Highlights

This is a selection of publications from the Structural Power Composites Group. For a full list of publications, please see below.

Highlights

Structural power phone

Massless energy

‘Massless’ energy for future electric vehicles using multifunctional structural power composites
Structural supercapacitor citation map

Structural supercapacitors review

A critical review of structural supercapacitors and outlook on future research challenges
Structural power plane

Structural power in electric aircraft

Structural Power Performance Targets for Future Electric Aircraft
Recent progress in free-standing supercapacitors

Free-standing supercapacitors

Challenges and opportunities in free-standing supercapacitors research
CNT-infiltrated CF

CF-CNT structural supercapacitors

Robust Single-Walled Carbon Nanotube-Infiltrated Carbon Fiber Electrodes for Structural Supercapacitors

Model Car

Multifunctional performance

Mechanical, electrochemical and multifunctional performance of a CFRP/carbon aerogel structural supercapacitor
Student operates flight simulator in the Department of Aeronautics

Structural power in aircraft cabins

Conceptual Multifunctional Design, Feasibility and Requirements for Structural Power in Aircraft Cabins

Citation

BibTex format

@inproceedings{Snyder:2010,
author = {Snyder, J and Gienger, E and Wetzel, E and Xu, K and Huber, T and Kopac, M and Curtis, P and Qian, H and Diao, H and Shirshova, N and Greenhalgh, ES and Bismarck, A and Shaffer, M},
title = {Multifunctional Structural Composite Supercapacitors},
year = {2010}
}
Download

RIS format (EndNote, RefMan)

TY  - CPAPER
AB  - We are developing structural polymeric composites with supercapacitor functionality. These devices carry structural loads while simultaneously storing electrochemical energy. If designed with sufficient structural and energy efficiency, these materials could enable significant system-level weight reductions by replacing inert structural components while providing supplementary power for light load applications. To enable this concept, we have designed mechanical loadbearing properties directly into the supercapacitor electrodes and electrolyte such that each component is itself multifunctional. Several electrode types are evaluated here for multifunctional properties in a structural composite supercapacitor configuration. The resulting supercapacitor composites have been characterized to quantifiably compare changes in materials and processing, including tensile and shear tests to assess mechanical properties, and cyclic voltammetry to assess energy storage behavior.
AU  - Snyder,J
AU  - Gienger,E
AU  - Wetzel,E
AU  - Xu,K
AU  - Huber,T
AU  - Kopac,M
AU  - Curtis,P
AU  - Qian,H
AU  - Diao,H
AU  - Shirshova,N
AU  - Greenhalgh,ES
AU  - Bismarck,A
AU  - Shaffer,M
PY  - 2010///
TI  - Multifunctional Structural Composite Supercapacitors
ER  -
Download

Related links

Contact

Professor Emile S Greenhalgh
Department of Aeronautics
Imperial College London
South Kensington Campus
London SW7 2AZ

+44 (0)7958 210 089
e.greenhalgh@imperial.ac.uk