Powering internet-of-things from ambient energy: a review

Arindom Chatterjee; Carlos Nuñez Lobato; Haiwu Zhang; Achilles Bergne; Vincenzo Esposito; Shinhee Yun; Andrea Roberto Insinga; Dennis Valbjørn Christensen; Carlos Imbaquingo; Rasmus Bjørk; Hamsa Ahmed; Mariam Ahmad; Chun Yuen Ho; Morten Madsen; Jixi Chen; Poul Norby; Francesco Maria Chiabrera; Felix Gunkel; Ziwei Ouyang; Nini Pryds

doi:10.1088/2515-7655/acb5e6

Powering internet-of-things from ambient energy: a review

Arindom Chatterjee
, Carlos Nuñez Lobato
, Haiwu Zhang
, Achilles Bergne
, Vincenzo Esposito
, Shinhee Yun
, Andrea Roberto Insinga
, Dennis Valbjørn Christensen
, Carlos Imbaquingo
, Rasmus Bjørk
, Hamsa Ahmed
, Mariam Ahmad
, Chun Yuen Ho
, Morten Madsen
, Jixi Chen
, Poul Norby
, Francesco Maria Chiabrera
, Felix Gunkel
, Ziwei Ouyang
, Nini Pryds^*

^*Kontaktforfatter

Publikation: Bidrag til tidsskrift › Tidsskriftartikel › Forskning › peer review

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Abstract

Internet-of-thing (IoT) is an assembly of devices that collect and share data with other devices and communicate via the internet. This massive network of devices, generates and communicates data and is the key to the value in IoT, allowing access to raw information, gaining insight, and making an intelligent decisions. Today, there are billions of IoT devices such as sensors and actuators deployed. Many of these applications are easy to connect, but those tucked away in hard-to-access spots will need to harvest ambient energy. Therefore, the aim is to create devices that are self-report in real-time. Efforts are underway to install a self-powered unit in IoT devices that can generate sufficient power from environmental conditions such as light, vibration, and heat. In this review paper, we discuss the recent progress made in materials and device development in power- and, storage units, and power management relevant for IoT applications. This review paper will give a comprehensive overview for new researchers entering the field of IoT and a collection of challenges as well as perspectives for people already working in this field.

Originalsprog	Engelsk
Artikelnummer	022001
Tidsskrift	JPhys Energy
Vol/bind	5
Udgave nummer	2
Antal sider	41
ISSN	2515-7655
DOI	https://doi.org/10.1088/2515-7655/acb5e6
Status	Udgivet - 1. apr. 2023

Bibliografisk note

Funding Information:
A C and N P acknowledge the European Union's H2020 Programme under Grant Agreement No. 824072-HARVESTORE. C I and R B acknowledge the Independent Research Fund Denmark, project 8022-00038B for sponsoring part of this work. H Z, V E, and N P acknowledge the BioWings project funded by the European Union's Horizon 2020, Future and Emerging Technologies (FET) program (Grant No. 801267). N P acknowledges the funding from the Independent Research Technology and Production Science, DFF Research 3 PILOT (Grant No. 00069B). F G thanks for funding from the European Union's Horizon 2020 research and innovation program under Marie Sklodowska-Curie Grant Agreement No. 713683 (COFUNDfellowsDTU). H A, M A, C Y H, and M M acknowledge a) Danmarks Frie Forskningsfond, DFF for funding of the project Powering the Internet-of-Things with Ambient Solutions (PIloT), No. 0217-00069B and b) Danish Ministry of Higher Education and Science for providing support from the project 'SMART-Structure of MAterials in Real-Time'.

Funding Information:
A C and N P acknowledge the European Union’s H2020 Programme under Grant Agreement No. 824072- HARVESTORE. C I and R B acknowledge the Independent Research Fund Denmark, project 8022-00038B for sponsoring part of this work. H Z, V E, and N P acknowledge the BioWings project funded by the European Union’s Horizon 2020, Future and Emerging Technologies (FET) program (Grant No. 801267). N P acknowledges the funding from the Independent Research Technology and Production Science, DFF Research 3 PILOT (Grant No. 00069B). F G thanks for funding from the European Union’s Horizon 2020 research and innovation program under Marie Sklodowska-Curie Grant Agreement No. 713683 (COFUNDfellowsDTU). H A, M A, C Y H, and M M acknowledge a) Danmarks Frie Forskningsfond, DFF for funding of the project Powering the Internet-of-Things with Ambient Solutions (PIloT), No. 0217-00069B and b) Danish Ministry of Higher Education and Science for providing support from the project ‘SMART—Structure of MAterials in Real-Time’.

Publisher Copyright:
© 2023 The Author(s). Published by IOP Publishing Ltd.

Dokumenter og links

10.1088/2515-7655/acb5e6Licens: CC BY

Open Access VersionForlagets udgivne version, 2,67 MBLicens: CC BY

SDU link

Tjek adgangen til materialet i Syddansk Universitetsbiblioteks søgemaskine

1 Ph.d.-afhandling

X-ray Photoemission, Absorption and Scattering Studies of Metal Oxide and Organic Thin-Films and Interfaces for Photovoltaic Applications
Ahmad, M., 26. maj 2023, Syddansk Universitet. Det Tekniske Fakultet. 115 s.
Publikation: Afhandling › Ph.d.-afhandling

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Chatterjee, A., Lobato, C. N., Zhang, H., Bergne, A., Esposito, V., Yun, S., Insinga, A. R., Christensen, D. V., Imbaquingo, C., Bjørk, R., Ahmed, H., Ahmad, M., Ho, C. Y., Madsen, M., Chen, J., Norby, P., Chiabrera, F. M., Gunkel, F., Ouyang, Z., & Pryds, N. (2023). Powering internet-of-things from ambient energy: a review. JPhys Energy, 5(2), Artikel 022001. https://doi.org/10.1088/2515-7655/acb5e6

@article{d708785f8e944e7b9d92156033b2de12,

title = "Powering internet-of-things from ambient energy: a review",

abstract = "Internet-of-thing (IoT) is an assembly of devices that collect and share data with other devices and communicate via the internet. This massive network of devices, generates and communicates data and is the key to the value in IoT, allowing access to raw information, gaining insight, and making an intelligent decisions. Today, there are billions of IoT devices such as sensors and actuators deployed. Many of these applications are easy to connect, but those tucked away in hard-to-access spots will need to harvest ambient energy. Therefore, the aim is to create devices that are self-report in real-time. Efforts are underway to install a self-powered unit in IoT devices that can generate sufficient power from environmental conditions such as light, vibration, and heat. In this review paper, we discuss the recent progress made in materials and device development in power- and, storage units, and power management relevant for IoT applications. This review paper will give a comprehensive overview for new researchers entering the field of IoT and a collection of challenges as well as perspectives for people already working in this field.",

keywords = "energy harvesting devices, energy storage devices, internet-of-things, power management",

author = "Arindom Chatterjee and Lobato, \{Carlos Nu{\~n}ez\} and Haiwu Zhang and Achilles Bergne and Vincenzo Esposito and Shinhee Yun and Insinga, \{Andrea Roberto\} and Christensen, \{Dennis Valbj{\o}rn\} and Carlos Imbaquingo and Rasmus Bj{\o}rk and Hamsa Ahmed and Mariam Ahmad and Ho, \{Chun Yuen\} and Morten Madsen and Jixi Chen and Poul Norby and Chiabrera, \{Francesco Maria\} and Felix Gunkel and Ziwei Ouyang and Nini Pryds",

note = "Funding Information: A C and N P acknowledge the European Union's H2020 Programme under Grant Agreement No. 824072-HARVESTORE. C I and R B acknowledge the Independent Research Fund Denmark, project 8022-00038B for sponsoring part of this work. H Z, V E, and N P acknowledge the BioWings project funded by the European Union's Horizon 2020, Future and Emerging Technologies (FET) program (Grant No. 801267). N P acknowledges the funding from the Independent Research Technology and Production Science, DFF Research 3 PILOT (Grant No. 00069B). F G thanks for funding from the European Union's Horizon 2020 research and innovation program under Marie Sklodowska-Curie Grant Agreement No. 713683 (COFUNDfellowsDTU). H A, M A, C Y H, and M M acknowledge a) Danmarks Frie Forskningsfond, DFF for funding of the project Powering the Internet-of-Things with Ambient Solutions (PIloT), No. 0217-00069B and b) Danish Ministry of Higher Education and Science for providing support from the project 'SMART-Structure of MAterials in Real-Time'. Funding Information: A C and N P acknowledge the European Union{\textquoteright}s H2020 Programme under Grant Agreement No. 824072- HARVESTORE. C I and R B acknowledge the Independent Research Fund Denmark, project 8022-00038B for sponsoring part of this work. H Z, V E, and N P acknowledge the BioWings project funded by the European Union{\textquoteright}s Horizon 2020, Future and Emerging Technologies (FET) program (Grant No. 801267). N P acknowledges the funding from the Independent Research Technology and Production Science, DFF Research 3 PILOT (Grant No. 00069B). F G thanks for funding from the European Union{\textquoteright}s Horizon 2020 research and innovation program under Marie Sklodowska-Curie Grant Agreement No. 713683 (COFUNDfellowsDTU). H A, M A, C Y H, and M M acknowledge a) Danmarks Frie Forskningsfond, DFF for funding of the project Powering the Internet-of-Things with Ambient Solutions (PIloT), No. 0217-00069B and b) Danish Ministry of Higher Education and Science for providing support from the project {\textquoteleft}SMART—Structure of MAterials in Real-Time{\textquoteright}. Publisher Copyright: {\textcopyright} 2023 The Author(s). Published by IOP Publishing Ltd.",

year = "2023",

month = apr,

day = "1",

doi = "10.1088/2515-7655/acb5e6",

language = "English",

volume = "5",

journal = "JPhys Energy",

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Chatterjee, A, Lobato, CN, Zhang, H, Bergne, A, Esposito, V, Yun, S, Insinga, AR, Christensen, DV, Imbaquingo, C, Bjørk, R, Ahmed, H, Ahmad, M , Ho, CY , Madsen, M, Chen, J, Norby, P, Chiabrera, FM, Gunkel, F, Ouyang, Z & Pryds, N 2023, 'Powering internet-of-things from ambient energy: a review', JPhys Energy, bind 5, nr. 2, 022001. https://doi.org/10.1088/2515-7655/acb5e6

TY - JOUR

T1 - Powering internet-of-things from ambient energy

T2 - a review

AU - Chatterjee, Arindom

AU - Lobato, Carlos Nuñez

AU - Zhang, Haiwu

AU - Bergne, Achilles

AU - Esposito, Vincenzo

AU - Yun, Shinhee

AU - Insinga, Andrea Roberto

AU - Christensen, Dennis Valbjørn

AU - Imbaquingo, Carlos

AU - Bjørk, Rasmus

AU - Ahmed, Hamsa

AU - Ahmad, Mariam

AU - Ho, Chun Yuen

AU - Madsen, Morten

AU - Chen, Jixi

AU - Norby, Poul

AU - Chiabrera, Francesco Maria

AU - Gunkel, Felix

AU - Ouyang, Ziwei

AU - Pryds, Nini

N1 - Funding Information: A C and N P acknowledge the European Union's H2020 Programme under Grant Agreement No. 824072-HARVESTORE. C I and R B acknowledge the Independent Research Fund Denmark, project 8022-00038B for sponsoring part of this work. H Z, V E, and N P acknowledge the BioWings project funded by the European Union's Horizon 2020, Future and Emerging Technologies (FET) program (Grant No. 801267). N P acknowledges the funding from the Independent Research Technology and Production Science, DFF Research 3 PILOT (Grant No. 00069B). F G thanks for funding from the European Union's Horizon 2020 research and innovation program under Marie Sklodowska-Curie Grant Agreement No. 713683 (COFUNDfellowsDTU). H A, M A, C Y H, and M M acknowledge a) Danmarks Frie Forskningsfond, DFF for funding of the project Powering the Internet-of-Things with Ambient Solutions (PIloT), No. 0217-00069B and b) Danish Ministry of Higher Education and Science for providing support from the project 'SMART-Structure of MAterials in Real-Time'. Funding Information: A C and N P acknowledge the European Union’s H2020 Programme under Grant Agreement No. 824072- HARVESTORE. C I and R B acknowledge the Independent Research Fund Denmark, project 8022-00038B for sponsoring part of this work. H Z, V E, and N P acknowledge the BioWings project funded by the European Union’s Horizon 2020, Future and Emerging Technologies (FET) program (Grant No. 801267). N P acknowledges the funding from the Independent Research Technology and Production Science, DFF Research 3 PILOT (Grant No. 00069B). F G thanks for funding from the European Union’s Horizon 2020 research and innovation program under Marie Sklodowska-Curie Grant Agreement No. 713683 (COFUNDfellowsDTU). H A, M A, C Y H, and M M acknowledge a) Danmarks Frie Forskningsfond, DFF for funding of the project Powering the Internet-of-Things with Ambient Solutions (PIloT), No. 0217-00069B and b) Danish Ministry of Higher Education and Science for providing support from the project ‘SMART—Structure of MAterials in Real-Time’. Publisher Copyright: © 2023 The Author(s). Published by IOP Publishing Ltd.

PY - 2023/4/1

Y1 - 2023/4/1

N2 - Internet-of-thing (IoT) is an assembly of devices that collect and share data with other devices and communicate via the internet. This massive network of devices, generates and communicates data and is the key to the value in IoT, allowing access to raw information, gaining insight, and making an intelligent decisions. Today, there are billions of IoT devices such as sensors and actuators deployed. Many of these applications are easy to connect, but those tucked away in hard-to-access spots will need to harvest ambient energy. Therefore, the aim is to create devices that are self-report in real-time. Efforts are underway to install a self-powered unit in IoT devices that can generate sufficient power from environmental conditions such as light, vibration, and heat. In this review paper, we discuss the recent progress made in materials and device development in power- and, storage units, and power management relevant for IoT applications. This review paper will give a comprehensive overview for new researchers entering the field of IoT and a collection of challenges as well as perspectives for people already working in this field.

AB - Internet-of-thing (IoT) is an assembly of devices that collect and share data with other devices and communicate via the internet. This massive network of devices, generates and communicates data and is the key to the value in IoT, allowing access to raw information, gaining insight, and making an intelligent decisions. Today, there are billions of IoT devices such as sensors and actuators deployed. Many of these applications are easy to connect, but those tucked away in hard-to-access spots will need to harvest ambient energy. Therefore, the aim is to create devices that are self-report in real-time. Efforts are underway to install a self-powered unit in IoT devices that can generate sufficient power from environmental conditions such as light, vibration, and heat. In this review paper, we discuss the recent progress made in materials and device development in power- and, storage units, and power management relevant for IoT applications. This review paper will give a comprehensive overview for new researchers entering the field of IoT and a collection of challenges as well as perspectives for people already working in this field.

KW - energy harvesting devices

KW - energy storage devices

KW - internet-of-things

KW - power management

U2 - 10.1088/2515-7655/acb5e6

DO - 10.1088/2515-7655/acb5e6

M3 - Journal article

AN - SCOPUS:85149246292

SN - 2515-7655

VL - 5

JO - JPhys Energy

JF - JPhys Energy

IS - 2

M1 - 022001

ER -

Powering internet-of-things from ambient energy: a review

Abstract

Bibliografisk note

Dokumenter og links

SDU link

Fingeraftryk

Relaterede publikationer

X-ray Photoemission, Absorption and Scattering Studies of Metal Oxide and Organic Thin-Films and Interfaces for Photovoltaic Applications

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