Natural rubber for sustainable high-power electrical energy generation

Rainer Kaltseis; Christoph Keplinger; Soo Jin Adrian Koh; Richard Baumgartner; Yu Feng Goh; Wee Hoe Ng; Alexander Kogler; Andreas Tröls; Choon Chiang Foo; Zhigang Suo; Siegfried Bauer

doi:10.1039/c4ra03090g

Natural rubber for sustainable high-power electrical energy generation

Rainer Kaltseis
, Christoph Keplinger
, Soo Jin Adrian Koh
, Richard Baumgartner
, Yu Feng Goh
, Wee Hoe Ng
, Alexander Kogler
, Andreas Tröls
, Choon Chiang Foo
, Zhigang Suo
, Siegfried Bauer

School of Aerospace Engineering

Research output: Contribution to journal › Article › peer-review

139 Scopus citations

Abstract

Clean, renewable and abundant sources of energy, such as the vast energy of ocean waves, are untapped today, because no technology exists to convert such mechanical motions to electricity economically. Other sources of mechanical energy, such as motions of people and vibrations of buildings and bridges, can potentially power portable electronics and distributed sensors. Here we show that natural rubber can be used to construct generators of high performance and low cost. Natural rubber has higher elastic modulus, fracture energy and dielectric strength than a commonly studied acrylic elastomer. We demonstrate high energy densities (369 mJ g^-1) and high power densities (200 mW g^-1), and estimate low levelized cost of electricity (5-11 ct kW ^-1 h^-1). Soft generators based on natural rubber enable clean, low-cost, large-scale generation of electricity. This journal is

Original language	English
Pages (from-to)	27905-27913
Number of pages	9
Journal	RSC Advances
Volume	4
Issue number	53
DOIs	https://doi.org/10.1039/c4ra03090g
State	Published - 2014

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This output contributes to the following UN Sustainable Development Goals (SDGs)

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10.1039/c4ra03090g

Cite this

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abstract = "Clean, renewable and abundant sources of energy, such as the vast energy of ocean waves, are untapped today, because no technology exists to convert such mechanical motions to electricity economically. Other sources of mechanical energy, such as motions of people and vibrations of buildings and bridges, can potentially power portable electronics and distributed sensors. Here we show that natural rubber can be used to construct generators of high performance and low cost. Natural rubber has higher elastic modulus, fracture energy and dielectric strength than a commonly studied acrylic elastomer. We demonstrate high energy densities (369 mJ g-1) and high power densities (200 mW g-1), and estimate low levelized cost of electricity (5-11 ct kW -1 h-1). Soft generators based on natural rubber enable clean, low-cost, large-scale generation of electricity. This journal is",

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doi = "10.1039/c4ra03090g",

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AU - Kaltseis, Rainer

AU - Keplinger, Christoph

AU - Adrian Koh, Soo Jin

AU - Baumgartner, Richard

AU - Goh, Yu Feng

AU - Ng, Wee Hoe

AU - Kogler, Alexander

AU - Tröls, Andreas

AU - Foo, Choon Chiang

AU - Suo, Zhigang

AU - Bauer, Siegfried

PY - 2014

Y1 - 2014

N2 - Clean, renewable and abundant sources of energy, such as the vast energy of ocean waves, are untapped today, because no technology exists to convert such mechanical motions to electricity economically. Other sources of mechanical energy, such as motions of people and vibrations of buildings and bridges, can potentially power portable electronics and distributed sensors. Here we show that natural rubber can be used to construct generators of high performance and low cost. Natural rubber has higher elastic modulus, fracture energy and dielectric strength than a commonly studied acrylic elastomer. We demonstrate high energy densities (369 mJ g-1) and high power densities (200 mW g-1), and estimate low levelized cost of electricity (5-11 ct kW -1 h-1). Soft generators based on natural rubber enable clean, low-cost, large-scale generation of electricity. This journal is

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Natural rubber for sustainable high-power electrical energy generation

Abstract

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