Author Page for Ying Jiang

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High Discharged Energy Density and Efficiency in Scalable Polymer Nanocomposites Utilizing Core-Shell Structured Plzst@Al2o3 Antiferroelectric Nanoparticle Fillers with Dielectric Gradient

Number of pages: 37 Posted: 21 Mar 2022

Ying Jiang, Yue Huang, Zhenhao Fan, Meng Shen, Haitao Huang, Yunbin He and Qingfeng Zhang

Hubei University, Hubei University, Hubei University, Hubei University, Hong Kong Polytechnic University - Department of Applied Physics and Materials Research Center, Hubei University - Department of Material Science and Engineering and Hubei University

Downloads 37 (1,222,651)

Abstract:

High-Temperature Scalable Polymer Nanocomposites with Large Energy Density and High Charge-Discharge Efficiency Enabled Via Utilizing Al2o3 Nanofillers

Number of pages: 27 Posted: 15 Feb 2022

Zhenhao Fan, Yangyang Zhang, Ying Jiang, Zhangmeng Luo, Yunbin He and Qingfeng Zhang

Hubei University, affiliation not provided to SSRN, Hubei University, Hubei University, Hubei University - Department of Material Science and Engineering and Hubei University

Downloads 35 (1,249,711)

Abstract:

A Record High Discharged Energy Density Accompanied by Large Efficiency in Nanoparticles Filled Polymer Composites Via Designing Bilayer Structure with Core-Shell Antiferroelectric Fillers

Number of pages: 39 Posted: 30 May 2023

Yue Pan, Ying Jiang, Meng Shen, Yongming Hu, Haitao Huang, Shenglin Jiang, Yunbin He and Qingfeng Zhang

Hubei University, Hubei University, Hubei University, Hubei University, Hong Kong Polytechnic University - Department of Applied Physics and Materials Research Center, Huazhong University of Science and Technology, Hubei University - Department of Material Science and Engineering and Hubei University

Downloads 21 (1,436,435)

Ying Jiang

Hubei University

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Scholarly Papers (3)

High Discharged Energy Density and Efficiency in Scalable Polymer Nanocomposites Utilizing Core-Shell Structured Plzst@Al2o3 Antiferroelectric Nanoparticle Fillers with Dielectric Gradient

Abstract:

High-Temperature Scalable Polymer Nanocomposites with Large Energy Density and High Charge-Discharge Efficiency Enabled Via Utilizing Al2o3 Nanofillers

Abstract:

A Record High Discharged Energy Density Accompanied by Large Efficiency in Nanoparticles Filled Polymer Composites Via Designing Bilayer Structure with Core-Shell Antiferroelectric Fillers

Abstract: