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256 results on '"Shen, Jinglin"'

1. ROIFormer: Semantic-Aware Region of Interest Transformer for Efficient Self-Supervised Monocular Depth Estimation

Author

Xing, Daitao, Shen, Jinglin, Ho, Chiuman, and Tzes, Anthony

Subjects
Computer Science - Computer Vision and Pattern Recognition
Abstract

The exploration of mutual-benefit cross-domains has shown great potential toward accurate self-supervised depth estimation. In this work, we revisit feature fusion between depth and semantic information and propose an efficient local adaptive attention method for geometric aware representation enhancement. Instead of building global connections or deforming attention across the feature space without restraint, we bound the spatial interaction within a learnable region of interest. In particular, we leverage geometric cues from semantic information to learn local adaptive bounding boxes to guide unsupervised feature aggregation. The local areas preclude most irrelevant reference points from attention space, yielding more selective feature learning and faster convergence. We naturally extend the paradigm into a multi-head and hierarchic way to enable the information distillation in different semantic levels and improve the feature discriminative ability for fine-grained depth estimation. Extensive experiments on the KITTI dataset show that our proposed method establishes a new state-of-the-art in self-supervised monocular depth estimation task, demonstrating the effectiveness of our approach over former Transformer variants., Comment: Camera Ready for AAAI 2023

Published
2022

9. Fabrication of Color-Tunable Gold Nanoclusters and Their Application for Information Encryption.

Author

Zhou, Fengjie, Fu, Jing, Yang, Mengqi, Shen, Jinglin, and Qi, Wei

Abstract

The unique luminescence properties of gold nanoclusters (AuNCs) have attracted intense research interest in multiple areas. However, most AuNCs exhibit only a single-color emission. Achieving color-tunable emission through single AuNCs is attractive but still challenging. Herein, a switchable fluorescence strategy was introduced by integrating an aggregation-caused quenching (ACQ)-type ligand into an aggregation-induced emission (AIE)-type nanocluster system. In the AIE/ACQ strategy, 4,6-diamino-2-pyrimidinethiol (DPT)-AuNCs with color-tunable emission were developed: in the dimethylformamide (DMF)/water system, the DPT-AuNCs were dissociated and blue fluorescence was obtained, whereas in the MeOH/water system, DPT-AuNCs aggregated and strong orange phosphorescence was obtained. The emission color from orange to blue could also be switched by adjusting the solvent composition. Based on this strategy, the color-tunable AuNCs system was further employed for dynamic information encryption. [ABSTRACT FROM AUTHOR]

Published
2024
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10. Gold Nanoclusters Whose Photoluminescent Properties are Dynamically Tunable by Modulating the Assembly Pathway Complexity.

Author

Shen, Jinglin, Zhou, Fengjie, Yu, You, Zhang, Ensheng, Qi, Wei, and Zhang, Yongjie

Subjects
*GOLD clusters, *OPTICAL materials, *INFRARED spectroscopy, *ISOMERISM, *HYDROGEN bonding, *ISOPROPYL alcohol
Abstract

Modulating the assembly pathway is an indispensable strategy for optimizing the performance of optical materials. However, implementing this strategy is nontrivial for metal nanocluster building blocks, due to the limited functional modification of nanoclusters and complexity of their emission mechanism. In this report, we demonstrate that a gold nanocluster modified by 4,6‐diamino‐2‐pyrimidinethiol (DPT‐AuNCs) self‐assembles into two distinct aggregation structures in methanol (MeOH)/water mixed solvent, thus exhibiting pathway complexity. Kinetic studies show that DPT‐AuNCs firstly assembles into non‐luminescent nanofibers (kinetically controlled), which further transforms into strongly luminescent microflowers (thermodynamically controlled). In‐depth analysis of the assembly mechanism reveals that the transformation of aggregation structures involves the disassembly of nanofibers and a subsequent nucleation‐growth process. Temperature‐dependent photoluminescence (PL) spectroscopy and infrared (IR) measurements reveal that inter‐cluster hydrogen bonding bridged by solvent molecules and C−H⋅⋅⋅π interaction are the key factors for emission enhancement. The photoluminescent property of DPT‐AuNCs can be controlled by varying the cosolvent in water, enabling DPT‐AuNCs to distinguish different kind of alcohols, particularly the isomerism n‐propanol (NPA) and isopropanol (IPA). Additionally, the addition of seeds effectively regulate the assembly kinetics of DPT‐AuNCs. This study advances our understanding of assembly pathways and improves the luminescent performance of nanoclusters (NCs). [ABSTRACT FROM AUTHOR]

Published
2024
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12. List of contributors

Author

Abdel-Karim, Randa, primary, Alex, Ansu Mary, additional, Anthony, Ancy Milrad, additional, Antoine, Rodolphe, additional, Appukuttan, Saritha, additional, Babaee, Elaheh, additional, Bhattacharya, Jaydeep, additional, Bheemaraju, Amarnath, additional, Bhunia, Soumyadip, additional, Chen, Wei, additional, Costa-Fernandez, Jose M., additional, Cyriac, Jobin, additional, Das, Tarasankar, additional, Fereja, Shemsu Ligani, additional, Fernandez, Beatriz, additional, Fernandez-Arguelles, Maria T., additional, Gandhi, Harsh A, additional, Goswami, Tapas, additional, Hosseini, Morteza, additional, Jayan, Jitha S, additional, Jayasree, Ramapurath S., additional, Joseph, Joshy, additional, Joseph, Kuruvilla, additional, Kalarikkal, Nandakumar, additional, Kanangat Saraswathi, Sajena, additional, Kang, Xi, additional, Kefayat, Amirhosein, additional, Kudahi, Saeed Nazari, additional, Kundu, Sarathi, additional, Kuruvila Manayani, Mathews, additional, Kuruvilla, Kitty Joseph, additional, Kushwaha, Deepak, additional, Liu, Honglin, additional, Lores-Padin, Ana, additional, Mathew, Meegle S., additional, Molaabasi, Fatemeh, additional, Moulick, Ranjita Ghosh, additional, Murugan, Ramadurai, additional, Nair, Lakshmi V., additional, Nair, Resmi V., additional, Packirisamy, Vinitha, additional, Pandit, Subhankar, additional, Pandurangan, Prabhu, additional, Pebdeni, Azam Bagheri, additional, Pereiro, Rosario, additional, Purkayastha, Pradipta, additional, Redondo-Fernandez, Guillermo, additional, Shen, Jinglin, additional, Soldado, Ana B., additional, Sun, Di, additional, Tarokh, Afrooz, additional, Thomas, Sabu, additional, Tomy, Ann Mary, additional, Vijayamma, Raji, additional, Xin, Xia, additional, Yang, Lina, additional, Yuan, Shiling, additional, Zhang, Sanjun, additional, Zhao, Yu, additional, Zhou, Huangmei, additional, and Zhu, Manzhou, additional

Published
2022
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45. A Colorimetric Paper Sensor Based on Self‐assembled Nanocomposite Pd−Pt@hemin‐rGO/CNTs‐COOH for the Detection of H2O2.

Author

Li, Yanyu, Zhang, Xiaoyue, Shen, Jinglin, and Qi, Wei

Subjects
PLATINUM nanoparticles, NANOCOMPOSITE materials, DETECTORS, CARBON nanotubes, HEMIN, NANOPARTICLES
Abstract

Nanocomposite enzymes are attracting intensive attention worldwide. In the present study, a novel colorimetric H2O2 paper sensor was developed based on a new type of nanocomposites composed of Pd−Pt nanoparticles, hemin functionalized reduced graphene oxide (hemin‐rGO) and carboxylated carbon nanotubes (CNTs‐COOH). The proposed nanocomposites show a high peroxidase‐like activity. It provides a sensitive platform showing a linear response toward H2O2 in the range of 0.05–500 μM with a determination limit of 0.01 μM. Based on this, the composites were applied to construct a paper sensor for H2O2 detection in real samples. The cost‐effectiveness, simplicity and efficiency of this paper sensor could be developed for "point‐of‐care" analysis and other related areas. [ABSTRACT FROM AUTHOR]

Published
2023
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