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133 results on '"Huifang Ma"'

1. Surface charge adaptive nitric oxide nanogenerator for enhanced photothermal eradication of drug-resistant biofilm infections

Author

Huifang Ma, Yizhang Tang, Fan Rong, Kun Wang, Tengjiao Wang, and Peng Li

Subjects
Antibacterial, Charge reversal, Photothermal therapy, Gasotransmitter, Biofilm microenvironment, Materials of engineering and construction. Mechanics of materials, TA401-492, Biology (General), QH301-705.5
Abstract

Due to protection of extracellular polymeric substances, the therapeutic efficiency of conventional antimicrobial agents is often impeded by their poor infiltration and accumulation in biofilm. Herein, one type of surface charge adaptable nitric oxide (NO) nanogenerator was developed for biofilm permeation, retention and eradication. This nanogenerator (PDG@Au–NO/PBAM) is composed of a core-shell structure: thermo-sensitive NO donor conjugated AuNPs on cationic poly(dopamine-co-glucosamine) nanoparticle (PDG@Au–NO) served as core, and anionic phenylboronic acid-acryloylmorpholine (PBAM) copolymer was employed as a shell. The NO nanogenerator featured long circulation and good biocompatibility. Once the nanogenerator reached acidic biofilm, its surface charge would be switched to positive after shell dissociation and cationic core exposure, which was conducive for the nanogenerator to infiltrate and accumulate in the depth of biofilm. In addition, the nanogenerator could sustainably generate NO to disturb the integrity of biofilm at physiological temperature, then generate hyperthermia and explosive NO release upon NIR irradiation to efficiently eradicate drug-resistant bacteria biofilm. Such rational design offers a promising approach for developing nanosystems against biofilm-associated infections.

Published
2023
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2. A novel frequency-dependent lattice Boltzmann model with a single force term for electromagnetic wave propagation in dispersive media

Author

Huifang Ma, Mingming Tang, Hao Ren, Wenyue Guo, Kexin Zhang, Yefei Chen, Wanshun Jiang, Ying Wang, and Bin Wu

Subjects
Medicine, Science
Abstract

Abstract Electromagnetic wave simulation is of pivotal importance in the design and implementation of photonic nano-structures. In this study, we developed a lattice Boltzmann model with a single extended force term (LBM-SEF) to simulate the propagation of electromagnetic waves in dispersive media. By reconstructing the solution of the macroscopic Maxwell equations using the lattice Boltzmann equation, the final form only involves an equilibrium term and a non-equilibrium force term. The two terms are evaluated using the macroscopic electromagnetic variables and the dispersive effect, respectively. The LBM-SEF scheme is capable of directly tracking the evolution of macroscopic electromagnetic variables, leading to lower virtual memory requirement and facilitating the implementation of physical boundary conditions. The mathematical consistency of the LBM-SEF with the Maxwell equations was validated by using the Champman-Enskog expansion; while three practical models were used to benchmark the numerical accuracy, stability, and flexibility of the proposed method.

Published
2023
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3. Visible-Light-Driven Z-Type Pg-C3N4/Nitrogen Doped Biochar/BiVO4 Photo-Catalysts for the Degradation of Norfloxacin

Author

Yi Li, Wenyu Wang, Lei Chen, Huifang Ma, Xi Lu, Hongfang Ma, and Zhibao Liu

Subjects
Z-scheme heterojunction, PCN/N-Biochar/BiVO4, photocatalysis, norfloxacin, Technology, Electrical engineering. Electronics. Nuclear engineering, TK1-9971, Engineering (General). Civil engineering (General), TA1-2040, Microscopy, QH201-278.5, Descriptive and experimental mechanics, QC120-168.85
Abstract

Antibiotics cannot be effectively removed by traditional wastewater treatment processes, and have become widespread pollutants in various environments. In this study, a Z-type heterojunction photo-catalyst Pg-C3N4 (PCN)/Nitrogen doped biochar (N-Biochar)/BiVO4 (NCBN) for the degradation of norfloxacin (NOR) was prepared by the hydrothermal method. The specific surface area of the NCBN (42.88 m2/g) was further improved compared to BiVO4 (4.528 m2/g). The photo-catalytic performance of the catalyst was investigated, and the N-Biochar acted as a charge transfer channel to promote carrier separation and form Z-type heterojunctions. Moreover, the NCBN exhibited excellent performance (92.5%) in removing NOR, which maintained 70% degradation after four cycles. The main active substance of the NCBN was •O2−, and the possible degradation pathways are provided. This work will provide a theoretical basis for the construction of heterojunction photo-catalysts.

Published
2024
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4. Effects of brain–Computer interface combined with mindfulness therapy on rehabilitation of hemiplegic patients with stroke: a randomized controlled trial

Author

Pei Wang, Jinyu Liu, Lili Wang, Huifang Ma, Xingyan Mei, and Aihua Zhang

Subjects
stroke, brain-computer interface, mindfulness therapy, limb movement function, quality of life, Psychology, BF1-990
Abstract

AimTo explore the effects of brain–computer interface training combined with mindfulness therapy on Hemiplegic Patients with Stroke.BackgroundThe prevention and treatment of stroke still faces great challenges. Maximizing the improvement of patients’ ability to perform activities of daily living, limb motor function, and reducing anxiety, depression, and other social and psychological problems to improve patients’ overall quality of life is the focus and difficulty of clinical rehabilitation work.MethodsPatients were recruited from December 2021 to November 2022, and assigned to either the intervention or control group following a simple randomization procedure (computer-generated random numbers). Both groups received conventional rehabilitation treatment, while patients in the intervention group additionally received brain–computer interface training and mindfulness therapy. The continuous treatment duration was 5 days per week for 8 weeks. Limb motor function, activities of daily living, mindfulness attention awareness level, sleep quality, and quality of life of the patients were measured (in T0, T1, and T2). Generalized estimated equation (GEE) were used to evaluate the effects. The trial was registered with the Chinese Clinical Trial Registry (ChiCTR2300070382).ResultsA total of 128 participants were randomized and 64 each were assigned to the intervention and control groups (of these, eight patients were lost to follow-up). At 6 months, compared with the control group, intervention group showed statistically significant improvements in limb motor function, mindful attention awareness, activities of daily living, sleep quality, and quality of life.ConclusionBrain–computer interface combined with mindfulness therapy training can improve limb motor function, activities of daily living, mindful attention awareness, sleep quality, and quality of life in hemiplegic patients with stroke.ImpactThis study provides valuable insights into post-stroke care. It may help improve the effect of rehabilitation nursing to improve the comprehensive ability and quality of life of patients after stroke.Clinical review registrationhttps://www.chictr.org.cn/, identifier ChiCTR2300070382.

Published
2023
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5. Perfect narrowband circular dichroism based on intrinsic chiral dual quasi-bound states in the continuum in terahertz metasurfaces

Author

Huiyun Zhang, Kun Wang, Zhenkai Li, Huifang Ma, Meng Liu, and Yuping Zhang

Subjects
Circular dichroism, Bound states in the continuum, Terahertz metasurface, Narrowband chirality, Physics, QC1-999
Abstract

Circular dichroism (CD) of chiral structures has wide applications in ultra-sensitive biosensing, wavefront manipulation, and other fields. However, 3D chiral structures require a complex fabrication process, and 2D non-intrinsic chiral structures are difficult to achieve narrow-band perfect CD. Here we proposed a tilted cylindrical structure of a terahertz intrinsic chiral metasurface. Through energy band calculation, topological analysis, multipole decomposition and other research methods, we have realized the separation and merging of topological charges, the degeneracy of modes with opposite polarizations, the free selection of mode eigenstates, and the perfect CD with ultra-high quality (Q) factor. In the study of narrowband chirality, the Q-factor reaches 6822 and the CD reaches 0.99. In addition, both bound states in the continuum (BICs) of the structure exhibit CD at the same time, with Q-factors of 862 and 2673 and CD of –0.98 and 0.98 for the two BICs, respectively. Our work provides new solutions for the study of terahertz narrowband chirality and spin-selective asymmetric transport.

Published
2023
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6. Study on semi-bionic extraction of Astragalus polysaccharide and its anti-aging activity in vivo

Author

Xinlei Yan, Jing Miao, Bao Zhang, Huan Liu, Huifang Ma, Yufei Sun, Pufang Liu, Xiujuan Zhang, Ruigang Wang, Juntao Kan, Feiyun Yang, and Qiming Wu

Subjects
Astragalus polysaccharide, separation, purification, antioxidant, anti-aging, D-galactose, Nutrition. Foods and food supply, TX341-641
Abstract

Astragalus membranaceus (A. membranaceus) is a homologous plant with high medicinal and edible value. Therefore, the extraction methods of Astragalus polysaccharide (APS) have attracted the attention of many research groups, but the yield of the active components is still not high. The aim of this study was to extract APS by a semi-bionic extraction method, optimize the extraction process, and evaluate the anti-aging activities of APS in vivo. The results showed that the APS yield was 18.23% when extracted by the semi-bionic extraction method. Anti-aging evaluation in rats showed that APS extracted by this method significantly decreased the malondialdehyde (MDA) content and increased superoxide dismutase (SOD) activity to cope with D-galactose-induced aging. Serum metabolomic analysis indicated that a total of 48 potential biomarkers showed significant differences, mainly involving 5 metabolic pathways. These altered metabolic pathways were mainly related to energy metabolism, amino acid metabolism, and lipid metabolism. These results indicated that the semi-bionic extraction method can effectively improve the yield of APS, and the extracted APS exhibited anti-aging activity in rats. Our study provided a novel and effective method to extract APS and indicated that APS can be used as functional food and natural medicine to delay aging and prevent its complications.

Published
2023
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7. Efficient Identification of Crude Oil via Combined Terahertz Time-Domain Spectroscopy and Machine Learning

Author

Fan Yang, Huifang Ma, Haiqing Huang, and Dehua Li

Subjects
crude oil, terahertz time-domain spectroscopy, principal component analysis, convolution neural network, Applied optics. Photonics, TA1501-1820
Abstract

The quality of crude oil varies significantly according to its geographical origin. The efficient identification of the source region of crude oil is pivotal for petroleum trade and processing. However, current methods, such as mass spectrometry and fluorescence spectroscopy, suffer problems such as complex sample preparation and a long characterization time, which restrict their efficiency. In this work, by combining terahertz time-domain spectroscopy (THz-TDS) and a machine learning analysis of the spectra, an efficient workflow for the accurate and fast identification of crude oil was established. Based on THz-TDS of 83 crude oil samples obtained from six countries, a machine learning protocol involving the dimension reduction of spectra and classification was developed to identify the geological origins of crude oil, with an overall accuracy of 96.33%. This work demonstrates that THz spectra combined with a modern numerical scheme analysis can be readily employed to categorize crude oil products efficiently.

Published
2024
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8. The multiscale 3D convolutional network for emotion recognition based on electroencephalogram

Author

Yun Su, Zhixuan Zhang, Xuan Li, Bingtao Zhang, and Huifang Ma

Subjects
BCI, emotion recognition, EEG, 3D CNN, spatiotemporal features, deep learning, Neurosciences. Biological psychiatry. Neuropsychiatry, RC321-571
Abstract

Emotion recognition based on EEG (electroencephalogram) has become a research hotspot in the field of brain-computer interfaces (BCI). Compared with traditional machine learning, the convolutional neural network model has substantial advantages in automatic feature extraction in EEG-based emotion recognition. Motivated by the studies that multiple smaller scale kernels could increase non-linear expression than a larger scale, we propose a 3D convolutional neural network model with multiscale convolutional kernels to recognize emotional states based on EEG signals. We select more suitable time window data to carry out the emotion recognition of four classes (low valence vs. low arousal, low valence vs. high arousal, high valence vs. low arousal, and high valence vs. high arousal). The results using EEG signals in the DEAP and SEED-IV datasets show accuracies for our proposed emotion recognition network model (ERN) of 95.67 and 89.55%, respectively. The experimental results demonstrate that the proposed approach is potentially useful for enhancing emotional experience in BCI.

Published
2022
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9. Controlled Synthesis of Ultrathin PtSe2 Nanosheets with Thickness‐Tunable Electrical and Magnetoelectrical Properties

Author

Huifang Ma, Qi Qian, Biao Qin, Zhong Wan, Ruixia Wu, Bei Zhao, Hongmei Zhang, Zucheng Zhang, Jia Li, Zhengwei Zhang, Bo Li, Lin Wang, and Xidong Duan

Subjects
2D materials, carrier mobility, chemical vapor deposition, Kondo effect, negative magnetoresistance, Science
Abstract

Abstract Thickness‐dependent chemical and physical properties have gained tremendous interest since the emergence of two‐dimensional (2D) materials. Despite attractive prospects, the thickness‐controlled synthesis of ultrathin nanosheets remains an outstanding challenge. Here, a chemical vapor deposition (CVD) route is reported to controllably synthesize high‐quality PtSe2 nanosheets with tunable thickness and explore their thickness‐dependent electronic and magnetotransport properties. Raman spectroscopic studies demonstrate all Eg, A1g, A2u, and Eu modes are red shift in thicker nanosheets. Electrical measurements demonstrate the 1.7 nm thick nanosheet is a semiconductor with room temperature field‐effect mobility of 66 cm2 V−1 s−1 and on/off ratio of 106. The 2.3–3.8 nm thick nanosheets show slightly gated modulation with high field‐effect mobility up to 324 cm2 V−1 s−1 at room‐temperature. When the thickness is over 3.8 nm, the nanosheets show metallic behavior with conductivity and breakdown current density up to 6.8 × 105 S m–1 and 6.9 × 107 A cm−2, respectively. Interestingly, magnetoresistance (MR) studies reveal magnetic orders exist in this intrinsically non‐magnetic material system, as manifested by the thickness‐dependent Kondo effect, where both metal to insulator transition and negative MR appear upon cooling. Together, these studies suggest that PtSe2 is an intriguing system for both developing novel functional electronics and conducting fundamental 2D magnetism study.

Published
2022
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10. Spatiotemporal Variation in the Land Use/Cover of Alluvial Fans in Lhasa River Basin, Qinghai–Tibet Plateau

Author

Tongde Chen, Juying Jiao, Wei Wei, Jianjun Li, Ziqi Zhang, Haizhen Yang, and Huifang Ma

Subjects
alluvial fan, land use/cover changing, Lhasa River Basin, Qinghai–Tibet Plateau, Agriculture (General), S1-972
Abstract

Alluvial fans are an important land resource with agricultural potential in Qinghai–Tibet Plateau. The spatiotemporal variation in land use/cover is an important indicator to understand the value of alluvial fans and protect and make scientific use of such fans. In this study, the spatiotemporal characteristics of land use/cover are determined by analysing the land use/cover changes of alluvial fans in the Lhasa River Basin (LRB) at different times, counties/districts, altitudes, and gradients. Results show that the area of cultivated land and the artificial land provided by alluvial fans for LRB has continuously increased. In 2000, 2010, and 2020, 17.72%, 21.84%, and 24.17% of cultivated land and 7.89%, 7.51%, and 25.24% of artificial land in LRB were provided by alluvial fans, respectively. At all altitudes and slopes, cultivated land and artificial land are increasing but the increasing part is basically due to the massive loss of grassland. The spatiotemporal changes in all land use/cover types of alluvial fans were dominated by human activities, although they were also influenced by natural factors to some degree.

Published
2023
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11. A New Lattice Boltzmann Scheme for Photonic Bandgap and Defect Mode Simulation in One-Dimensional Plasma Photonic Crystals

Author

Huifang Ma, Bin Wu, Liping Song, Hao Ren, Wanshun Jiang, Wenyue Guo, and Mingming Tang

Subjects
lattice Boltzmann method, plasma media, plasma photonic crystal, electromagnetic wave propagation, Applied optics. Photonics, TA1501-1820
Abstract

A novel lattice Boltzmann method (LBM) with a pseudo-equilibrium potential is proposed for electromagnetic wave propagation in one-dimensional (1D) plasma photonic crystals. The final form of the LBM incorporates the dispersive effect of plasma media with a pseudo-equilibrium potential in the equilibrium distribution functions. The consistency between the proposed lattice Boltzmann scheme and Maxwell’s equations was rigorously proven based on the Chapman–Enskog expansion technique. Based on the proposed LBM scheme, we investigated the effects of the thickness and relative dielectric constant of a defect layer on the EM wave propagation and defect modes of 1D plasma photonic crystals. We have illustrated that several defect modes can be tuned to appear within the photonic bandgaps. Both the frequency and number of the defect modes could be tuned by changing the relative dielectric constant and thickness of the defect modes. These strategies would assist in the design of narrowband filters.

Published
2022
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46. Contactless Services: A Survey of the Practices of Large Public Libraries in China.

Author

Yajun Guo, Zinan Yang, Yiming Yuan, Huifang Ma, and Yan Quan Liu

Subjects
REMOTE access networks, ONLINE information services, BLOCKCHAINS, SOCIAL networks, MOBILE apps, INTERVIEWING, ARTIFICIAL intelligence, DESCRIPTIVE statistics, CLOUD computing, OCCUPATIONAL adaptation, CONTENT analysis, LIBRARIANS, PUBLIC libraries, COVID-19 pandemic, DIFFUSION of innovations, INFORMATION technology, WORLD Wide Web
Abstract

Contactless services have become a common way for public libraries to provide services. As a result, the strategy used by public libraries in China will effectively stop the spread of epidemics caused by human touch and will serve as a model for other libraries throughout the world. The primary goal of this study is to gain a deeper understanding of the contactless service measures provided by large Chinese public libraries for users in the pandemic era, as well as the challenges and countermeasures for providing such services. The data for this study was obtained using a combination of website investigation, content analysis, and telephone interviews for an analytical survey study of 128 large public libraries in China. The study finds that touch-free information dissemination, remote resources use, no-touch interaction self-services, network services, online reference, and smart services without personal interactions are among the contactless services available in Chinese public libraries. Exploring the current state of contactless services in large public libraries in China will help to fill a need for empirical attention to contactless services in libraries and the public sector. Up-to-date information to assist libraries all over the world in improving their contactless services implementation and practices is provided. [ABSTRACT FROM AUTHOR]

Published
2022
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47. Semi-Empirical model to retrieve finite temperature terahertz absorption spectra using Morse potential

Author

Huifang Ma, Yanzhao Yang, Heng Jing, Wanshun Jiang, Wenyue Guo, and Hao Ren

Subjects
Physical and Theoretical Chemistry
Abstract

Terahertz (THz) absorption is a fingerprint property of materials, due to the underlying low-frequency vibration/phonon modes being strongly dependent on the chemical constitutions and microscopic structures. The low excitation energies (0.414−41.4 meV) are related to two intrinsic properties of THz vibrations: the potential energy surfaces (PESs) are shallow, and the vibrationally excited states are usually populated via thermal fluctuations. The shallow PESs make the vibrations usually anharmonic, leading to redshifted vibrational excited state absorption; combined with considerable vibrational excited states population, characteristic THz signals are usually redshifted and congested with varying degrees at different temperatures. Combining existing experimental THz spectra at low temperatures, first principles vibration analysis, and the Morse potential, we developed a semi-empirical model to evaluate the anharmonicity of the low-frequency modes. The model was benchmarked with purine molecular crystal to generate THz spectra at different temperatures, the results were consistent with experiments. The good agreement suggests this model would facilitate the application of THz spectroscopy in molecular crystal characterization.

Published
2023

48. Thickness-dependent excitonic properties of WSe2/FePS3 van der Waals heterostructures

Author

Xu Zhang, Chunli Wang, Zhenwei Ou, Xiaohong Jiang, Jinlian Chen, Huifang Ma, Chenyang Zha, Wei Wang, Linghai Zhang, Ti Wang, and Lin Wang

Subjects
General Materials Science
Abstract

The PL quenching effect and carrier decay rate of WSe2–FePS3 heterostructures become more obvious as the FePS3 thickness increases, revealing that 2D magnets can be used to change the optical performance of conventional 2D semiconductors.

Published
2023

49. First principles terahertz spectroscopy of molecular crystals: the crucial role of periodic boundary conditions benchmarked with experimental <scp>l</scp>-ascorbic acid spectra

Author

Ying Wang, Huifang Ma, Yanzhao Yang, Jiantao Qi, Guiming Zhang, Hao Ren, and Wenyue Guo

Subjects
General Physics and Astronomy, Physical and Theoretical Chemistry
Abstract

An appropriate periodic boundary condition is essential to correctly assign and analyze the THz vibration spectra of molecular crystals.

Published
2023

50. Low Skeletal Muscle Area at the T12 Paravertebral Level as a Prognostic Marker for Community-Acquired Pneumonia

Author

Lina, Sun, Huifang, Ma, Guohui, Du, Dongmei, Fan, Junru, Liu, Xing, Wang, Weinan, Zhang, Bowei, Liu, and Fuzai, Yin

Subjects
Community-Acquired Infections, Albumins, Creatinine, Humans, Radiology, Nuclear Medicine and imaging, Pneumonia, Muscle, Skeletal, Prognosis, Severity of Illness Index, Retrospective Studies
Abstract

This study aimed to investigate whether the dorsal skeletal muscle area at 12th thoracic level (T12SMA) could be used as a predictor of in-hospital mortality and long-term survival among patients with community-acquired pneumonia (CAP).A retrospective study was conducted on 1701 CAP patients who underwent chest computed tomography (CT) examinations at the First Hospital of Qinhuangdao. The primary outcome was in-hospital mortality. The T12SMA was analyzed. Multivariate regression logistic models were constructed to identify the prognostic markers of hospital mortality. Cox regression logistic models were constructed to identify the risk factors of long-term survival.The multiple logistic regression analysis showed that T12SMA [odds ratio (OR) = 0.946; p = 0.007], CURB-65 (OR = 1.521; p = 0.008), creatinine (OR = 1.003; p = 0.001), albumin (OR = 0.908; p = 0.001) and intensive care unit (ICU) (OR = 2.715; p = 0.007) were independent risk factors for predicting the in-hospital mortality. The cox regression logistic analysis showed that T12SMA (OR = 0.968; p = 0.000), age (OR= 1.036; p = 0.000), sex (OR= 1.435; p = 0.002), CURB-65 (OR = 1.311; p = 0.000), albumin (OR = 0.952; p = 0.000), creatinine (OR = 1.002; p = 0.000) and ICU (OR = 1.606; p = 0.001) were prognostic markers of long-term survival.T12SMA, CURB-65, creatinine, albumin and ICU were independent risk factors for in-hospital mortality among patients with CAP. And low T12SMA affected the in-hospital mortality and long-term survival of patients with CAP.

Published
2022

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