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988 results on '"Li, Zhenjun"'

1. DiRW: Path-Aware Digraph Learning for Heterophily

Author

Su, Daohan, Li, Xunkai, Li, Zhenjun, Liao, Yinping, Li, Rong-Hua, and Wang, Guoren

Subjects
Computer Science - Machine Learning, Computer Science - Artificial Intelligence
Abstract

Recently, graph neural network (GNN) has emerged as a powerful representation learning tool for graph-structured data. However, most approaches are tailored for undirected graphs, neglecting the abundant information embedded in the edges of directed graphs (digraphs). In fact, digraphs are widely applied in the real world (e.g., social networks and recommendations) and are also confirmed to offer a new perspective for addressing topological heterophily challenges (i.e., connected nodes have complex patterns of feature distribution or labels). Despite recent significant advancements in DiGNNs, existing spatial- and spectral-based methods have inherent limitations due to the complex learning mechanisms and reliance on high-quality topology, leading to low efficiency and unstable performance. To address these issues, we propose Directed Random Walk (DiRW), which can be viewed as a plug-and-play strategy or an innovative neural architecture that provides a guidance or new learning paradigm for most spatial-based methods or digraphs. Specifically, DiRW incorporates a direction-aware path sampler optimized from the perspectives of walk probability, length, and number in a weight-free manner by considering node profiles and topological structure. Building upon this, DiRW utilizes a node-wise learnable path aggregator for generalized messages obtained by our proposed adaptive walkers to represent the current node. Extensive experiments on 9 datasets demonstrate that DiRW: (1) enhances most spatial-based methods as a plug-and-play strategy; (2) achieves SOTA performance as a new digraph learning paradigm., Comment: Under Review

Published
2024

19. Modernization of National Border Biosecurity Defense System

Author

Xu Jianguo, Shu Yuelong, Yi Zaijiong, Tian Zhengan, Li Zhenjun, Wang Xiaoli, Shen Hongbing, and He Yuping

Subjects
biosecurity, public health, national border, prevention and control of infectious diseases, health quarantine, Engineering (General). Civil engineering (General), TA1-2040
Abstract

Strengthening the infectious disease prevention and control system at the frontier ports of China is the top priority of biosecurity considering the frequent outbreak of infectious diseases worldwide. This study analyzed the current status of biosecurity defense capabilities and systems at frontier ports of China from the aspects of biosafety status, sanitary and quarantine lines, and organizational structure for infectious disease prevention and control at ports. It also explored the weaknesses regarding the prevention and control of infectious disease at frontier ports through the comparison with European countries and the United States. Specifically, problems exist, including multi-sector and piecemeal management, decentralized formulation of the infectious disease surveillance and early warning network, deficiency in biosecurity situation perception, and uneven level of port health and quarantine capacities. Furthermore, several suggestions were proposed. First, an inter-departmental mutual-recognition mechanism needs to be established and the normalization of an infectious disease joint prevention and control mechanism should be promoted, thus to enhance information sharing among departments. Second, it is necessary to build infectious disease monitoring sites overseas, establish a mechanism of health and quarantine officers, improve outbound biosecurity risk monitoring by establishing a multipoint-trigger earlywarning mechanism, and actively participate in the international public-health cooperation network. Third, we should strengthen the capacities of port laboratories to detect and identify pathogens, promote the development of testing equipment suitable for frontier port application scenarios, and accelerate the construction of a frontier port biosecurity resource bank.

Published
2023
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31. Study of electron emission from 1D nanomaterials under super high field

Author

Li, Chi, Chen, Ke, Guan, Mengxue, Wang, Xiaowei, Zhou, Xu, Zhai, Feng, Dai, Jiayu, Li, Zhenjun, Sun, Zhipei, Meng, Sheng, Liu, Kaihui, and Dai, Qing

Subjects
Physics - Optics
Abstract

Photoemission driven by a strong electric field of near-infrared or visible light, referred to as strong-field photoemission, produces attosecond electron pulses that are synchronized to the waveform of the incident light, and this principle lies at the heart of current attosecond technologies. However, full access to strong-field photoemission regimes at near-infrared wavelengths based on solid-state materials is restricted by space-charge screening and material damage at high optical-field strengths, which significantly hampers the realization of predicted attosecond technologies, such as ultra-sensitive optical phase modulation. Here, we demonstrate a new type of strong-field photoemission behaviour with extreme nonlinearity -- photoemission current scales follow a 40th power law of the optical-field strength, making use of sub-nanometric carbon nanotubes and 800 nm pulses. As a result, the total photoemission current depends on the carrier-envelope phase with a greatly improved photoemission current modulation depth of up to 100%, which has not previously been achieved. Time-dependent density functional calculations reveal the completely new behaviour of the optical-field induced tunnelling emission process directly from the valence band of the carbon nanotubes, which is an indication of full access to a strong-field photoemission regime. Furthermore, the nonlinear dynamics are observed to be tunable by changing the binding energy of the valence-band-maximum, as confirmed by Simpleman model calculations. We believe that such extreme nonlinear photoemission from nanotips offers a new means of producing extreme temporal-spatial resolved electron pulses. These results additionally provide a new design philosophy for attosecond electronics and optics by making use of tunable band structures in nanomaterials.

Published
2018

47. Ultrafast field-driven monochromatic photoemission from carbon nanotubes

Author

Li, Chi, Zhou, Xu, Zhai, Feng, Li, Zhenjun, Yao, Fengrui, Qiao, Ruixi, Chen, Ke, Cole, Matthew T., Yu, Dapeng, Sun, Zhipei, Liu, Kaihui, and Dai, Qing

Subjects
Physics - Optics, Condensed Matter - Mesoscale and Nanoscale Physics
Abstract

Ultrafast electron pulses, combined with laser-pump and electron-probe technologies, allow for various forms of ultrafast microscopy and spectroscopy to elucidate otherwise challenging to observe physical and chemical transitions. However, the pursuit of simultaneous ultimate spatial and temporal resolution has been largely subdued by the low monochromaticity of the electron pulses and their poor phase synchronization to the optical excitation pulses. State-of-the-art photon-driven sources have good monochromaticity but poor phase synchronization. In contrast, field-driven photoemission has much higher light phase synchronization, due to the intrinsic sub-cycle emission dynamics, but poor monochromaticity. Such sources suffer from larger electron energy spreads (3 - 100 eV) attributed to the relatively low field enhancement of the conventional metal tips which necessitates long pump wavelengths (> 800 nm) in order to gain sufficient ponderomotive potential to access the field-driven regime. In this work, field-driven photoemission from ~1 nm radius carbon nanotubes excited by a femtosecond laser at a short wavelength of 410 nm has been realized. The energy spread of field-driven electrons is effectively compressed to 0.25 eV outperforming all conventional ultrafast electron sources. Our new nanotube-based ultrafast electron source opens exciting prospects for attosecond imaging and emerging light-wave electronics.

Published
2017

48. Multiple Brucella melitensis lineages are driving the human brucellosis epidemic in Shaanxi Province, China: evidence from whole genome sequencing-based analysis.

Author

An, Cuihong, Nie, Shoumin, Luo, Boyan, Zhou, Dijia, Wang, Wenjing, Sun, Yangxin, Fan, Suoping, Liu, Dongli, Li, Zhenjun, Liu, Zhiguo, and Chang, Wenhui

Subjects
BRUCELLA melitensis, WHOLE genome sequencing, SINGLE nucleotide polymorphisms, GENETIC variation, BRUCELLOSIS
Abstract

Introduction: Human brucellosis is a severe public concern in Shaanxi Province, China, and investigating the epidemiological relationship and transmission pattern of B. melitensis is necessary to devise control strategies. Methods: In this study, a conventional bio-typing approach and whole genome sequencing of single-nucleotide polymorphisms (SNPs) were employed to identify 189 strains. Results: Based on the conventional bio-typing, 189 Brucella strains were identified as B. melitensis , of which 14 were in bv. 1, 145 were in bv. 3, and 30 were variant, and the Brucella strains were distributed in all ten cities in Shaanxi Province. SNP analysis was used to identify genetic variation in 189 B. melitensis genomes, and maximum-likelihood was used to generate a phylogeny that identified two clades (A and B) and 19 sequence types (STs). The two clades were highly diverse and exclusively of Eastern Mediterranean origin. Clade B contained 18 STs (2-19), with most isolates originating from a broad swath, implying that multiple B. melitensis lineages circulated in Shaanxi. The 19 STs were composed of 3 to 46 strains isolated from different counties and years, suggesting that multiple cross-county brucellosis outbreak events are driven by multiple B. melitensis lineages. Global phylogenetic analysis revealed that clade A was close to GTIIb, and clade B was placed in the GTIIh lineage, expanding the known diversity of B. melitensis from China. Conclusion: The human brucellosis epidemic in Shaanxi is driven by multiple indigenous circulating B. melitensis lineages, the knowledge of which will contribute to devising a control strategy and providing the foundation for a comprehensive regional phylogeny of this important zoonotic pathogen. [ABSTRACT FROM AUTHOR]

Published
2024
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49. Green-solvent-processed lead-free perovskite solar cells.

Author

He, Linfeng, Zhang, Xin, Chen, Xinyao, Cheng, Jin, Li, Zhenjun, and Li, Junming

Abstract

Tin-based perovskite has been considered as one of the most potential candidates for lead-based perovskite. The solution proceed method was widely utilized in fabricating tin perovskite solar cells. So far, all fabrication processes for tin perovskite solar cells involved toxic organic solvents, which is contrary to the development of environmentally friendly perovskite solar cells. In this study, we report for the first time, by using a mixed green solvent N-diethyl formamide and green 1,3-dimethyl-3,4,5,6-Tetrahydro-2 (1H)-pyrimidinone as precursor solvent, and a green solvent dibutyl ether as antisolvent, a high-quality FA0.75MA0.25SnI3 film was achieved. The optical band gap of the prepared perovskite layer was 1.36 eV, which was close to the ideal band gap. The green-solution-proceed perovskite films showed reduced defect density. As a consequence, the champion green-solution-proceed photovoltaic device achieved a power conversion efficiency of 4.4%. Moreover, it still maintains 80% of the initial efficiency after 600 h of storage in a nitrogen atmosphere. This work would promote the perovskite solar cells from a 'new' technique to a 'new and green' technique. [ABSTRACT FROM AUTHOR]

Published
2024
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