yunchuan energy storage

Excellent high-temperature energy storage performance of

By balancing the contradiction between bandgap and dielectric constant through a molecular design strategy, this study achieves high energy storage at elevated temperatures

yunchuan energy storage

Subsidiaries of state-run energy conglomerate China Energy Engineering Corp have started constructing two major solar plants and one of the largest energy storage systems in China,

Continuous self-assembled BNNS layer on/within

High-temperature polymer dielectric capacitors are essential for modern electronic and electrical systems, yet their energy density and charge

Perspective on interface engineering for capacitive energy

Recent progress in nanocomposites suggests that interface engineering plays a critical role in regulating the polarization and breakdown behaviors of the nanodielectrics, such

Structural tailoring enables ultrahigh energy density and charge

We calculated the values of Ue and η from the D – E loops, as shown in Fig. S13, Supporting Information, which enabled us to evaluate the energy-storage and

English

One-step fabricating high energy storage polymer film with wide bandgap and high melting temperature induced by fluorine effect for high temperature capacitors applications with ultra

One-step fabrication of high energy storage polymer films with a

The development of polymer dielectrics with both high energy density and low energy loss is a formidable challenge in the area of high-temperature dielectric energy storage.

Significantly enhanced energy storage properties in sandwich

However, the energy storage capacity of these polymers is constrained by their low dielectric constants. This review aims to address this limitation by investigating polymer

One-step fabrication of high energy storage polymer

The development of polymer dielectrics with both high energy density and low energy loss is a formidable challenge in the area of high

Yunchuan Liu

Manufacturing Research Lead | EV Energy Storage System | Lightweight Materials & Joining | Sustainable Engineering · EV manufacturing research & innovation lead with 10 years of

Improving Energy Storage Density and Efficiency of Polymer

Dielectric materials can store and release electrical energy quickly and efficiently and have potential applications in the fields of rail transportation, air and space detection, and

Improving Energy Storage Density and Efficiency of Polymer

Request PDF | Improving Energy Storage Density and Efficiency of Polymer Dielectrics by Adding Trace Biomimetic Lysozyme-Modified Boron Nitride | Dielectric film

Evolution of a solid electrolyte interphase enabled by FeNX/C

The structure and chemical engineering of a solid electrolyte interphase (SEI) play a vital role in rechargeable batteries. The underlying correlation between the properties of the enhanced

科研成果

Depressing relaxation and conduction loss of polar polymer materials by inserting bulky charge traps for superior energy storage perofrmance in high-pluse energy storage capacitors

Superior high-temperature capacitive performance of

Metalized film capacitors with high-temperature capacitive performance are crucial components in contemporary electromagnetic energy

One-step fabrication of high energy storage polymer films with a

The development of polymer dielectrics with both high energy density and low energy loss is a formidable challenge in the area of high-temperature dielectric energy storage.

Enhanced energy storage capability of P (VDF-HFP)

Enhanced energy storage capability of P (VDF-HFP) nanodielectrics by HfO2 passivation layer: Preparation, performance and simulation Composites Science and Technology ( IF 9.1 ) Pub

Perspective on interface engineering for capacitive energy storage

Polymer nanodielectrics with high breakdown strength (Eb), high energy density (Ue) and low energy loss have great potential to be used as capacitive energy storage

发表论文

Improving Energy Storage Density and Efficiency of Polymer Dielectrics by Adding Trace Biomimetic Lysozyme-Modified Boron Nitride. ACS Appl. Energy Mater. , 3, -.

One-step fabrication of high energy storage polymer films with a

The development of polymer dielectrics with both high energy density and low energy loss is a formidable challenge in the area of high-temperature dielectric energy storage.

Significantly Enhancing the Energy‐Storage Properties of

To meet the increasing demands of modern power electronics for high‐temperature resistance and energy storage performance and avoid the trade‐off between high energy storage (Ue)

Enhancing breakdown strength and energy storage performance

To further improve the energy storage capability of the composite, in present work, two strategies were adopted as follows. First, PVDF-based polymer matrix with semi

Enhancing breakdown strength and energy storage performance

Semantic Scholar extracted view of "Enhancing breakdown strength and energy storage performance of PVDF-based nanocomposites by adding exfoliated boron nitride" by Yunchuan

Significant improvement in high-temperature energy storage

Polymer dielectrics are preferred materials for high-energy-storage metalized film capacitors. However, the state-of-the-art commercial capacitor dielectrics represented by biaxially oriented

Perspective on interface engineering for capacitive energy storage

Polymer nanodielectrics with high breakdown strength (Eb), high energy density (Ue) and low energy loss have great potential to be used as capacitive energy storage materials of high

Enhancing breakdown strength and energy storage performance

To further improve the energy storage capability of the composite, in present work, two strategies were adopted as follows. First, PVDF-based polymer matrix with semi

Significant improvement in high-temperature energy

Polymer dielectrics are preferred materials for high-energy-storage metalized film capacitors. However, the state-of-the-art commercial capacitor dielectrics

Perspective on interface engineering for capacitive energy storage

Polymer nanodielectrics with high breakdown strength (Eb), high energy density (Ue) and low energy loss have great potential to be used as capacitive energy storage materials of high

<br>由氟效应诱导的具有宽禁带和高熔点的高储能聚合物薄膜的一

One-step fabrication of high energy storage polymer films with a wide bandgap and high melting temperature induced by the fluorine effect for high temperature capacitor applications with ultra

李朦-西安工业大学材料与化工学院

1. Xiong Jie, Li Meng, Lu Teng, Zhang Ting, Hu Mingyou, Zhang Meirong, Xie Yunchuan, Tan Shaobo, Gong Honghong, and Zhang Zhicheng. Excellent high-temperature energy storage

Superior high-temperature capacitive performance of polyaryl

Metalized film capacitors with high-temperature capacitive performance are crucial components in contemporary electromagnetic energy systems. However, the fabrication of polymer-based

Enhanced energy storage capability of P(VDF-HFP)

Enhanced energy storage capability of P (VDF-HFP) nanodielectrics by HfO2 passivation layer: Preparation, performance and simulation Chao Chen a , Yunchuan Xie b,

Significant improvement in high-temperature energy storage

This method offers unprecedented opportunities for the development of scalable polymer dielectrics with high energy storage and low loss at high temperatures due to its non-damaging

Structural tailoring enables ultrahigh energy density and charge

High-temperature film capacitors have great potential for high-power-density applications, in which polymer films are often utilized as energy-storage dielectrics. However,

Manipulating fluorine induced bulky dipoles and their strong

The pursuit of polymer dielectrics with elevated energy density frequently results in heightened energy loss, thereby hindering practical applications. To decouple the dependence of the high

学术成果

Yunchuan Xie; Xing Fan; Xinyi Li; Ying Zhang; Zhicheng Zhang; Xingyi Huang. Perspective on interface engineering for capacitive energy storage polymer nanodielectrics. Phys. Chem.

English

Depressing relaxation and conduction loss of polar polymer materials by inserting bulky charge traps for superior energy storage perofrmance in high-pluse energy storage capacitors

Significantly enhanced energy storage properties in sandwich

Significantly enhanced energy storage properties in sandwich-structured polymer composites with self-assembled boron nitride layers Applied Surface Science ( IF6.3 ) Pub Date : ,

Manipulating fluorine induced bulky dipoles and their strong

The pursuit of polymer dielectrics with elevated energy density frequently results in heightened energy loss, thereby hindering practical applications. To decouple the dependence of the high

Significantly enhanced energy storage properties in

Significantly enhanced energy storage properties in sandwich-structured polymer composites with self-assembled boron nitride layers Applied Surface Science (

Evolution of the solid electrolyte interphase enabled by FeNX/C

Request PDF | Evolution of the solid electrolyte interphase enabled by FeNX/C catalysts for sodium-ion storage | The structure and chemical engineering of the solid

Journal of Applied Polymer Science | Wiley Online

How the biaxially stretching mode influence dielectric and energy storage properties of polypropylene films Jie Xiong, Xin Wang, Xiao