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21 results on '"Zhong, Jiarui"'

1. DocEDA: Automated Extraction and Design of Analog Circuits from Documents with Large Language Model

Author

Chen, Hong Cai, Wu, Longchang, Gao, Ming, Shen, Lingrui, Zhong, Jiarui, and Xu, Yipin

Subjects
Computer Science - Hardware Architecture, Computer Science - Artificial Intelligence, Computer Science - Computation and Language
Abstract

Efficient and accurate extraction of electrical parameters from circuit datasheets and design documents is critical for accelerating circuit design in Electronic Design Automation (EDA). Traditional workflows often rely on engineers manually searching and extracting these parameters, which is time-consuming, and prone to human error. To address these challenges, we introduce DocEDA, an automated system that leverages advanced computer vision techniques and Large Language Models (LLMs) to extract electrical parameters seamlessly from documents. The layout analysis model specifically designed for datasheet is proposed to classify documents into circuit-related parts. Utilizing the inherent Chain-of-Thought reasoning capabilities of LLMs, DocEDA automates the extraction of electronic component parameters from documents. For circuit diagrams parsing, an improved GAM-YOLO model is hybrid with topology identification to transform diagrams into circuit netlists. Then, a space mapping enhanced optimization framework is evoked for optimization the layout in the document. Experimental evaluations demonstrate that DocEDA significantly enhances the efficiency of processing circuit design documents and the accuracy of electrical parameter extraction. It exhibits adaptability to various circuit design scenarios and document formats, offering a novel solution for EDA with the potential to transform traditional methodologies.

Published
2024

10. A GalNAc-modified CaCO3 nano-immunomodulator for targeted and responsive immunotherapy against orthotopic liver cancer.

Author

Li, Yanhua, Yin, Jiaqi, Zhong, Jiarui, Pan, Wei, Li, Na, and Tang, Bo

Subjects
IMMUNOLOGICAL adjuvants, LIVER cancer, IMMUNE response, CALCIUM carbonate, IMMUNOTHERAPY
Abstract

A nano-immunomodulator modified with N-acetylgalactosamine (GalNAc) on calcium carbonate (CaCO3) was prepared for targeted and responsive immunotherapy. And the immunologic adjuvant (CpG ODNs) and doxorubicin (DOX) were released to synergistically improve immune response for treating orthotopic liver cancer. [ABSTRACT FROM AUTHOR]

Published
2024
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12. Tuning Crystalline Preferred Orientation of SnSe2Anode by Co-doping to Enhance Pseudocapacitive Behaviors for High-Performance Sodium Storage

Author

Liu, Dejian, Zhong, Jiarui, Cai, Zhiyi, Zhan, Zijian, Zheng, Cheng, and Huang, Shaoming

Abstract

SnSe2has attracted great attention due to its unique 2D-layered structure, which makes it capable of sodium ion storage and higher theoretical capacities compared to traditional anode materials like hard carbon for sodium ion batteries (SIBs). However, SnSe2-based materials will cause structural damage due to volume expansion during ion storage, leading to poor cycle stability and rate capacity. In this work, Co-doped SnSe2(Co-SnSe2) with preferred crystal orientation was fabricated by a one-step solvothermal method. It has been found that after doping Co, the lower (001) crystal plane located at 14.4° replaced the higher (101) plane at 30.7° as the dominant crystal plane in Co-SnSe2, which significantly promoted ion diffusion and enhanced the pseudocapacitance behavior. Therefore, this Co-SnSe2anode achieves a high capacity of 504 mAh g–1at 1 A g–1, and a high-rate cycle stability, delivering a reversible capacity of 302 mAh g–1at 5 A g–1after 1800 cycles with a retained capacity rate of 94%. Moreover, the Na3V2(PO4)3||Co-SnSe2full cell exhibits a stable cycle performance of over 300 cycles at 1 A g–1, demonstrating great promise for practical applications. This work provides an effective reference for the exploration of high-performance sodium storage anode materials.

Published
2024
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15. Carbon border adjustment mechanism: a systematic literature review of the latest developments.

Author

Zhong, Jiarui and Pei, Jiansuo

Subjects
*IMPORT taxes, *CARBON, *GOVERNMENT policy on climate change, *ATHLETIC fields, *CONTENT analysis, *COUNTRIES, DEVELOPING countries
Abstract

Carbon border adjustment mechanism aims to level the playing field and reduce carbon leakage through import taxes and/or export subsidies based on the carbon content for products from countries with different levels of carbon policy stringency. The introduction of an EU carbon border adjustment mechanism (CBAM) has triggered a lively debate on its potential impacts, especially among developing countries. In fact, introducing CBAM is not a new idea; researchers in fields of economics and law have investigated this policy over the last decade. Against this backdrop, this study conducts a literature review of the most recent economic studies of CBAM and provides an exhaustive synthesis of this literature. We employ the so-called 'Preferred Reporting Items for Systematic Reviews and Meta-Analysis' approach (PRISMA), which includes an exhaustive screening of studies. Specifically, we identified 97 relevant studies on CBAM from 2004 to 31 August 2021, and conducted descriptive and content analysis of these. Our content analysis highlights the potential impacts of CBAM in terms of its effectiveness across 3 policy objectives: protecting fair competition; reducing carbon leakage; and limiting global welfare costs. We synthesize findings on how policy design and characteristics of an economy lead to different levels and types of effectiveness of a CBAM, and we contrast alternative policy designs across various objectives. Armed with this systematic review of the literature, we spell out insights and challenges in formulating effective CBAM polices. This review thus offers evidenced-based guidance for the policy design of a CBAM and a foundation for further research. There is no one-size-fits-all approach to design and implement CBAM to tackle competitiveness and carbon leakage; policy design and characteristics of the economy matter. According to the effectiveness of CBAM across the 3 policy objectives, alternative policy designs should account for the coverage of trade, of sector(s), and also the means to determine carbon content of traded commodities, the use of revenues collected through CBAM, and the adjustment price. In formulating sound CBAM policies, competitiveness, carbon leakage and welfare evaluation are central economic concerns; however, consistency with the latest international climate policy architecture and fairness issues should also be addressed. [ABSTRACT FROM AUTHOR]

Published
2024
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21. Tuning Crystalline Preferred Orientation of SnSe 2 Anode by Co-doping to Enhance Pseudocapacitive Behaviors for High-Performance Sodium Storage.

Author

Liu D, Zhong J, Cai Z, Zhan Z, Zheng C, and Huang S

Abstract

SnSe 2 has attracted great attention due to its unique 2D-layered structure, which makes it capable of sodium ion storage and higher theoretical capacities compared to traditional anode materials like hard carbon for sodium ion batteries (SIBs). However, SnSe 2 -based materials will cause structural damage due to volume expansion during ion storage, leading to poor cycle stability and rate capacity. In this work, Co-doped SnSe 2 (Co-SnSe 2 ) with preferred crystal orientation was fabricated by a one-step solvothermal method. It has been found that after doping Co, the lower (001) crystal plane located at 14.4° replaced the higher (101) plane at 30.7° as the dominant crystal plane in Co-SnSe 2 , which significantly promoted ion diffusion and enhanced the pseudocapacitance behavior. Therefore, this Co-SnSe 2 anode achieves a high capacity of 504 mAh g -1 at 1 A g -1 , and a high-rate cycle stability, delivering a reversible capacity of 302 mAh g -1 at 5 A g -1 after 1800 cycles with a retained capacity rate of 94%. Moreover, the Na 3 V 2 (PO 4 ) 3 ||Co-SnSe 2 full cell exhibits a stable cycle performance of over 300 cycles at 1 A g -1 , demonstrating great promise for practical applications. This work provides an effective reference for the exploration of high-performance sodium storage anode materials.

Published
2024
Full Text
View/download PDF

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