similar to that of the ASFRC prepared by the solenoid coil.

Published

2024

10. TMEM25 inhibits monomeric EGFR-mediated STAT3 activation in basal state to suppress triple-negative breast cancer progression

Author

Jing Bi, Zhihui Wu, Xin Zhang, Taoling Zeng, Wanjun Dai, Ningyuan Qiu, Mingfeng Xu, Yikai Qiao, Lang Ke, Jiayi Zhao, Xinyu Cao, Qi Lin, Xiao Lei Chen, Liping Xie, Zhong Ouyang, Jujiang Guo, Liangkai Zheng, Chao Ma, Shiying Guo, Kangmei Chen, Wei Mo, Guo Fu, Tong-Jin Zhao, and Hong-Rui Wang

Subjects

Science

Abstract

Abstract Triple-negative breast cancer (TNBC) is a subtype of breast cancer with poor outcome and lacks of approved targeted therapy. Overexpression of epidermal growth factor receptor (EGFR) is found in more than 50% TNBC and is suggested as a driving force in progression of TNBC; however, targeting EGFR using antibodies to prevent its dimerization and activation shows no significant benefits for TNBC patients. Here we report that EGFR monomer may activate signal transducer activator of transcription-3 (STAT3) in the absence of transmembrane protein TMEM25, whose expression is frequently decreased in human TNBC. Deficiency of TMEM25 allows EGFR monomer to phosphorylate STAT3 independent of ligand binding, and thus enhances basal STAT3 activation to promote TNBC progression in female mice. Moreover, supplying TMEM25 by adeno-associated virus strongly suppresses STAT3 activation and TNBC progression. Hence, our study reveals a role of monomeric-EGFR/STAT3 signaling pathway in TNBC progression and points out a potential targeted therapy for TNBC.

Published

2023

11. Meta-optics empowered vector visual cryptography for high security and rapid decryption

Author

Fei Zhang, Yinghui Guo, Mingbo Pu, Lianwei Chen, Mingfeng Xu, Minghao Liao, Lanting Li, Xiong Li, Xiaoliang Ma, and Xiangang Luo

Subjects

Science

Abstract

Usual methods for optical encryption suffer from a tradeoff between the level of security and the complexity of operation given by multiple optical measurements or digital postprocessing. Here, the authors show a multi-d.o.f. metasurface-based vector optical manipulation protocol enabling secure decryption in real time.

Published

2023

12. Towards Reliable Utilization of AIGC: Blockchain-Empowered Ownership Verification Mechanism

Author

Chuan Chen, Yihao Li, Zihou Wu, Mingfeng Xu, Rui Wang, and Zibin Zheng

Subjects

Blockchain, copyright, federated learning, ownership, AIGC, Electronic computers. Computer science, QA75.5-76.95, Information technology, T58.5-58.64

Abstract

With the development of the blockchain technology, a decentralized and de-trusted network paradigm has been constructed, enabling multiple digital assets like NFT, to be permanently recorded and authenticated by blockchain. Also, the uniqueness and verifiability of these assets allows them to flow and generate value between any network entities. With the emergence of AI Generative Content (AIGC), the ownership of models and generative contents, which are also digital assets, has not been well protected. Both because the black-box nature of neural networks makes it difficult to mark models' ownership and because the lack of a reliable third-party verification platform. Meanwhile, the existing model-attack threat and raising ethical problems driven the research on model watermark embedding for traceability and verification, and thus the reliable basic algorithm and the verification platform are needed. In this survey, while emphasizing the importance and reason of the ownership protection in AIGC and summarizing the recent research using model watermarking, we will also introduce the achievements of blockchain in copyright in order to summarize the research history and point out future direction of model copyright validation from both the underlying technology and the supporting platform.

Published

2023

13. Crosstalk-free achromatic full Stokes imaging polarimetry metasurface enabled by polarization-dependent phase optimization

Author

Yaxin Zhang, Mingbo Pu, Jinjin Jin, Xinjian Lu, Yinghui Guo, Jixiang Cai, Fei Zhang, Yingli Ha, Qiong He, Mingfeng Xu, Xiong Li, Xiaoliang Ma, and Xiangang Luo

Subjects

metasurface, broadband achromatic, crosstalk-free, full polarization, imaging polarimetry, Optics. Light, QC350-467

Abstract

Imaging polarimetry is one of the most widely used analytical technologies for object detection and analysis. To date, most metasurface-based polarimetry techniques are severely limited by narrow operating bandwidths and inevitable crosstalk, leading to detrimental effects on imaging quality and measurement accuracy. Here, we propose a crosstalk-free broadband achromatic full Stokes imaging polarimeter consisting of polarization-sensitive dielectric metalenses, implemented by the principle of polarization-dependent phase optimization. Compared with the single-polarization optimization method, the average crosstalk has been reduced over three times under incident light with arbitrary polarization ranging from 9 μm to 12 μm, which guarantees the measurement of the polarization state more precisely. The experimental results indicate that the designed polarization-sensitive metalenses can effectively eliminate the chromatic aberration with polarization selectivity and negligible crosstalk. The measured average relative errors are 7.08%, 8.62%, 7.15%, and 7.59% at 9.3, 9.6, 10.3, and 10.6 μm, respectively. Simultaneously, the broadband full polarization imaging capability of the device is also verified. This work is expected to have potential applications in wavefront detection, remote sensing, light-field imaging, and so forth.

Published

2022

14. Metasurface based symmetry transformation for single-shot angular momentum detection within a large mode space

Author

Yixiong Luo, Runzhe Zhang, Yinghui Guo, Mingbo Pu, Xiaoyin Li, Qi Zhang, Fei Zhang, Mingfeng Xu, Rui Zhou, Zeyu Zhao, and Xiangang Luo

Subjects

vortex beam, optical symmetry transformation, angular momentum (AM) detection, spin-decoupled metasurface, propagation and geometric phase, Physics, QC1-999

Abstract

The spin angular momentum (SAM) and orbital angular momentum (OAM) are unique properties of vortex beams and widely used in optical communication and sensing, wherein unambiguous detection of them is of significance. However, the existing methodologies mostly require complicated optical setups, bulky devices, multiple measurements and suffer from limited detection range and ability. Here, we propose a novel angular momentum (AM) detection mechanism that based on optical symmetry transformation for single-shot AM detection within a large mode space. We first give a detailed theoretical derivation and then carry numerical verification. Subsequently, an ultra-compact metasurface is designed so that an OAM mode high up to 150 orders can be determined with a single-shot measurement. Finally, a spin-decoupled metasurface combining the propagation and geometric phase is constructed, which allows simultaneous discrimination of SAM and OAM. Our proposed method may be promising for a wide range of applications in AM measurements and polarization singularity detection.

Published

2023

15. Safety Index, Evaluation Model, and Comprehensive Evaluation Method of Power Information System under Classified Protection 2.0

Author

Gangjun Gong, Qinglin Yuan, Jiaxuan Yang, Bo Zhou, Zeming Lv, Haixia Yang, and Mingfeng Xu

Subjects

classified protection 2.0, electric power information system, analytic hierarchy process, entropy method, TOPSIS, Technology

Abstract

Aiming at the problems of the low integration of the current power information system security assessment method with classified protection 2.0, strong subjectivity, and the vague quantification of objective indexes, this article proposes to establish a safety index system suitable for the electric power information system with the existing safety inspection standards for power systems on the basis of the classified protection 2.0 evaluation system. Additionally, it quantifies each index through a quantitative method combining subjective and objective methods and uses the analytic hierarchy process entropy method to obtain the combined weight of the evaluation index system. Finally, this paper summarizes the expert scores and the graded protection evaluation reports of the six systems into the original data for comprehensive weight calculation and analyzes the rationality of the weight change. The comparison and analysis of the closeness of the TOPSIS (Technique for Order Preference by Similarity to an Ideal Solution) and the evaluation score of the equal guarantee have confirmed the scientificity and rationality of the evaluation model. It provides a reasonable logical idea for the implementation of the classified protection 2.0 system in the power information system.

Published

2023

16. Epicatechin Inhibited Lipid Oxidation and Protein Lipoxidation in a Fish Oil-Fortified Dairy Mimicking System

Author

Zhenghao Lian, Jiahui Han, Yue Cao, Wenhua Yao, Xiaoying Niu, Mingfeng Xu, Jun Xu, and Qin Zhu

Subjects

lipid oxidation, protein lipoxidation, epicatechin, whey protein isolate, Chemical technology, TP1-1185

Abstract

In this study, a typical tea polyphenol epicatechin (EC) was investigated for its impact on the oxidative stability of whey protein isolate (WPI) in a fish oil-fortified emulsion. The oil-in-water emulsion system consisted of fish oil (1%, w/w), WPI (6 mg/mL), and EC (0.1, 1, and 2 mM), and the oxidation reaction was catalyzed by Fenton’s reagent at 25 °C for 24 h. The results showed EC exhibited a dose-dependent activity in the reduction of lipid oxidation (TBARS) and protein carbonylation. A Western blot analysis demonstrated that protein lipoxidation was inhibited by EC via interrupting the covalent binding of lipid secondary oxidation products, MDA, onto proteins. In addition, protein lipoxidation induced a loss of tryptophan fluorescence, and protein hydrolysis was partially recovered by EC. The findings of this study provide an in-depth understanding of the performance of phenolic antioxidants in relieving lipid oxidation and subsequent protein lipoxidation in oil-containing dairy products.

Published

2023

17. Spin-decoupled metasurface for simultaneous detection of spin and orbital angular momenta via momentum transformation

Author

Yinghui Guo, Shicong Zhang, Mingbo Pu, Qiong He, Jinjin Jin, Mingfeng Xu, Yaxin Zhang, Ping Gao, and Xiangang Luo

Subjects

Applied optics. Photonics, TA1501-1820, Optics. Light, QC350-467

Abstract

Abstract With inherent orthogonality, both the spin angular momentum (SAM) and orbital angular momentum (OAM) of photons have been utilized to expand the dimensions of quantum information, optical communications, and information processing, wherein simultaneous detection of SAMs and OAMs with a single element and a single-shot measurement is highly anticipated. Here, a single azimuthal-quadratic phase metasurface-based photonic momentum transformation (PMT) is illustrated and utilized for vortex recognition. Since different vortices are converted into focusing patterns with distinct azimuthal coordinates on a transverse plane through PMT, OAMs within a large mode space can be determined through a single-shot measurement. Moreover, spin-controlled dual-functional PMTs are proposed for simultaneous SAM and OAM sorting, which is implemented by a single spin-decoupled metasurface that merges both the geometric phase and dynamic phase. Interestingly, our proposed method can detect vectorial vortices with both phase and polarization singularities, as well as superimposed vortices with a certain interval step. Experimental results obtained at several wavelengths in the visible band exhibit good agreement with the numerical modeling. With the merits of ultracompact device size, simple optical configuration, and prominent vortex recognition ability, our approach may underpin the development of integrated and high-dimensional optical and quantum systems.

Published

2021

18. Breaking the Cut‐Off Wavelength Limit of GaTe through Self‐Driven Oxygen Intercalation in Air

Author

Renyan Zhang, Yuehua Wei, Yan Kang, Mingbo Pu, Xiong Li, Xiaoliang Ma, Mingfeng Xu, and Xiangang Luo

Subjects

bandgap shrinkage, gallium telluride, oxygen intercalation, photoconductivity, polarization‐sensitivity, Science

Abstract

Abstract Low symmetric two dimensional (2D) semiconductors are of great significance for their potential applications in polarization‐sensitive photodetection and quantum information devices. However, their real applications are limited by their photo‐detecting wavelength ranges, which are restricted by their fundamental optical bandgaps. Recently, intercalation has been demonstrated to be a powerful strategy to modulate the optical bandgaps of 2D semiconductors. Here, the authors report the self‐driven oxygen (O2) intercalation induced bandgap reduction from 1.75 to 1.19 eV in gallium telluride (GaTe) in air. This bandgap shrinkage provides the long‐wavelength detection threshold above ≈1100 nm for O2 intercalated GaTe (referred to as GaTeO2), well beyond the cut‐off wavelength at ≈708 nm for pristine GaTe. The GaTeO2 photodetectors have a high photoresponsivity, and highly anisotropic photodetection behavior to even sub‐waveband radiation. The dichroic ratio (Imax/Imin) of photocurrent is about 1.39 and 2.9 for 600 nm and 1100 nm, respectively. This findings demonstrates a broadband photodetector utilizing GaTe after breaking through its bandgap limitation by self‐driven O2 intercalation in air and further reveal its photoconductivity anisotropic nature. This provides design strategies of 2D materials‐based high‐performance broadband photodetectors for the exploration of polarized state information.

Published

2022

19. A Joint Channel Estimation and Compression Method Based on GAN in 6G Communication Systems

Author

Ying Du, Yang Li, Mingfeng Xu, Jiamo Jiang, and Weidong Wang

Subjects

channel estimation, generative adversarial networks, Technology, Engineering (General). Civil engineering (General), TA1-2040, Biology (General), QH301-705.5, Physics, QC1-999, Chemistry, QD1-999

Abstract

Due to the increasing popularity of communication devices and vehicles, the channel environment becomes more and more complex, which makes conventional channel estimation methods further increase the pilot overhead to maintain estimation performance. However, it declines the throughput of communication networks. In this paper, we provide a novel two-stage based channel estimation method by using generative adversarial networks (GANs) to handle this problem in orthogonal frequency division multiplexing (OFDM) systems. Specifically, the first stage aims to learn the mapping from a low-dimensional latent variable to the real channel sample. During the second stage, an iterative algorithm method is designed to find the optimal latent variable by matching the pilot channels of a real channel and generated channel. Then, the data channels are recovered based on the learned mapping relationship between the latent variable and the real channel sample. The simulation results show that our proposed method can achieve a performance gain of more than 2 dB with a pilot reduction by 75% when SNR is 10 dB, by comparing with the widely used Wiener filter interpolation method. In addition, as the low-dimensional latent variable can be obtained simultaneously, it can also be used for reducing the feedback overhead.

Published

2023

20. A New Power System Source-End Low Carbonization Evaluation System Considering Carbon Control Model

Author

Gangjun Gong, Ren Qiang, Jiaxuan Yang, Rui Hou, Zeming Lv, Mingfeng Xu, Xuesong Liu, and Haixia Yang

Subjects

carbon peaking and carbon neutrality, new power systems, carbon control model, low carbonization evaluation system, indicator combination empowerment, comprehensive evaluation of low carbonization, Technology

Abstract

Under the global goal of “carbon peaking and carbon neutrality”, new power system is facing a new energy development trend of increasing the capacity of new energy and reducing the capacity and quantity of coal power. Furthermore, new power systems are also moving towards new models such as the Energy Internet and energy storage diversification. This paper combines the needs of new power systems’ “source-load interaction” and a differentiated analysis of the specific carbon emission characteristics of each subject of the Energy Internet “source-network-load-storage”. This paper analyzes the energy efficiency coefficient and carbon emission factors of each link of “source-grid-load-storage”. Therefore, the paper proposes a carbon control model for the Energy Internet. This paper focuses on the characteristics of coal power with the largest carbon reduction. Therefore, this article constructs a multi-dimensional low-carbonization evaluation index system for coal-fired power plants. In addition, this article designs a fusion weight calculation method for subjective and objective indicators based on CRITIC-G1. Additionally, this paper uses the ideal solution–gray relational method to evaluate the specified samples. Finally, this article verifies the effectiveness and feasibility of the implementation of the low-carbonization evaluation index system for coal-fired power plants.

Published

2023

21. Effect of Fibre Types on the Tensile Behaviour of Engineered Cementitious Composites

Author

Mingzhang Lan, Jian Zhou, and Mingfeng Xu

Subjects

engineered cementitious composites, tensile behaviour, fibre-bridging behaviour, polyvinyl alcohol fibre, polypropylene fibre, Technology

Abstract

Engineered cementitious composite (ECC) is a group of ultra-ductile fibre-reinforced cementitious composites, characterised by high ductility and moderate content of short discontinuous fibre. The unique tensile strain-hardening behaviour of ECC results from a deliberate design based on the understanding of micromechanics between fibre, matrix, and fibre–matrix interface. To investigate the effect of fibre properties on the tensile behaviour of ECCs is, therefore, the key to understanding the composite mechanical behaviour of ECCs. This paper presents a study on the fibre-bridging behaviour and composite mechanical properties of ECCs with three types of fibres, including oil-coated polyvinyl alcohol (PVA) fibre, untreated PVA fibre, and polypropylene (PP) fibre. The experimental result reveals that various fibres with different properties result in difference in the fibre-bridging behaviour and composite mechanical properties of ECCs. The difference in the composite mechanical properties of ECCs with different fibres was interpreted by analysing the fibre-bridging behaviour.

Published

2021

22. Spoof Plasmonic Metasurfaces with Catenary Dispersion for Two-Dimensional Wide-Angle Focusing and Imaging

Author

Yinghui Guo, Zuojun Zhang, Mingbo Pu, Yijia Huang, Xiong Li, Xiaoliang Ma, Mingfeng Xu, and Xiangang Luo

Subjects

Science

Abstract

Summary: Although tremendous efforts have been devoted to investigating the analogy between the surface plasmon polariton and its spoof counterparts, it remains elusive that a single thin spoof plasmonic metalens realizes wide-angle focusing and wide field-of-view (FOV) imaging. Here, we propose a spoof plasmonic metasurface that can impart arbitrary phase with high transmittance, which comprises two-dimensional (2D) gradient spoof-insulator-spoof waveguides. With the developed catenary field and dispersion theory, their intrinsic physics is theoretically analyzed. As a proof of concept, a spoof plasmonic metalens with a thickness of 0.15λ has been elaborately designed and experimentally demonstrated for wide-angle (∼170°) focusing and wide FOV (∼40°) imaging. To the best of our knowledge, it is the first experimental demonstration of wide FOV imaging of a 2D object with single thin and planar metalens in the microwave regime. The proposed method offers a promising solution to compact cameras, integrated imaging, and detection systems. : Optical Imaging; Electromagnetic Waves; Surface Subject Areas: Optical Imaging, Electromagnetic Waves, Surface

Published

2019

23. Meta-Optics-Empowered Switchable Integrated Mode Converter Based on the Adjoint Method

Author

Yingli Ha, Yinghui Guo, Mingbo Pu, Mingfeng Xu, Xiong Li, Xiaoliang Ma, Fang Zou, and Xiangang Luo

Subjects

switchable mode converter, adjoint method, meta-optics, photonic integrated circuits, Chemistry, QD1-999

Abstract

Monolithic integrated mode converters with high integration are essential to photonic integrated circuits (PICs), and they are widely used in next-generation optical communications and complex quantum systems. It is expected that PICs will become more miniaturized, multifunctional, and intelligent with the development of micro/nano-technology. The increase in design space makes it difficult to realize high-performance device design based on traditional parameter sweeping or heuristic design, especially in the optimal design of reconfigurable PIC devices. Combining the mode coupling theory and adjoint calculation method, we proposed a design method for a switchable mode converter. The device could realize the transmission of TE0 mode and the conversion from TE0 to TE1 mode with a footprint of 0.9 × 7.5 μm2 based on the phase change materials (PCMs). We also found that the mode purity could reach 78.2% in both states at the working wavelength of 1.55 μm. The designed method will provide a new impetus for programmable photonic integrated devices and find broad application prospects in communication, optical neural networks, and sensing.

Published

2022

24. A gastro-colic fistula secondary to high-grade B-cell gastric lymphoma in a patient with AIDS: a case report

Author

Waiian Leong, Mingfeng Xu, Li Ni, Jiajun Su, and Dongye Yang

Subjects

Medicine (General), R5-920

Abstract

To the best of our knowledge, there are no previous reports of a gastro-colic fistula (GCF) secondary to primary high-grade B-cell gastric lymphoma associated with acquired immunodeficiency syndrome (AIDS). Here, we report a 37-year-old man who presented with paroxysmal abdominal pain for 4 months, diarrhea for 15 days and weight loss of 4 kg. He had a history of human immunodeficiency virus (HIV) infection and was diagnosed with AIDS in 2013. The patient was diagnosed with a GCF secondary to primary high-grade B-cell gastric lymphoma by gastroscopy and histopathological examination. Two weeks after diagnosis, he died in another hospital. This is an uncommon case in which the GCF occurred secondary to malignant gastric lymphoma in a patient with AIDS. Supported by the literature, patients with HIV infection who complain of abdominal pain or a mass, severe diarrhea, and weight loss should be assessed for a GCF secondary to lymphoma because of its worse prognosis.

Published

2021

25. Full-Length Transcriptome Analyses of Genes Involved in Triterpenoid Saponin Biosynthesis of Psammosilene tunicoides Hairy Root Cultures With Exogenous Salicylic Acid

Author

Lingye Su, Shufang Li, Hanhan Qiu, Hongfeng Wang, Congcong Wang, Chunmei He, Mingfeng Xu, and Zongshen Zhang

Subjects

salicylic acid, triterpenoid saponins, Psammosilene Tunicoides, full-length transcriptome, hairy root, Genetics, QH426-470

Abstract

Triterpenoid saponins constitute a diverse class of bioactive compounds in medicinal plants. Salicylic acid (SA) is an efficient elicitor for secondary metabolite production, but a transcriptome-wide regulatory network of SA-promoted triterpenoid saponin biosynthesis remains little understood. In the current study, we described the establishment of the hairy root culture system for Psammosilene tunicoides, a triterpenoid saponin-producing medicinal herb in China, using genetic transformation by Agrobacterium rhizogenes. Compared to controls, we found that total saponin content was dramatically increased (up to 2.49-fold) by the addition of 5 mg/L SA in hairy roots for 1 day. A combination of single-molecule real-time (SMRT) and next-generation sequencing (Illumina RNA-seq) was generated to analyze the full-length transcriptome data for P. tunicoides, as well as the transcript profiles in treated (8 and 24 h) and non-treated (0 h) groups with 5 mg/L SA in hairy roots. A total of 430,117 circular consensus sequence (CCS) reads, 16,375 unigenes and 4,678 long non-coding RNAs (lncRNAs) were obtained. The average length of unigenes (2,776 bp) was much higher in full-length transcriptome than that derived from single RNA-seq (1,457 bp). The differentially expressed genes (DEGs) were mainly enriched in the metabolic process. SA up-regulated the unigenes encoding SA-binding proteins and antioxidant enzymes in comparison with controls. Additionally, we identified 89 full-length transcripts encoding enzymes putatively involved in saponin biosynthesis. The candidate transcription factors (WRKY, NAC) and structural genes (AACT, DXS, SE, CYP72A) might be the key regulators in SA-elicited saponin accumulation. Their expression was further validated by quantitative real-time PCR (qRT-PCR). These findings preliminarily elucidate the regulatory mechanisms of SA on triterpenoid saponin biosynthesis in the transcriptomic level, laying a foundation for SA-elicited saponin augmentation in P. tunicoides.

Published

2021

26. Angular-multiplexed multichannel optical vortex arrays generators based on geometric metasurface

Author

Jinjin Jin, Xiong Li, Mingbo Pu, Yinghui Guo, Ping Gao, Mingfeng Xu, Zuojun Zhang, and Xiangang Luo

Subjects

Optics, Optical Materials, Geometrical Optics, Metamaterials, Science

Abstract

Summary: Recently, metasurface-based multichannel optical vortex arrays have attracted considerable interests due to its promising applications in high-dimensional information storage and high-secure information encryption. In addition to the well-known wavelength and polarization multiplexing technologies, the diffraction angle of light is an alternative typical physical dimension for multichannel optical vortex arrays. In this paper, based on angular multiplexing, we propose and demonstrate multichannel optical vortex arrays by using ultrathin geometric metasurface. For a circularly polarized incident light, the desired optical vortex arrays are successfully constructed in different diffraction regions. Moreover, the diffraction angle of the optical vortex array can be regulated by changing the illumination angle of incident light. Capitalizing on this advantage, the angular-multiplexed recombination of optical vortex array is further investigated. The combination of the diffraction angle of light and optical vortex array may have significant potential in applications of optical display, free-space optical communication, and optical manipulation.

Published

2021

27. Abietane Diterpenoids Isolated from Clerodendrum bracteatum and Their Antioxidant and Cytotoxic Activities

Author

Pingting Li, Lingling Li, Qin Zhu, and Mingfeng Xu

Subjects

Clerodendrum bracteatum, abietane diterpene, antioxidant activity, cytotoxic activity, Organic chemistry, QD241-441

Abstract

Two new abietane diterpenoids (1,2), along with five known diterpenoids (3–7), were first isolated and purified from the stems of Clerodendrum bracteatum. The structures of the new compounds were established by extensive analysis of mass spectrometric and 1-D, 2-D NMR spectroscopic data. Their antioxidant activities were determined on DPPH radical scavenging and ABTS. The in vitro cytotoxic activities of the compounds were evaluated against the HL-60 and A549 cell lines by the MTT method.

Published

2021

28. Metasurface spatiotemporal dynamics and asymmetric photonic spin-orbit interactions mediated vector-polarization optical chaos

Author

Mingfeng Xu, Fei Zhang, Mingbo Pu, Xiong Li, Xiaoliang Ma, Yinghui Guo, Renyan Zhang, Minghui Hong, and Xiangang Luo

Subjects

Physics, QC1-999

Abstract

We theoretically investigate metasurface spatiotemporal dynamics by introducing laser chaotic dynamics into metasurface domain. The spatiotemporal dynamics takes advantage of both the time-dependent dynamics of optical chaos and the local spatial regulation capability of metasurface. Specifically, an optical spatiotemporal dynamic phenomenon, termed as vector-polarization optical chaos (VPOC), is demonstrated through asymmetric photonic spin-orbit interactions between all-dielectric metalens and chaotic polarization light from the vertical-cavity surface-emitting laser. The VPOC has spatially inhomogeneous polarization distribution with dynamically varied spatial structure and polarization singularity, while the corresponding intensity time series is temporally chaotic, characterized by positive largest Lyapunov exponent and finite correlation dimension. We found that the two nonlinear indices keep invariant for different polarization-resolved intensity time series due to the circular symmetry of metalens. Our results open an avenue for emerging spatiotemporal optical dynamics with metasurface and may find exciting applications in spatiotemporal light control, free-space secure optical communication, and optical chaos integrated chip.

Published

2021

29. Experimental Demonstration of Fidelity Enhancement for Chaotic Signals in Free-Space Turbulent Channels Utilizing Vector Optical Field Manipulation.

Author

Yiqun Zhang 0008, Mingfeng Xu, Zheng Song, Mengjie Zhou, Jiazheng Ding, Mingbo Pu, Kun Qiu, Ning Jiang 0003, and Xiangang Luo

Published

2024

30. Bioactive Diterpenoids from Clerodendrum kiangsiense

Author

Mingfeng Xu, Shengjia Wang, Ouya Jia, Qin Zhu, and Lu’e Shi

Subjects

Clerodendrum kiangsiense, abeo-abietane diterpenoid, cytotoxicity, Organic chemistry, QD241-441

Abstract

A new abeo-abietane diterpenoid, 12-methoxy-6,11,14,16-tetrahydroxy-17(15→16)-abeo-5,8,11,13-abietatetraen-3,7-dione (8), was isolated from the hydroalcoholic extract of the herb of Clerodendrum kiangsiense along with seven known diterpenoids (1–7). Their structures were identified on the basis of spectroscopic analyses including two-dimensional NMR and comparison with literature data. All of these compounds were evaluated for their cytotoxic activities against the growth of human cancer cells lines HL-60, SMMC-7721, A-549 and MCF-7 by the MTT assay. The results showed that cryptojaponol (4), fortunin E (6) and 8 exhibited significant cytotoxicity against four human cancer cell lines.

Published

2016

31. FedBRB: An Effective Solution to the Small-to-Large Scenario in Device-Heterogeneity Federated Learning.

Author

Ziyue Xu 0002, Mingfeng Xu, Tianchi Liao, Zibin Zheng, and Chuan Chen 0001

Published

2024

32. A Denoising Diffusion Probabilistic Model Based Data Augmentation Method for Wireless Channel.

Author

Mingfeng Xu, Yang Li, Mingyu Li, Houxiao Cui, Jiamo Jiang, and Ying Du

Published

2023

33. Evaluation on User Equipment Chip for Deep Learning based Channel Estimation in 5G Advanced System.

Author

Yichen Zhao, Mingfeng Xu, Yang Li, Jiasong Mu, Jiamo Jiang, and Hengjiang Wang

Published

2023

34. Experimental Demonstration of All-Optical 8-Gbit/s Secure Free-Space Chaotic Communications over 8.2-meter Link Based on Unidirectional Injection-Locking Chaos Synchronization.

Author

Yiqun Zhang 0008, Mingfeng Xu, Qiang Chen, Mengjie Zhou, Shuangcheng Chen, Mingbo Pu, Ning Jiang 0003, Kun Qiu, Martin P. J. Lavery, Hasan T. Abbas, and Xiangang Luo

Published

2023

35. Deep Learning-Based Hybrid Precoding for Terahertz Massive MIMO Communication With Beam Squint.

Author

Qijiang Yuan, Hui Liu, Mingfeng Xu, Yezeng Wu, Lixia Xiao, and Tao Jiang 0002

Published

2023

36. Rethinking the performance of isac system: from efficiency and utility perspectives.

Author

Jiamo Jiang, Mingfeng Xu, Zhongyuan Zhao 0001, Kaifeng Han, Yang Li, Ying Du, and Zhiqin Wang

Published

2022

37. Wideband Channel Measurement and Characterization on a Computer Motherboard.

Author

Yuanbo Li, Guangchao Wang, Guochao Song, Mingfeng Xu, Jiamo Jiang, and Chong Han 0001

Published

2022

38. Optimization of URLLC and eMBB Multiplexing via Deep Reinforcement Learning.

Author

Yang Li, Chunjing Hu, Jun Wang, and Mingfeng Xu

Published

2019

39. Performance Analysis of Computation Offloading in Fog-Radio Access Networks.

Author

Mingfeng Xu, Zhongyuan Zhao 0001, Mugen Peng, Zhiguo Ding 0001, Tony Q. S. Quek, and Wenle Bai

Published

2019

40. Performance Analysis of Outage and Average Sum Rate of Sparse Code Division Multiple Access in Fog Radio Access Networks.

Author

Yi Gu, Mingfeng Xu, Zhendong Mao, Yuan Ai, and Shuqing Bu

Published

2018

41. Cluster Formation with Data-Assisted Channel Estimation in Cloud-Radio Access Networks.

Author

Yourong Ban, Mingfeng Xu, Zhongyuan Zhao 0001, Yong Li 0001, and Zhiguo Ding 0001

Published

2017

42. An Explicit Non-Malleable Extraction Scheme for Quantum Randomness Amplification With Two Untrusted Devices.

Author

Mingfeng Xu, Wei Pan 0008, Lianshan Yan, Bin Luo 0007, XiHua Zou, Liyue Zhang, and Penghua Mu

Published

2018

43. Coverage Performance of NOMA in Wireless Caching Networks.

Author

Zhongyuan Zhao 0001, Mingfeng Xu, Weiliang Xie, Zhiguo Ding 0001, and George K. Karagiannidis

Published

2018

44. A Non-Orthogonal Multiple Access-Based Multicast Scheme in Wireless Content Caching Networks.

Author

Zhongyuan Zhao 0001, Mingfeng Xu, Yong Li 0001, and Mugen Peng

Published

2017

45. Multiple Rotational Doppler Effect Induced by a Single Spinning Meta-Atom

Author

Jun Luo, Yuhui Wang, Mingbo Pu, Fei Zhang, Mingfeng Xu, Xiaoliang Ma, Xiong Li, Cheng Huang, Zuojun Zhang, Lianwei Chen, and Xiangang Luo

Subjects

General Physics and Astronomy

Published

2023

46. Designing high-efficiency extended depth-of-focus metalens via topology-shape optimization

Author

Yuhan Zheng, Mingfeng Xu, Mingbo Pu, Fei Zhang, Di Sang, Yinghui Guo, Xiong Li, Xiaoliang Ma, and Xiangang Luo

Subjects

Electrical and Electronic Engineering, Atomic and Molecular Physics, and Optics, Electronic, Optical and Magnetic Materials, Biotechnology

Abstract

Longitudinal optical field modulation is of critical importance in a wide range of applications, including optical imaging, spectroscopy, and optical manipulation. However, it remains a considerable challenge to realize a uniformly distributed light field with extended depth-of-focus. Here, a high-efficiency extended depth-of-focus metalens is proposed by adjoint-based topology-shape optimization approach, wherein the theoretical electric field intensity corresponding to a variable focal-length phase is utilized as the figure of merit. Using a dozen of metalens with random structure parameters as initial structures, the average focal depth of topology-shape optimized metalens is greatly improved up to 18.80 μm (about 29.7λ), which is 1.54 times higher than the diffraction-limited focal depth. Moreover, all the topology-shape optimized metalens exhibit high diffraction efficiency exceeding 0.7 over the whole focal depth range, which is approximately three times greater than that of the forward design. Our results offer a new insight into the design of extended depth-of-focus metalens and may find potential applications in imaging, holography, and optical fabrication.

Published

2022

47. A Novel Super Sulfated Cement Via Chemical Activation of Anhydrite and Calcium Sulfoaluminate Cement: Hydration Properties and Mechanism

Author

Ken Yang, Zixuan Sun, Jian Zhou, Mingfeng Xu, Kai Wu, Xiaojie Yang, and Linglin Xu

Published

2023

48. Melatonin improves saponin biosynthesis and primary root growth in Psammosilene tunicoides hairy roots through multiple hormonal signaling and transcriptional pathways

Author

Yongli Yu, Hanhan Qiu, Hongfeng Wang, Congcong Wang, Chunmei He, Mingfeng Xu, Wenlong Zhang, Zongshen Zhang, and Lingye Su

Subjects

Agronomy and Crop Science

Published

2023

49. Comparative metabolomic and transcriptomic analyses revealed the differential accumulation of secondary metabolites during the ripening process of acerola cherry ( <scp> Malpighia emarginata </scp> ) fruit

Author

Mingfeng Xu, Chenjia Shen, Changfeng Xue, Yunsheng Xu, Jiangning Hu, Qin Zhu, and Beiwei Zhu

Subjects

Chalcone synthase, food.ingredient, Flavonoid, Ascorbic Acid, Biology, Antioxidants, food, Metabolomics, Gene Expression Regulation, Plant, Food science, Carotenoid, chemistry.chemical_classification, Nutrition and Dietetics, food and beverages, Fatty acid, Ripening, Metabolic pathway, chemistry, Fruit, Malpighia emarginata, biology.protein, Transcriptome, Agronomy and Crop Science, Malpighiaceae, Food Science, Biotechnology

Abstract

Background Acerola cherry is a famous functional fruit containing plentiful antioxidants and other nutrients. However, studies on the variations among nutrients during the ripening process of acerola fruit are scare. Results Comparative metabolomic and transcriptomic analyses were performed and identified 31 331 unigenes and 1896 annotated metabolite features in acerola cherry fruit. K Kyoto Encyclopedia of Genes and Genomes enrichment analysis showed that several antioxidant and nutrient-related metabolic pathways, such as the flavonoids, vitamins, carotenoids, amino acids, and fatty acids metabolic pathways, were significantly changed during the ripening process. The metabolites related to the vitamin, carotenoid, and fatty acid metabolic pathways were downregulated during the ripening process. Several flavonoid biosynthesis-related genes (including dihydroflavonol 4-reductase, chalcone synthase, flavanone 3-hydroxylase, and anthocyanidin synthase), were significantly upregulated, suggesting their essential functions in the accumulation of flavonoids in mature fruit. Conclusion Most of the vitamin and carotenoid metabolism-related metabolites significantly accumulated in immature fruit, suggesting that immature acerola fruit is a good material for the extraction of vitamins and carotenoids. For macronutrients, most of the amino acids accumulated in mature fruit and most of the fatty acids greatly accumulated in immature fruit. Our data revealed the differential accumulation of antioxidants and nutrients during the ripening process of acerola cherry fruit. © 2021 Society of Chemical Industry.

Published

2021

50. Development of a novel material and casting method for in situ construction on Mars

Author

Huamin Meng, Mingfeng Xu, Jian Zhou, Binfeng Xiang, Mingzhang Lan, Xu Dong Zhao, and Hui Li

Subjects

Martian, Materials science, General Chemical Engineering, 02 engineering and technology, Mars Exploration Program, 021001 nanoscience & nanotechnology, Microstructure, Casting, chemistry.chemical_compound, Compressive strength, 020401 chemical engineering, chemistry, Boiling, 0204 chemical engineering, Composite material, 0210 nano-technology, Microwave, Magnetite

Abstract

Using Martian resource to construct a site on Mars is a superior choice to instead of transporting all the construction materials from Earth to the Mas with incredibly high cost. This study proposes a developed Martian concrete composed of sulfur and magnetite, heated by microwave to meet the energy-poor environment on Mars. A lattice Boltzmann model is developed to determine the optimal microwave power and heating time for Martian concrete casting. The compressive strength and microstructure of Martian concrete casted by microwave are measured by test. Finally, a 3D printed device is conceived to prepare Martian concrete and the four-layered specimen is casted to simulate the 3D print process. The results indicate that the compressive strength of Martian concrete casted by microwave can reach 1.78 kgf/mm2 (17.44 MPa) on earth, which is corresponding to 4.62 kgf/mm2 on Mars. Since the heating rate of magnetite under microwave is very high, if possible, the low microwave power and long heating time should be chosen to reduce the temperature gradient in matrix and reduce the possibility of sulfur matrix boiling. In addition, the strength of four-layered (simulated 3D printed) Martian concrete can reach 1.21 kgf/mm2 (11.86 MPa) on earth, which is corresponding to 3.15 kgf/mm2 on Mars.

Published

2021