Composite materials for printed electronics in Internet of Things applications

Janeczek, Kamil

doi:10.1007/s12034-020-02101-x

Cited by 15 publications

(7 citation statements)

References 48 publications

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“…Diamane is termed as a double-layered diamond or graphene bearing the characteristics of the thinnest hard material. Bilayer graphene of sp 2 hybridization is converted to sp 3 hybridized structure through covalent bonding strategies. In diamane, two carbon atoms of two subatomic lattices with hydrogen atoms form the C 2 H layered unit, while the other non-attached carbon layer forms a covalent bond to the sub-lattices of other carbon atoms of neighboring graphene, thereby leading to the formation of a new carbon system, called diamane with a structure shown in Figure 2a-c.…”

Section: Diamane and Diamanoidsmentioning

confidence: 99%

“…[ 1 ] Thus, diamane and diamanoids are those fascinating nanocarbons which could be a new class of sensational materials similar to those such as MAX phases, single‐layer hexagonal boron nitride (hBN), metal dichalcogenides, and graphene. Looking back, as the precursor of diamane and diamanaoids, carbon nanomaterials are playing a crucial role in our modern civilization and it is hard to imagine the current commercial aspects of the internet, [ 2 ] mobile phone, [ 3 ] optical fiber, [ 4 ] pharma‐biomedical, [ 5 ] space, [ 6 ] defense, [ 6 ] automobile, [ 7 ] and textile industries [ 8 ] without carbon materials. According to Buckley et al., [ 9 ] carbon‐based materials will replace majority of non‐carbonaceous semiconductor materials used in various high technologies, including supercomputers and the next generation communication devices by 2040.…”

Section: Introductionmentioning

confidence: 99%

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Progress in Diamanes and Diamanoids Nanosystems for Emerging Technologies

et al. 2022

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New materials are the backbone of their technology-driven modern civilization and at present carbon nanostructures are the leading candidates that have attracted huge research activities. Diamanes and diamanoids are the new nanoallotropes of sp 3 hybridized carbon which can be fabricated by proper functionalization, substitution, and via Birch reduction under controlled pressure using graphitic system as a precursor. These nanoallotropes exhibit outstanding electrical, thermal, optical, vibrational, and mechanical properties, which can be an asset for new technologies, especially for quantum devices, photonics, and space technologies. Moreover, the features like wide bandgap, tunable thermal conductivity, excellent thermal insulation, etc. make diamanes and diamanoids ideal candidates for nano-electrical devices, nano-resonators, optical waveguides, and the next generation thermal management systems. In this review, diamanes and diamanoids are discussed in detail in terms of its historical prospect, method of synthesis, structural features, broad properties, and cutting-edge applications. Additionally, the prospects of diamanes and diamanoids for new applications are carefully discussed. This review aims to provide a critical update with important ideas for a new generation of quantum devices based on diamanes and diamanoids which are going to be an important topic in the future of carbon nanotechnology.

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Section: Diamane and Diamanoidsmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Progress in Diamanes and Diamanoids Nanosystems for Emerging Technologies

et al. 2022

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“…To print diverse electronics and sensors, different types of functional solutions, including conductors, [44][45][46] semiconductors, [17] dielectrics, [47] and composite materials, [48] need to be prepared. [17] According to application requirements, the chosen substrate can be low cost, optically transparent, flexible, or biocompatible.…”

Section: Overview Of the Spsmentioning

confidence: 99%

Solution Printing of Electronics and Sensors: Applicability and Application in Space

Zhang

Ding

et al. 2022

Adv Eng Mater

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To ensure the safety and reliability of increasingly frequent, long‐duration, and long‐distance space missions, a sufficient and timely supply of the electronics and sensors that are essential in the maintenance and regeneration of spacecraft in space has become urgent. Solution‐based printing (SP) in space can be considered a disruptive technology for in situ manufacturing and maintenance of functional devices during the long duration and endurance of space exploration and crewed spaceﬂight. Herein, the origin and overview of the printing techniques in space are first introduced and further the printing processes in extreme space environments are discussed; then, its potential space applications in flexible solar cells, soft and wearable sensors, and space‐based antennas are forecast; finally, survivability for printed electronics in space is analyzed. Overall, a comprehensive description of the applicability and application of the SP techniques for manufacturing electronics and sensors in space is given.

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“…2 Printed electronic technologies, including inkjet printing, 3,4 roll-to-roll printing, 5,6 screen printing, 7,8 and electrohydrodynamic jet printing 9,10 have been widely used to fabricate functional electronic devices and circuits applied in health, energy, and consumer electronics. [11][12][13][14][15][16][17] As an additive manufacturing technology, [18][19][20][21][22] printed electronic technologies have unique advantages, such as less pollution, low-cost, customization, large-scale production, and good compatibility with flexible substrates, 20,21,[23][24][25][26] which make low-cost, large-scale manufacturing of electronics possible. Notably, printed thin film transistors (TFTs) have been recognized as one of the most basic and indispensable units of printed electronics.…”

Section: Introductionmentioning

confidence: 99%