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158 results on '"Zhao Tianyi"'

1. Conformalized Link Prediction on Graph Neural Networks

Author

Zhao, Tianyi, Kang, Jian, and Cheng, Lu

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

Graph Neural Networks (GNNs) excel in diverse tasks, yet their applications in high-stakes domains are often hampered by unreliable predictions. Although numerous uncertainty quantification methods have been proposed to address this limitation, they often lack \textit{rigorous} uncertainty estimates. This work makes the first attempt to introduce a distribution-free and model-agnostic uncertainty quantification approach to construct a predictive interval with a statistical guarantee for GNN-based link prediction. We term it as \textit{conformalized link prediction.} Our approach builds upon conformal prediction (CP), a framework that promises to construct statistically robust prediction sets or intervals. We first theoretically and empirically establish a permutation invariance condition for the application of CP in link prediction tasks, along with an exact test-time coverage. Leveraging the important structural information in graphs, we then identify a novel and crucial connection between a graph's adherence to the power law distribution and the efficiency of CP. This insight leads to the development of a simple yet effective sampling-based method to align the graph structure with a power law distribution prior to the standard CP procedure. Extensive experiments demonstrate that for conformalized link prediction, our approach achieves the desired marginal coverage while significantly improving the efficiency of CP compared to baseline methods.

Published
2024

2. UniRGB-IR: A Unified Framework for RGB-Infrared Semantic Tasks via Adapter Tuning

Author

Yuan, Maoxun, Cui, Bo, Zhao, Tianyi, Wang, Jiayi, Fu, Shan, and Wei, Xingxing

Subjects
Computer Science - Computer Vision and Pattern Recognition
Abstract

Semantic analysis on visible (RGB) and infrared (IR) images has gained attention for its ability to be more accurate and robust under low-illumination and complex weather conditions. Due to the lack of pre-trained foundation models on the large-scale infrared image datasets, existing methods prefer to design task-specific frameworks and directly fine-tune them with pre-trained foundation models on their RGB-IR semantic relevance datasets, which results in poor scalability and limited generalization. In this work, we propose a general and efficient framework called UniRGB-IR to unify RGB-IR semantic tasks, in which a novel adapter is developed to efficiently introduce richer RGB-IR features into the pre-trained RGB-based foundation model. Specifically, our framework consists of a RGB-based foundation model, a Multi-modal Feature Pool (MFP) module and a Supplementary Feature Injector (SFI) module. The MFP and SFI modules cooperate with each other as an adapter to effectively complement the RGB-based features with the rich RGB-IR features. During training process, we freeze the entire foundation model to inherit prior knowledge and only optimize the proposed adapter. Furthermore, to verify the effectiveness of our framework, we utilize the vanilla vision transformer (ViT-Base) as the pre-trained foundation model to perform extensive experiments. Experimental results on various RGB-IR downstream tasks demonstrate that our method can achieve state-of-the-art performance. The source code and results are available at https://github.com/PoTsui99/UniRGB-IR.git.

Published
2024

4. A Survey on Safe Multi-Modal Learning System

Author

Zhao, Tianyi, Zhang, Liangliang, Ma, Yao, and Cheng, Lu

Subjects
Computer Science - Computers and Society, Computer Science - Artificial Intelligence
Abstract

In the rapidly evolving landscape of artificial intelligence, multimodal learning systems (MMLS) have gained traction for their ability to process and integrate information from diverse modality inputs. Their expanding use in vital sectors such as healthcare has made safety assurance a critical concern. However, the absence of systematic research into their safety is a significant barrier to progress in this field. To bridge the gap, we present the first taxonomy that systematically categorizes and assesses MMLS safety. This taxonomy is structured around four fundamental pillars that are critical to ensuring the safety of MMLS: robustness, alignment, monitoring, and controllability. Leveraging this taxonomy, we review existing methodologies, benchmarks, and the current state of research, while also pinpointing the principal limitations and gaps in knowledge. Finally, we discuss unique challenges in MMLS safety. In illuminating these challenges, we aim to pave the way for future research, proposing potential directions that could lead to significant advancements in the safety protocols of MMLS.

Published
2024

5. Removal then Selection: A Coarse-to-Fine Fusion Perspective for RGB-Infrared Object Detection

Author

Zhao, Tianyi, Yuan, Maoxun, Jiang, Feng, Wang, Nan, and Wei, Xingxing

Subjects
Computer Science - Computer Vision and Pattern Recognition
Abstract

In recent years, object detection utilizing both visible (RGB) and thermal infrared (IR) imagery has garnered extensive attention and has been widely implemented across a diverse array of fields. By leveraging the complementary properties between RGB and IR images, the object detection task can achieve reliable and robust object localization across a variety of lighting conditions, from daytime to nighttime environments. Most existing multi-modal object detection methods directly input the RGB and IR images into deep neural networks, resulting in inferior detection performance. We believe that this issue arises not only from the challenges associated with effectively integrating multimodal information but also from the presence of redundant features in both the RGB and IR modalities. The redundant information of each modality will exacerbates the fusion imprecision problems during propagation. To address this issue, we draw inspiration from the human brain's mechanism for processing multimodal information and propose a novel coarse-to-fine perspective to purify and fuse features from both modalities. Specifically, following this perspective, we design a Redundant Spectrum Removal module to remove interfering information within each modality coarsely and a Dynamic Feature Selection module to finely select the desired features for feature fusion. To verify the effectiveness of the coarse-to-fine fusion strategy, we construct a new object detector called the Removal then Selection Detector (RSDet). Extensive experiments on three RGB-IR object detection datasets verify the superior performance of our method., Comment: 11pages, 10figures

Published
2024

10. Volunteer Service Model in the U.S. National Park and Its Inspiration: A Case Study of Yellowstone National Park

Author

Zhao, Tianyi, Striełkowski, Wadim, Editor-in-Chief, Black, Jessica M., Series Editor, Butterfield, Stephen A., Series Editor, Chang, Chi-Cheng, Series Editor, Cheng, Jiuqing, Series Editor, Dumanig, Francisco Perlas, Series Editor, Al-Mabuk, Radhi, Series Editor, Scheper-Hughes, Nancy, Series Editor, Urban, Mathias, Series Editor, Webb, Stephen, Series Editor, Zhan, Zehui, editor, Liu, Jian, editor, Elshenawi, Dina M., editor, and Duester, Emma, editor

Published
2024
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36. Embracing impermanence: life events, fear of COVID-19 and psychological distress in the context of the postepidemic era: a moderated mediation model.

Author

Fu, Shiyou, Ren, Zhengjia, Yang, Zihao, Li, Zuoshan, Wang, Jing, Zhao, Tianyi, and Huang, Xinwei

Subjects
PSYCHOTHERAPY, STRUCTURAL equation modeling, PSYCHOLOGICAL factors, COVID-19, ANXIETY, PSYCHOLOGICAL distress
Abstract

Objectives: To investigate the relationships between life events and psychological distress in the postepidemic era as well as the effects of fear of COVID-19 (FCV-19) and impermanence on these relationships to enrich the study of the underlying psychological mechanisms of postepidemic psychological distress and to provide a theoretical basis for scientific prevention and intervention in individuals with psychological distress. Methods: A survey of 504 adults (71.3% female; age M = 26.87, SD = 10.70) was conducted via the Social Readjustment Rating Scale, the FCV-19 Scale, the Impermanence Scale, the Anxiety Scale and the Depression Scale, and a structural equation model was established to explore the relationships between variables. Results: The present study revealed the following: (1) there is a significant positive correlation between life events and psychological distress; (2) FCV-19 completely mediates the relationship between life events and psychological distress; and (3) impermanence moderates the mediation, regulating the path by which life events affect FCV-19 and the path by which FCV-19 affects psychological distress. Conclusions: In the postepidemic era, impermanence can effectively mitigate the impact of life events on FCV-19 and the impact of FCV-19 on psychological distress. [ABSTRACT FROM AUTHOR]

Published
2024
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37. Aquatic toxicity and ecological risk of bisphenol B, and comparison with those of bisphenol A.

Author

Wang, Yue, Zhao, Tianyi, Yang, Xianhai, and Liu, Huihui

Subjects
*ZEBRA danio, *ENVIRONMENTAL monitoring, *AQUATIC organisms, *ENVIRONMENTAL management, *WELL-being, *DAPHNIA magna, *BISPHENOL A
Abstract

2,2-bis(4-hydroxyphenyl)butane (BPB), one of the 2,2-bis(4-hydroxyphenyl)propane (BPA) alternatives, has not received sufficient attention so far due to the limited environmental concentration and toxicological data available. In this study, the acute toxicity of BPB was investigated using three aquatic organisms, i.e., Tetradesmus obliquus, Daphnia magna and Danio rerio. It was showed that Daphnia magna was the most sensitive organism with a half effective concentration of 3.93 mg/L. Subsequently, Daphnia magna was exposed to BPB solutions for 21 days to explore its chronic toxicity. Results indicated that BPB restricted the body length of parent Daphnia magna and reduced the total number of broods and neonates. The no-observed effect concentration of BPB to Daphnia magna was as low as 0.01 mg/L, which was two orders of magnitude lower than that of BPA (0.86–5.00 mg/L). Furthermore, the ecological risk of BPB was quantitatively assessed using a risk quotient (RQ) method. The RQ values of BPB ranged from 0.003 to 0.914, with the mean of 0.197. BPB posed a moderate risk at most sampling sites, while BPA posed a low ecological risk with RQ < 0.1 at nearly all the sampling sites. Hence, environmental monitoring and management should also be focused on BPB contamination. [ABSTRACT FROM AUTHOR]

Published
2024
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38. Large‐Area Layered Membranes with Precisely Controlled Nano‐Confined Channels.

Author

Zhou, Can, Zhao, Chuangqi, Nie, Zhidong, Zhou, Tianxu, Kong, Shengwen, Sun, Yingzhi, Qian, Cheng, Zhao, Tianyi, and Liu, Mingjie

Subjects
VALUE orientations, GRAPHENE oxide, METAL ions, SIEVES
Abstract

Two‐dimensional (2D) nanosheets‐based membranes, which have controlled 2D nano‐confined channels, are highly desirable for molecular/ionic sieving and confined reactions. However, it is still difficult to develop an efficient method to prepare large‐area membranes with high stability, high orientation, and accurately adjustable interlayer spacing. Here, we present a strategy to produce metal ion cross‐linked membranes with precisely controlled 2D nano‐confined channels and high stability in different solutions using superspreading shear‐flow‐induced assembly strategy. For example, membranes based on graphene oxide (GO) exhibit interlayer spacing ranging from 8.0±0.1 Å to 10.3±0.2 Å, with a precision of down to 1 Å. At the same time, the value of the orientation order parameter (f) of GO membranes is up to 0.95 and GO membranes exhibit superb stability in different solutions. The strategy we present, which can be generalized to the preparation of 2D nano‐confined channels based on a variety of 2D materials, will expand the application scope and provide better performances of membranes. [ABSTRACT FROM AUTHOR]

Published
2024
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39. Impact of Nano-SiO 2 on the Compressive Strength of Geopolymer-Solidified Expansive Soil.

Author

Hu, Jianlin, Zhao, Tianyi, Jia, Jilong, Guo, Jiangfeng, Yang, Wenlong, Dong, Shaohui, Li, Zhilin, and Gao, Tongtong

Subjects
SWELLING soils, COMPRESSIVE strength, SCANNING electron microscopes, FLY ash, CALCIUM silicates, POLYMER-impregnated concrete
Abstract

Expansive soil is widely distributed and often needs to be improved for engineering and construction needs. Using blast furnace slag and fly ash as precursors and NaOH as an alkali activator, a geopolymer was prepared to solidify expansive soil, and the effect of nano-SiO2 on the compressive strength and water stability of the geopolymer-solidified expansive soil was further studied. The effects of alkali addition ratio, nano-SiO2 addition ratio, and curing agent addition ratio on the unconfined compressive strength and water stability of the cured soil were studied through unconfined compressive strength tests, and the curing mechanism was analyzed by electron microscopy scanning. The experimental results showed that the unconfined compressive strength and water stability of geopolymer-stabilized soil first increased and then decreased with an increase in alkali activator dosage. The optimal dosage of alkali activator was found to be 12.5%. Furthermore, it was found that adding nano-SiO2 can further enhance the strength and water stability of solidified soil. When the content of nano-SiO2 was 3%, the unconfined compressive strength was increased by 15%. With an increase in the content of nano-SiO2 doped polymer (GFNS), the unconfined compressive strength and water stability of the solidified soil showed a trend of first increasing and then decreasing, reaching a peak at a content of 20%. The cementitious materials, such as hydrated calcium silicate and hydrated calcium silicate aluminate, generated by the reaction between nano-SiO2 and geopolymer played a role in bonding and filling in the solidified soil. Under the joint action of the two, the structural arrangement between the solidified soil particles became more compact, which improved the strength of the solidified soil. [ABSTRACT FROM AUTHOR]

Published
2024
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40. Industrial Chain Leader System for green governance: Evidence from a Chinese resource‐based city.

Author

Li, Yingbo, Hong, Zhisheng, Lin, Ziqiu, and Zhao, Tianyi

Subjects
INDUSTRIAL ecology, PUBLIC value, SUSTAINABLE transportation, CARBON cycle, INDUSTRIALIZATION
Abstract

The Chain Leader System (CLS) is a novel concept of industrial development proposed by the Chinese local government. Initially, it was aimed at chain extension, supplementation, and advancement to address the impact of external uncertainties. However, there has been debate about whether political power from CLS will lead to inefficiencies in green governance. This study aims to formalize industrial CLS for green governance. A survey was conducted to assess public acceptance and the validity of CLS in a resource‐based city. The results indicate that CLS, when aligned with green governance goals, effectively corresponds with market rationality and public value. It is evident that CLS represents a collective effort toward effective governance rather than simply extending industrial chains or enhancing resilience. The efficiency of green governance within CLS is influenced by the factors including communication platform, enterprises' carbon sinks and green clustering, citizens' adoption of green transportation, and communication among different stakeholders. This study provides valuable insights for the governments seeking to establish an efficient CLS that aligns with both market principles and well‐functioning government. [ABSTRACT FROM AUTHOR]

Published
2024
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41. On the Use of the Multi-Site Langmuir Model for Predicting Methane Adsorption on Shale.

Author

Wu, Zhe, Ji, Yuan, Zhang, Ke, Jing, Li, and Zhao, Tianyi

Subjects
LANGMUIR isotherms, OIL shales, SHALE gas, SHALE, GAS absorption & adsorption, PORE size distribution
Abstract

Shale gas, mainly consisting of adsorbed gas and free gas, has served a critical role of supplying the growing global natural gas demand in the past decades. Considering that the adsorbed methane has contributed up to 80% of the total gas in place (GIP), understanding the methane adsorption behaviors is imperative to an accurate estimation of total GIP. Historically, the single-site Langmuir model, with the assumption of a homogeneous surface, is commonly applied to estimate the adsorbed gas amount. However, this assumption cannot depict the methane adsorption characteristics due to various compositions and pore sizes of shales. In this work, a multi-site model integrating the energetic heterogeneity in adsorption is derived to predict methane adsorption on shale. Our results show that the multi-site model is capable of addressing the heterogeneity of shales by a wide range of adsorption energy distributions (owing to the complex compositions and different pore sizes), which is different from the single-site model only characterized by single adsorption energy. Consequently, the multi-site model results have better accuracy against the experimental data. Therefore, applying the multi-site Langmuir model for estimating GIP in shales can achieve more accurate results compared with using the traditionally single-site model. [ABSTRACT FROM AUTHOR]

Published
2024
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42. A Recombinant Mosaic HAs Influenza Vaccine Elicits Broad-Spectrum Immune Response and Protection of Influenza a Viruses.

Author

Liu, Xuejie, Luo, Chuming, Yang, Zhuolin, Zhao, Tianyi, Yuan, Lifang, Xie, Qian, Liao, Qijun, Liao, Xinzhong, Wang, Liangliang, Yuan, Jianhui, Wu, Nan, Sun, Caijun, Yan, Huacheng, Luo, Huanle, and Shu, Yuelong

Subjects
SEASONAL influenza, INFLUENZA vaccines, INFLUENZA viruses, INFLUENZA A virus, VACCINE development
Abstract

The annual co-circulation of two influenza A subtypes, H1N1 and H3N2, viruses in humans poses significant public health threats worldwide. However, the continuous antigenic drift and shift of influenza viruses limited the effectiveness of current seasonal influenza vaccines, necessitating the development of new vaccines against both seasonal and pandemic viruses. One potential solution to this challenge is to improve inactivated vaccines by including multiple T-cell epitopes. In this study, we designed stabilized trimeric recombinant mosaic HA proteins named HAm, which contain the most potential HA T-cell epitopes of seasonal influenza A virus. We further evaluated the antigenicity, hemagglutinin activity, and structural integrity of HAm and compared its immunogenicity and efficacy to a commercial quadrivalent inactivated influenza vaccine (QIV) in mice. Our results demonstrated that the HAm vaccine was able to induce broadly cross-reactive antibodies and T-cell responses against homologous, heterologous, and heterosubtypic influenza-naive mice. Additionally, the HAm antigens outperformed QIV vaccine antigens by eliciting protective antibodies against panels of antigenically drifted influenza vaccine strains from 2009 to 2024 and protecting against ancestral viruses' lethal challenge. These results suggest that the HAm vaccine is a promising potential candidate for future universal seasonal and pandemic influenza vaccine development. [ABSTRACT FROM AUTHOR]

Published
2024
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43. Targeting RAC1 reactivates pyroptosis to reverse paclitaxel resistance in ovarian cancer by suppressing P21‐activated kinase 4.

Author

Wu, Jiangchun, Wu, Yong, Zhao, Tianyi, Wang, Xiangwei, Guo, Qinhao, Wang, Simin, Chen, Siyu, Ju, Xingzhu, Li, Jin, Wu, Xiaohua, and Zheng, Zhong

Subjects
PACLITAXEL, PYROPTOSIS, OVARIAN cancer, BOTULINUM toxin, BOTULINUM A toxins, LACTATE dehydrogenase
Abstract

Pyroptosis may play an important role in the resistance of ovarian cancer (OC) to chemotherapy. However, the mechanism by which pyroptosis modulation can attenuate chemotherapy resistance has not been comprehensively studied in OC. Here, we demonstrated that RAS‐associated C3 botulinum toxin substrate 1 (RAC1) is highly expressed in OC and is negatively correlated with patient outcomes. Through cell function tests and in vivo tumor formation tests, we found that RAC1 can promote tumor growth by mediating paclitaxel (PTX) resistance. RAC1 can mediate OC progression by inhibiting pyroptosis, as evidenced by high‐throughput automated confocal imaging, the release of lactate dehydrogenase (LDH), the expression of the inflammatory cytokines IL‐1β/IL‐18 and the nucleotide oligomerization domain‐like receptor family pyrin domain‐containing 3 (NLRP3) inflammasome. Mechanically, RNA‐seq, gene set enrichment analysis (GSEA), coimmunoprecipitation (Co‐IP), mass spectrometry (MS), and ubiquitination tests further confirmed that RAC1 inhibits caspase‐1/gasdermin D (GSDMD)‐mediated canonical pyroptosis through the P21‐activated kinase 4 (PAK4)/mitogen‐activated protein kinase (MAPK) pathway, thereby promoting PTX resistance in OC cells. Finally, the whole molecular pathway was verified by the results of in vivo drug combination tests, clinical specimen detection and the prognosis. In summary, our results suggest that the combination of RAC1 inhibitors with PTX can reverse PTX resistance by inducing pyroptosis through the PAK4/MAPK pathway. [ABSTRACT FROM AUTHOR]

Published
2024
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47. Zhao, Tianyi

Author

Zhao, Tianyi and Zhao, Tianyi

Published
2024

48. Removal and Selection: Improving RGB-Infrared Object Detection via Coarse-to-Fine Fusion

Author

Zhao, Tianyi, Yuan, Maoxun, Jiang, Feng, Wang, Nan, Wei, Xingxing, Zhao, Tianyi, Yuan, Maoxun, Jiang, Feng, Wang, Nan, and Wei, Xingxing

Abstract

Object detection in visible (RGB) and infrared (IR) images has been widely applied in recent years. Leveraging the complementary characteristics of RGB and IR images, the object detector provides reliable and robust object localization from day to night. Most existing fusion strategies directly input RGB and IR images into deep neural networks, leading to inferior detection performance. However, the RGB and IR features have modality-specific noise, these strategies will exacerbate the fused features along with the propagation. Inspired by the mechanism of the human brain processing multimodal information, in this paper, we introduce a new coarse-to-fine perspective to purify and fuse two modality features. Specifically, following this perspective, we design a Redundant Spectrum Removal module to coarsely remove interfering information within each modality and a Dynamic Feature Selection module to finely select the desired features for feature fusion. To verify the effectiveness of the coarse-to-fine fusion strategy, we construct a new object detector called the Removal and Selection Detector (RSDet). Extensive experiments on three RGB-IR object detection datasets verify the superior performance of our method., Comment: 11pages, 11figures

Published
2024

49. UniRGB-IR: A Unified Framework for Visible-Infrared Downstream Tasks via Adapter Tuning

Author

Yuan, Maoxun, Cui, Bo, Zhao, Tianyi, Wei, Xingxing, Yuan, Maoxun, Cui, Bo, Zhao, Tianyi, and Wei, Xingxing

Abstract

Semantic analysis on visible (RGB) and infrared (IR) images has gained attention for its ability to be more accurate and robust under low-illumination and complex weather conditions. Due to the lack of pre-trained foundation models on the large-scale infrared image datasets, existing methods prefer to design task-specific frameworks and directly fine-tune them with pre-trained foundation models on their RGB-IR semantic relevance datasets, which results in poor scalability and limited generalization. In this work, we propose a scalable and efficient framework called UniRGB-IR to unify RGB-IR downstream tasks, in which a novel adapter is developed to efficiently introduce richer RGB-IR features into the pre-trained RGB-based foundation model. Specifically, our framework consists of a vision transformer (ViT) foundation model, a Multi-modal Feature Pool (MFP) module and a Supplementary Feature Injector (SFI) module. The MFP and SFI modules cooperate with each other as an adpater to effectively complement the ViT features with the contextual multi-scale features. During training process, we freeze the entire foundation model to inherit prior knowledge and only optimize the MFP and SFI modules. Furthermore, to verify the effectiveness of our framework, we utilize the ViT-Base as the pre-trained foundation model to perform extensive experiments. Experimental results on various RGB-IR downstream tasks demonstrate that our method can achieve state-of-the-art performance. The source code and results are available at https://github.com/PoTsui99/UniRGB-IR.git.

Published
2024

50. Modeling Snap-Off during Gas–Liquid Flow by Using Lattice Boltzmann Method.

Author

Zhang, Ke, Ji, Yuan, Zhang, Tao, and Zhao, Tianyi

Subjects
LATTICE Boltzmann methods, TWO-phase flow, EQUATIONS of state, PETROLEUM industry, THROAT
Abstract

Understanding the mechanisms of snap-off during gas–liquid immiscible displacement is of great significance in the petroleum industry to enhance oil and gas recovery. In this work, based on the original pseudo-potential lattice Boltzmann method, we improved the fluid–fluid force and fluid–solid force scheme. Additionally, we integrated the Redlich–Kwong equation of state into the lattice Boltzmann model and employed the exact difference method to incorporate external forces within the lattice Boltzmann framework. Based on this model, a pore–throat–pore system was built, enabling gas–liquid to flow through it to investigate the snap-off phenomenon. The results showed the following: (1) The snap-off phenomenon is related to three key factors: the displacement pressure, the pore–throat length ratio, and the pore–throat width ratio. (2) The snap-off phenomenon occurs only when the displacement pressure is within a certain range. When the displacement pressure is larger than the upper limit, the snap-off will be inhibited, and when the pressure is less than the lower limit, the gas–liquid interface cannot overcome the pore–throat and results in a "pinning" effect. (3) The snap-off phenomenon is controlled using the pore–throat structures: e.g., length ratio and the width ratio between pore and throat. It is found that the snap-off phenomenon could easily occur in a "long-narrow" pore–throat system, and yet hardly in a "short-wide" pore–throat system. [ABSTRACT FROM AUTHOR]

Published
2024
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