Energy harvesting with biomaterials

Indrani Coondoo; Svitlana Kopyl; Maxim Ivanov; Vladimir Ya Shur; Andrei L. Kholkin

doi:10.1142/9781783269877_0021

Energy harvesting with biomaterials

Indrani Coondoo
, Svitlana Kopyl
, Maxim Ivanov
, Vladimir Ya Shur
, Andrei L. Kholkin^*

^*Corresponding author for this work

University of Aveiro
Ural Federal University

Research output: Chapter in Book/Report/Conference proceeding › Chapter › Research › peer-review

2 Citations (Scopus)

Abstract

The past decades have witnessed a new trend in the paradigm of materials science and engineering. There has been an increased importance of interdisciplinary research and convergence of multiple areas. Specifically, bioorganic materials have attracted increasing interest beyond their conventional area of applications. Due to their excellent biocompatibility and novel functionalities such as piezoelectric or photovoltaic effects, bioorganic materials have been extensively studied for energy harvesting from environmental sources. This chapter aims at providing a brief overview of advances in the application of electronically active bioorganic materials with the specific focus for using them as integral components of energy harvesting devices. In this context, discussions encompass specifically the peptide nanotubes, organic fibres produced by electrospinning and virus-based self-assembled molecules.

Original language	English
Title of host publication	Electrically Active Materials for Medical Devices
Publisher	Imperial College Press
Pages	297-316
Number of pages	20
ISBN (Electronic)	9781783269877
ISBN (Print)	9781783269860
DOIs	https://doi.org/10.1142/9781783269877_0021
Publication status	Published - 1 Sept 2016
Externally published	Yes

UN SDGs

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

SDG 7 Affordable and Clean Energy

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10.1142/9781783269877_0021

Cite this

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title = "Energy harvesting with biomaterials",

abstract = "The past decades have witnessed a new trend in the paradigm of materials science and engineering. There has been an increased importance of interdisciplinary research and convergence of multiple areas. Specifically, bioorganic materials have attracted increasing interest beyond their conventional area of applications. Due to their excellent biocompatibility and novel functionalities such as piezoelectric or photovoltaic effects, bioorganic materials have been extensively studied for energy harvesting from environmental sources. This chapter aims at providing a brief overview of advances in the application of electronically active bioorganic materials with the specific focus for using them as integral components of energy harvesting devices. In this context, discussions encompass specifically the peptide nanotubes, organic fibres produced by electrospinning and virus-based self-assembled molecules.",

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AU - Coondoo, Indrani

AU - Kopyl, Svitlana

AU - Ivanov, Maxim

AU - Shur, Vladimir Ya

AU - Kholkin, Andrei L.

PY - 2016/9/1

Y1 - 2016/9/1

N2 - The past decades have witnessed a new trend in the paradigm of materials science and engineering. There has been an increased importance of interdisciplinary research and convergence of multiple areas. Specifically, bioorganic materials have attracted increasing interest beyond their conventional area of applications. Due to their excellent biocompatibility and novel functionalities such as piezoelectric or photovoltaic effects, bioorganic materials have been extensively studied for energy harvesting from environmental sources. This chapter aims at providing a brief overview of advances in the application of electronically active bioorganic materials with the specific focus for using them as integral components of energy harvesting devices. In this context, discussions encompass specifically the peptide nanotubes, organic fibres produced by electrospinning and virus-based self-assembled molecules.

AB - The past decades have witnessed a new trend in the paradigm of materials science and engineering. There has been an increased importance of interdisciplinary research and convergence of multiple areas. Specifically, bioorganic materials have attracted increasing interest beyond their conventional area of applications. Due to their excellent biocompatibility and novel functionalities such as piezoelectric or photovoltaic effects, bioorganic materials have been extensively studied for energy harvesting from environmental sources. This chapter aims at providing a brief overview of advances in the application of electronically active bioorganic materials with the specific focus for using them as integral components of energy harvesting devices. In this context, discussions encompass specifically the peptide nanotubes, organic fibres produced by electrospinning and virus-based self-assembled molecules.

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DO - 10.1142/9781783269877_0021

M3 - Chapter

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SN - 9781783269860

SP - 297

EP - 316

BT - Electrically Active Materials for Medical Devices

PB - Imperial College Press

ER -

Energy harvesting with biomaterials

Abstract

UN SDGs

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