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References (52)
-
A. Kamyshny, S. Magdassi (2014)
Conductive nanomaterials for printed electronics.Small, 10 17
-
N. Sankir (2005)
FLEXIBLE ELECTRONICS: MATERIALS and DEVICE FABRICATION -
Liangbing Hu, D. Hecht, G. Grüner (2010)
Carbon nanotube thin films: fabrication, properties, and applications.Chemical reviews, 110 10
-
Dong‐Seok Leem, Angharad Edwards, M. Faist, J. Nelson, D. Bradley, J. Mello (2011)
Efficient Organic Solar Cells with Solution‐Processed Silver Nanowire ElectrodesAdvanced Materials, 23
-
Yugang Sun, Younan Xia (2002)
Large‐Scale Synthesis of Uniform Silver Nanowires Through a Soft, Self‐Seeding, Polyol ProcessAdvanced Materials, 14
-
Dapeng Li, D. Sutton, Andrew Burgess, Derek Graham, P. Calvert (2009)
Conductive Copper and Nickel Lines via Reactive Inkjet PrintingNIP & Digital Fabrication Conference
-
A. Henglein, M. Giersig (1999)
Formation of Colloidal Silver Nanoparticles: Capping Action of CitrateJournal of Physical Chemistry B, 103
-
Yugang Sun, W. Choi, Hanqing Jiang, Yonggang Huang, J. Rogers (2006)
Controlled buckling of semiconductor nanoribbons for stretchable electronicsNature Nanotechnology, 1
-
A. Sarkar, A. Mukherjee, S. Kapoor (2008)
PVP-Stabilized Copper Nanoparticles: A Reusable Catalyst for “Click” Reaction between Terminal Alkynes and Azides in Nonaqueous SolventsJournal of Physical Chemistry C, 112
-
N. Luechinger, E. Athanassiou, W. Stark (2008)
Graphene-stabilized copper nanoparticles as an air-stable substitute for silver and gold in low-cost ink-jet printable electronicsNanotechnology, 19
-
Marvin. Antelman, F. Harris (1982)
The encyclopedia of chemical electrode potentials -
S. Walker, J. Lewis (2012)
Reactive silver inks for patterning high-conductivity features at mild temperatures.Journal of the American Chemical Society, 134 3
-
V. Davis, V. Davis, A. Parra‐Vasquez, Micah Green, Micah Green, P. Rai, N. Behabtu, Valentin Prieto, R. Booker, Judith Schmidt, E. Kesselman, Wei Zhou, H. Fan, W. Adams, R. Hauge, J. Fischer, Y. Cohen, Y. Talmon, R. Smalley, M. Pasquali (2009)
True solutions of single-walled carbon nanotubes for assembly into macroscopic materialsNature Nanotechnology, 4
-
Jinke Chang, Jiankang He, Mao Mao, Wenxing Zhou, Qian Lei, Xiao Li, Dichen Li, C. Chua, Xin Zhao (2018)
Advanced Material Strategies for Next-Generation Additive ManufacturingMaterials, 11
-
I. Hussain, N. Singh, Ajey Singh, Himani Singh, S. Singh (2015)
Green synthesis of nanoparticles and its potential applicationBiotechnology Letters, 38
-
T. Teranishi, M. Miyake (1998)
Size Control of Palladium Nanoparticles and Their Crystal StructuresChemistry of Materials, 10
-
A. Rathmell, M. Nguyen, M. Chi, B. Wiley (2012)
Synthesis of oxidation-resistant cupronickel nanowires for transparent conducting nanowire networks.Nano letters, 12 6
-
A. Kamyshny, J. Steinke, S. Magdassi (2011)
Metal-based Inkjet Inks for Printed ElectronicsThe Open Applied Physics Journal, 4
-
A. Kilislioglu (2012)
Ion Exchange Technologies -
Rakesh Afre, Nallin Sharma, M. Sharon, M. Sharon (2018)
Transparent Conducting Oxide Films for Various Applications: A ReviewREVIEWS ON ADVANCED MATERIALS SCIENCE, 53
-
Jizhong Song, S. Kulinich, Jianhai Li, Yanli Liu, H. Zeng (2014)
A general one-pot strategy for the synthesis of high-performance transparent-conducting-oxide nanocrystal inks for all-solution-processed devices.Angewandte Chemie, 54 2
-
Dishit Parekh, Collin Ladd, Lazar Panich, K. Moussa, M. Dickey (2016)
3D printing of liquid metals as fugitive inks for fabrication of 3D microfluidic channels.Lab on a chip, 16 10
-
Inhyuk Kim, Youngwoo Kim, Kyoohee Woo, Eui-Hyun Ryu, K. Yon, G. Cao, Jooho Moon (2013)
Synthesis of oxidation-resistant core–shell copper nanoparticlesRSC Advances, 3
-
D. Goia (2004)
Preparation and formation mechanisms of uniform metallic particles in homogeneous solutionsJournal of Materials Chemistry, 14
-
Kenny Vernieuwe, J. Feys, D. Cuypers, K. Buysser (2016)
Ink‐Jet Printing of Aqueous Inks for Single‐Layer Deposition of Al‐Doped ZnO Thin FilmsJournal of the American Ceramic Society, 99
-
Chien‐Liang Lee, Chih-Hao Chen, Chin-Wei Chen (2013)
Graphene nanosheets as ink particles for inkjet printing on flexible boardChemical Engineering Journal, 230
-
Jun Natsuki, T. Natsuki, Y. Hashimoto (2015)
A Review of Silver Nanoparticles: Synthesis Methods, Properties and ApplicationsInternational Journal of Materials Science and Applications, 4
-
Boya Dai, L. Fu, Lei Liao, Nan Liu, Kai Yan, Yongsheng Chen, Zhongfan Liu (2011)
High-quality single-layer graphene via reparative reduction of graphene oxideNano Research, 4
-
S. De, Thomas Higgins, Philip Lyons, Evelyn Doherty, P. Nirmalraj, W. Blau, J. Boland, J. Coleman (2009)
Silver Nanowire Networks as Flexible, Transparent, Conducting Films: Extremely High DC to Optical Conductivity Ratios.ACS nano, 3 7
-
D. Ginley, 細野 秀雄, D. Paine (2011)
Handbook of transparent conductors -
Yi Wang, Rongqin Huang, Guohai Liang, Zhengyong Zhang, Peng Zhang, Shaoning Yu, J. Kong (2014)
Theranostics: MRI-Visualized, Dual-Targeting, Combined Tumor Therapy Using Magnetic Graphene-Based Mesoporous Silica (Small 1/2014)Small, 10
-
Hui Shi, Cong-cong Liu, Jingkun Xu, Haijun Song, Baoyang Lu, F. Jiang, Weiqiang Zhou, Ge Zhang, Qinglin Jiang (2013)
Facile fabrication of PEDOT:PSS/polythiophenes bilayered nanofilms on pure organic electrodes and their thermoelectric performance.ACS applied materials & interfaces, 5 24
-
Chunwei Wu, Brian Mosher, T. Zeng (2006)
One-step green route to narrowly dispersed copper nanocrystalsJournal of Nanoparticle Research, 8
-
T. Maruyama, A. Kojima (1988)
Indium-Tin Oxide Thin Films Prepared by Thermal Decomposition of Metallic Complex SaltsJapanese Journal of Applied Physics, 27
-
N. Xia, R. Gerhardt (2016)
Fabrication and characterization of highly transparent and conductive indium tin oxide films made with different solution-based methodsMaterials Research Express, 3
-
Ahmed Wajid, Sriya Das, Fahmida Irin, H. Ahmed, John Shelburne, D. Parviz, Robert Fullerton, A. Jankowski, Ronald Hedden, Micah Green (2011)
Polymer-stabilized graphene dispersions at high concentrations in organic solvents for nanocomposite productionarXiv: Materials Science
-
C. Janiak (2013)
Metal Nanoparticle Synthesis in Ionic Liquids -
Kukjoo Kim, S. Ahn, K. Choi (2014)
Simultaneous synthesis and patterning of graphene electrodes by reactive inkjet printingCarbon, 66
-
Yijie Xia, Hongmei Zhang, Jianyong Ouyang (2010)
Highly conductive PEDOT:PSS films prepared through a treatment with zwitterions and their application in polymer photovoltaic cellsJournal of Materials Chemistry, 20
-
M. Layani, I. Cooperstein, S. Magdassi (2013)
UV crosslinkable emulsions with silver nanoparticles for inkjet printing of conductive 3D structuresJournal of Materials Chemistry C, 1
-
Youngil Lee, Jun-rak Choi, Kwi-Jong Lee, Nathan Stott, Donghoon Kim (2008)
Large-scale synthesis of copper nanoparticles by chemically controlled reduction for applications of inkjet-printed electronicsNanotechnology, 19
-
Collin Ladd, Ju‐Hee So, J. Muth, M. Dickey (2013)
3D Printing of Free Standing Liquid Metal MicrostructuresAdvanced Materials, 25
-
Chao Chen, Jia Yonggao, Dan Jia, Shuxin Li, Shulin Ji, C. Ye (2017)
Formulation of concentrated and stable ink of silver nanowires with applications in transparent conductive filmsRSC Advances, 7
-
Jizhou Song, Hanqing Jiang, W. Choi, D. Khang, Yonggang Huang, J. Rogers (2008)
An analytical study of two-dimensional buckling of thin films on compliant substratesJournal of Applied Physics, 103
-
A. Vacca, M. Mascia, S. Rizzardini, S. Corgiolu, S. Palmas, Monia Demelas, A. Bonfiglio, P. Ricci (2015)
Preparation and characterisation of transparent and flexible PEDOT:PSS/PANI electrodes by ink-jet printing and electropolymerisationRSC Advances, 5
-
J. Prásek, J. Drbohlavová, J. Chomoucka, J. Hubálek, O. Jašek, V. Adam, R. Kizek (2011)
Methods for carbon nanotubes synthesis—reviewJournal of Materials Chemistry, 21
-
A. Pajor-Świerzy, Yousef Farraj, A. Kamyshny, S. Magdassi (2017)
Air stable copper-silver core-shell submicron particles: Synthesis and conductive ink formulationColloids and Surfaces A: Physicochemical and Engineering Aspects, 521
-
G. Cummins, M. Desmulliez (2012)
Inkjet printing of conductive materials: a reviewCircuit World, 38
-
K. Black, Jetinder Singh, Danielle Mehta, S. Sung, C. Sutcliffe, P. Chalker (2016)
Silver Ink Formulations for Sinter-free Printing of Conductive FilmsScientific Reports, 6
-
Sheng Xu, Zheng Yan, Kyung-In Jang, Wen Huang, Haoran Fu, Jeonghyun Kim, Zijun Wei, Matthew Flavin, Joselle McCracken, Renhan Wang, A. Badea, Yuhao Liu, Dongqing Xiao, Guoyan Zhou, Jungwoo Lee, Ha Chung, Huanyu Cheng, W. Ren, Anthony Banks, Xiuling Li, U. Paik, R. Nuzzo, Yonggang Huang, Yihui Zhang, John Rogers (2015)
Assembly of micro/nanomaterials into complex, three-dimensional architectures by compressive bucklingScience, 347
-
A. Mohammed (2017)
Development of a new Stretchable and Screen Printable Conductive Ink -
Yu Wang, Zhengwei Li, Jianliang Xiao (2016)
Stretchable Thin Film Materials: Fabrication, Application, and MechanicsJournal of Electronic Packaging, 138
- Publisher
- Springer International Publishing
- Copyright
- © The Editor(s) (if applicable) and The Author(s), under exclusive license to Springer Nature Switzerland AG 2022
- ISBN
- 978-3-030-79803-1
- Pages
- 119–157
- DOI
- 10.1007/978-3-030-79804-8_3
- Publisher site
- See Chapter on Publisher Site
Abstract
[Flexible circuits can be produced on polymer film, metal foil, paper, or textile using printing processes and permit futuristic designs with curved diodes or input elements. This requires printable electronic materials that can be printed on the curved substrate surfaces and retain a high level of conductivity during usage even after specified folding and/or stretching. Different materials and their composites have been developed for 3D prinitng and additive manufacturing to fabricate conductive features. These conductive materials could be mainly categorized into metal-based, carbon-based, and organic-based materials as well other conductive materials. The applications have covered photovoltaics, touch screen edge electrodes, automotive and in-mold electronics, PCB, electronic textile and wearable electronics, 3D antennas and conformal printing, EMI shielding, printed sensors, RFID (HF, UHF), TFT and memory, OLED and large-area LED lighting, and more. This chapter will provide an overview of the current status and future trends of typical conductive materials for printed flexible electronics.]
Published: Oct 5, 2021
Keywords: Conductive material; Material jetting; Material extrusion; Electrohydrodynamic printing; Metal nanoparticle; Organometallic compound; Liquid metal ink; Reactive metal ink; Carbon nanotube; Graphene