Flexible Ferroelectret Polymer for Self-Powering Devices and Energy Storage Systems

Piezoelectric Materials for Energy Harvesting and Sensing Applications: Roadmap for Future Smart Materials.

Mahapatra, Susmriti Das
Mohapatra, Preetam Chandan
Aria, Adrianus Indrat
Christie, Graham
Mishra, Yogendra Kumar
Hofmann, Stephan
Thakur, Vijay Kumar

September 2021

Piezoelectric materials are widely referred to as "smart" materials because they can transduce mecha...

Energy harvesting study on single and multilayer ferroelectret foams under compressive force

Luo, Zhenhua
Zhu, Dibin
Shi, Jujie
Beeby, Steve
Zhang, Chunhong
Proynov, Plamen
Stark, Bernard

Cellular polypropylene (PP) ferroelectret is a thin and flexible cellular polymer foam that generate...

A review on piezoelectric fibers and nanowires for energy harvesting

Zaarour, B
Zhu, L
Huang, C
Jin, XY
Alghafari, H
Fang, Jian
Lin, Tong

August 2021

Recent advances in self-powered electronic devices have urged the development of energy-harvesting ...

Flexible Ferroelectret Polymer for Self-Powering Devices and Energy Storage Systems

Yunqi Cao (6651020)
José Figueroa (6651023)
Juan J. Pastrana (6651026)
Wei Li (7081)
Zhiqiang Chen (218692)
Zhong Lin Wang (1273431)
Nelson Sepúlveda (1612225)

April 2019

Applying flexible materials for energy scavenging from ambient mechanical vibrations is a clean ener...

An easy to assemble ferroelectret for human body energy harvesting

Shi, Junjie
Yong, Sheng
Beeby, Stephen

Ferroelectret is a thin and flexible cellular polymer foam that generates electrical power under mec...

Ferroelectret materials and devices for energy harvesting applications

Zhang, Yan
Bowen, Chris Rhys
Ghosh, Sujoy Kumar
Mandal, Dipankar
Khanbareh, Hamideh
Arafa, Mustafa
Wan, Chaoying

March 2019

This paper provides an overview of ferroelectret materials for energy harvesting applications. These...

The Electro-Mechanical Energy Harvesting Configurations in Different Modes from Machine to Self-Powered Wearable Electronics

Amutheesan Manikkavel (17098805)
Vineet Kumar (149393)
Md. Najib Alam (17098808)
Ukhyeon Kim (17098811)
Sang-Shin Park (12507457)

October 2023

Recently, self-powered wearable electronics have gained interest among scientists globally because o...

Using PVDF piezoelectric polymers to maximize power harvested by mechanical structure

Eddiai, A.
Meddad, M.
Farhan, R.
Mazroui, M.
Rguiti, M.
Guyomar, D.

March 2019

International audienceIn recent years, electroactive materials have attracted interest due to its ap...

Multiscale-structuring of polyvinylidene fluoride for energy harvesting : the impact of molecular-, micro- and macro-structure

Bowen, Chris
Wan, Chaoying

February 2017

Energy harvesting exploits ambient sources of energy such as mechanical loads, vibrations, human mot...

The effect of fabric properties on the performance of a textile based ferroelectret generator toward human body energy harvesting

Shi, Junjie
Beeby, Stephen

March 2022

This paper reports the lamination of two thin fluorinated ethylene propylene (FEP) films onto the ba...

Flexible and Wearable Piezoelectric Nanogenerators

Sengupta, Debarun
Kottapalli, Ajay Giri Prakash
Kottapalli, Ajay Giri Prakash
Tao, Kai
Sengupta, Debarun
Triantafyllou, Michael S.

March 2019

In this age of advanced smartphones and wearable devices, the need of unlimited power has become a b...

Flexible self-powered piezo-supercapacitor system for wearable electronics

Gilshteyn, Evgenia P.
Amanbaev, Daler
Silibin, Maxim V.
Sysa, Artem
Kondrashov, Vladislav A.
Anisimov, Anton S.
Kallio, Tanja
Nasibulin, Albert G.

June 2019

The integration of energy harvesting and energy storage in a single device both enables the conversi...

Piezoelectric Materials for Energy Harvesting and Sensing Applications: Roadmap for Future Smart Materials

Mahapatra, SD
Mohapatra, PC
Aria, AI
Christie, G
Mishra, YK
Hofmann, S
Thakur, VK
,
,

Piezoelectric materials are widely referred to as “smart” materials because they can transduce mecha...

ENERGY HARVESING THROUGH SMART GYM

Himanshu Gaurav
Kavindra Singh Nikhurpa
Dhruva Chaudhary
Wasim Feroz

August 2016

This paper proposes a new concept of energy harvesting through smart gym. With the advent of new tec...

Generation and storage of electricity from power harvesting devices

Henry A. Sodano
Daniel J. Inman
Gyuhae Park

January 2005

ABSTRACT: The concept of capturing the normally lost energy surrounding a system and converting it i...

Piezoelectric Materials for Energy Harvesting and Sensing Applications: Roadmap for Future Smart Materials.

Mahapatra, Susmriti Das
Mohapatra, Preetam Chandan
Aria, Adrianus Indrat
Christie, Graham
Mishra, Yogendra Kumar
Hofmann, Stephan
Thakur, Vijay Kumar

September 2021

Piezoelectric materials are widely referred to as "smart" materials because they can transduce mecha...

Energy harvesting study on single and multilayer ferroelectret foams under compressive force

Luo, Zhenhua
Zhu, Dibin
Shi, Jujie
Beeby, Steve
Zhang, Chunhong
Proynov, Plamen
Stark, Bernard

Cellular polypropylene (PP) ferroelectret is a thin and flexible cellular polymer foam that generate...

A review on piezoelectric fibers and nanowires for energy harvesting

Zaarour, B
Zhu, L
Huang, C
Jin, XY
Alghafari, H
Fang, Jian
Lin, Tong

August 2021

Recent advances in self-powered electronic devices have urged the development of energy-harvesting ...

Flexible Ferroelectret Polymer for Self-Powering Devices and Energy Storage Systems

Yunqi Cao (6651020)
José Figueroa (6651023)
Juan J. Pastrana (6651026)
Wei Li (7081)
Zhiqiang Chen (218692)
Zhong Lin Wang (1273431)
Nelson Sepúlveda (1612225)

April 2019

Applying flexible materials for energy scavenging from ambient mechanical vibrations is a clean ener...

An easy to assemble ferroelectret for human body energy harvesting

Shi, Junjie
Yong, Sheng
Beeby, Stephen

Ferroelectret is a thin and flexible cellular polymer foam that generates electrical power under mec...

Ferroelectret materials and devices for energy harvesting applications

Zhang, Yan
Bowen, Chris Rhys
Ghosh, Sujoy Kumar
Mandal, Dipankar
Khanbareh, Hamideh
Arafa, Mustafa
Wan, Chaoying

March 2019

This paper provides an overview of ferroelectret materials for energy harvesting applications. These...

The Electro-Mechanical Energy Harvesting Configurations in Different Modes from Machine to Self-Powered Wearable Electronics

Amutheesan Manikkavel (17098805)
Vineet Kumar (149393)
Md. Najib Alam (17098808)
Ukhyeon Kim (17098811)
Sang-Shin Park (12507457)

October 2023

Recently, self-powered wearable electronics have gained interest among scientists globally because o...

Using PVDF piezoelectric polymers to maximize power harvested by mechanical structure

Eddiai, A.
Meddad, M.
Farhan, R.
Mazroui, M.
Rguiti, M.
Guyomar, D.

March 2019

International audienceIn recent years, electroactive materials have attracted interest due to its ap...

Multiscale-structuring of polyvinylidene fluoride for energy harvesting : the impact of molecular-, micro- and macro-structure

Bowen, Chris
Wan, Chaoying

February 2017

Energy harvesting exploits ambient sources of energy such as mechanical loads, vibrations, human mot...

The effect of fabric properties on the performance of a textile based ferroelectret generator toward human body energy harvesting

Shi, Junjie
Beeby, Stephen

March 2022

This paper reports the lamination of two thin fluorinated ethylene propylene (FEP) films onto the ba...

Flexible and Wearable Piezoelectric Nanogenerators

Sengupta, Debarun
Kottapalli, Ajay Giri Prakash
Kottapalli, Ajay Giri Prakash
Tao, Kai
Sengupta, Debarun
Triantafyllou, Michael S.

March 2019

In this age of advanced smartphones and wearable devices, the need of unlimited power has become a b...

Flexible self-powered piezo-supercapacitor system for wearable electronics

Gilshteyn, Evgenia P.
Amanbaev, Daler
Silibin, Maxim V.
Sysa, Artem
Kondrashov, Vladislav A.
Anisimov, Anton S.
Kallio, Tanja
Nasibulin, Albert G.

June 2019

The integration of energy harvesting and energy storage in a single device both enables the conversi...

Piezoelectric Materials for Energy Harvesting and Sensing Applications: Roadmap for Future Smart Materials

Mahapatra, SD
Mohapatra, PC
Aria, AI
Christie, G
Mishra, YK
Hofmann, S
Thakur, VK
,
,

Piezoelectric materials are widely referred to as “smart” materials because they can transduce mecha...

ENERGY HARVESING THROUGH SMART GYM

Himanshu Gaurav
Kavindra Singh Nikhurpa
Dhruva Chaudhary
Wasim Feroz

August 2016

This paper proposes a new concept of energy harvesting through smart gym. With the advent of new tec...

Generation and storage of electricity from power harvesting devices

Henry A. Sodano
Daniel J. Inman
Gyuhae Park

January 2005

ABSTRACT: The concept of capturing the normally lost energy surrounding a system and converting it i...

Piezoelectric Materials for Energy Harvesting and Sensing Applications: Roadmap for Future Smart Materials.

Mahapatra, Susmriti Das
Mohapatra, Preetam Chandan
Aria, Adrianus Indrat
Christie, Graham
Mishra, Yogendra Kumar
Hofmann, Stephan
Thakur, Vijay Kumar

September 2021

Piezoelectric materials are widely referred to as "smart" materials because they can transduce mecha...

Energy harvesting study on single and multilayer ferroelectret foams under compressive force

Luo, Zhenhua
Zhu, Dibin
Shi, Jujie
Beeby, Steve
Zhang, Chunhong
Proynov, Plamen
Stark, Bernard

Cellular polypropylene (PP) ferroelectret is a thin and flexible cellular polymer foam that generate...

A review on piezoelectric fibers and nanowires for energy harvesting

Zaarour, B
Zhu, L
Huang, C
Jin, XY
Alghafari, H
Fang, Jian
Lin, Tong

August 2021

Recent advances in self-powered electronic devices have urged the development of energy-harvesting ...

Flexible Ferroelectret Polymer for Self-Powering Devices and Energy Storage Systems

Abstract

Extracted data

Flexible Ferroelectret Polymer for Self-Powering Devices and Energy Storage Systems

Abstract

Extracted data

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