Organic electronics for selected applications in the Internet of Things

被引：0

作者：

Bogdanowicz, Krzysztof A. ^{[1
]}

Iwan, Agnieszka ^{[1
]}

Przybyl, Wojciech ^{[1
]}

Sliwinski, Cezary ^{[1
]}

机构：

[1] Wojskowy Inst Tech Inzynieryjnej Prof Jozefa Kosa, Ul Obornicka 136, PL-50961 Wroclaw, Poland

来源：

PRZEGLAD ELEKTROTECHNICZNY | 2023年 / 99卷 / 10期

关键词：

organic electronics; Internet of Things; sensors; organic solar cells; TRANSISTORS; POLYMERS;

D O I：

10.15199/48.2023.10.61

中图分类号：

TM [电工技术]; TN [电子技术、通信技术];

学科分类号：

0808 ; 0809 ;

摘要：

The article presents aspects of organic electronics in the context of its applications in the Internet of Things. A literature review of the latest achievements of organic electronics in the field of application in solar cells, selected detectors, chemical and biological sensors, as well as trends in the development of these technologies are presented. Their potential for commercialization was analyzed and their weaknesses were presented. (Organic electronics for selected applications in the Internet of Things).

引用

页码：290 / 293

页数：4

共 21 条

[1] Bartnik R., 2016, Energetyka., V5, P257
[2] Editorial: Organic Electronics: Future Trends in Materials, Fabrication Techniques and Applications
Basirico, Laura
Mattana, Giorgio
Mas-Torrent, Marta
[J]. FRONTIERS IN PHYSICS, 2022, 10
[3] Flexible fully organic indirect detector for megaelectronvolts proton beams
Calvi, Sabrina
Basirico, Laura
Carturan, Sara M.
Fratelli, Ilaria
Valletta, Antonio
Aloisio, Alberto
De Rosa, Stefania
Pino, Felix
Campajola, Marcello
Ciavatti, Andrea
Tortora, Luca
Rapisarda, Matteo
Moretto, Sandra
Verdi, Matteo
Bertoldo, Stefano
Cesarini, Olivia
Di Meo, Paolo
Chiari, Massimo
Tommasino, Francesco
Sarnelli, Ettore
Mariucci, Luigi
Branchini, Paolo
Quaranta, Alberto
Fraboni, Beatrice
[J]. NPJ FLEXIBLE ELECTRONICS, 2023, 7 (01)
[4] CONDUCTING POLYMERS - HALOGEN DOPED POLYACETYLENE
CHIANG, CK
PARK, YW
HEEGER, AJ
SHIRAKAWA, H
LOUIS, EJ
MACDIARMID, AG
[J]. JOURNAL OF CHEMICAL PHYSICS, 1978, 69 (11) : 5098 - 5104
[5] ELECTRICAL-CONDUCTIVITY IN DOPED POLYACETYLENE
CHIANG, CK
FINCHER, CR
PARK, YW
HEEGER, AJ
SHIRAKAWA, H
LOUIS, EJ
GAU, SC
MACDIARMID, AG
[J]. PHYSICAL REVIEW LETTERS, 1977, 39 (17) : 1098 - 1101
[6] Choi HW, 2022, NAT COMMUN, V13, DOI 10.1038/s41467-022-28459-6
[7] Fluorescence-based thermal sensing with elastic organic crystals
Di, Qi
Li, Liang
Miao, Xiaodan
Lan, Linfeng
Yu, Xu
Liu, Bin
Yi, Yuanping
Naumov, Pance
Zhang, Hongyu
[J]. NATURE COMMUNICATIONS, 2022, 13 (01)
[8] Forrest Stephen R, 2020, Introduction to organic electronics', Organic Electronics: Foundations to Applications, DOI [10.1093/oso/9780198529729.003.0001, DOI 10.1093/OSO/9780198529729.003.0001]
[9] Temperature-Pressure Hybrid Sensing All-Organic Stretchable Energy Harvester
Ghosh, Sujoy Kumar
Sinha, Tridib Kumar
Xie, Mengying
Bowen, Chris R.
Garain, Samiran
Mahanty, Biswajit
Roy, Krittish
Henkel, Karsten
Schmeisser, Dieter
Kim, Jin Kuk
Mandal, Dipankar
[J]. ACS APPLIED ELECTRONIC MATERIALS, 2021, 3 (01) : 248 - 259
[10] Organic electrochemical transistors as on-site signal amplifiers for electrochemical aptamer-based sensing
Ji, Xudong
Lin, Xuanyi
Rivnay, Jonathan
[J]. NATURE COMMUNICATIONS, 2023, 14 (01)

← 1 2 3 →