Comparison between Microwave and Microwave Plasma Sintering of Nickel Powders

Breen, Aidan; Twomey, Barry; Byrne, G.; Dowling, Denis P.

doi:10.4028/www.scientific.net/msf.672.289

Cited by 5 publications

(4 citation statements)

References 10 publications

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“…In this case, heat is not only generated inside the printed layer (as in conventional microwave plasma) but it is also transferred by the plasma directly on the layer's surface. Plasma sintering can be therefore performed much more rapidly than conventional microwave plasma and, as a consequence, energy consumption is dramatically reduced . Plasma sintering has been successfully used for the postdeposition treatment of printed silver patterns; sintered silver exhibited surprisingly high electrical conductivity, very close to that of bulk silver. ‐Electrical sintering: in this case, the heat necessary to promote the nanoparticles sintering is generated inside the inkjet‐printed structure by an electrical current flowing through the printed layer and dissipating energy through the Joule effect.…”

Section: Functional Inks For Inkjet‐printingmentioning

confidence: 99%

Inkjet‐Printing: A New Fabrication Technology for Organic Transistors

Mattana

Loi

Woytasik

et al. 2017

Adv Materials Technologies

123

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Inkjet-printing is one of the most important fabrication techniques in the field of printed electronics. Its main advantages include the possibility of fabricating, at ambient conditions and by employing a digital layout, a large variety of electronic devices on different types of substrates, including flexible plastic ones. In this paper, the utilization of inkjet-printing as an important fabrication tool for the realization of organic transistors and circuits/sensing systems based on such type of transistors is reviewed. The most important aspects of the fabrication process, including ink formulation, printing deposition, and postprinting treatment, are described in detail. The most significant examples of inkjet-printed organic transistors of different types (field-effect, electrolytegated, and electrochemical) are presented and finally an overview of their applications as building blocks of more complex electronic circuits and systems for the detection and quantification of specific measurands is provided.

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Section: Functional Inks For Inkjet‐printingmentioning

confidence: 99%

Inkjet‐Printing: A New Fabrication Technology for Organic Transistors

Mattana

Loi

Woytasik

et al. 2017

Adv Materials Technologies

123

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“…Additionally, all the reviewed studies indicate a considerable reduction in processing time by using microwave heating compared to a conventional electrical oven. This is because the volumetric heating process is significantly more efficient in comparison with resistance heating [72,85].…”

Section: Critical Evaluationmentioning

confidence: 99%

Future of clay-based construction materials – A review

Shubbar

Sadique

Kot

et al. 2019

Construction and Building Materials

117

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Sustainability in the manufacture of different construction materials raises many important issues. Nowadays, there is increasing demand for such materials to be produced using environmentally friendly, low energy consuming production methods. This paper presents a review of the current research relating to the use of various production techniques for claybased construction materials. The techniques which will be reviewed are: blending and stabilising, alkali activation (geopolymerisation) and the use of microwave heating as an innovative sintering, curing and drying method. The advantages and disadvantages of each technique will be discussed. Additionally, a comparison between the environmental and economic aspects of the studied production techniques along with some suggestions to improve the sustainability of different production techniques will be discussed.

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“…One of the advantages of microwave plasma treatment is the combined advantage inherent in microwave and plasma heating in terms of volumetric, homogeneous and rapid heating [2,36,37]. For example, the work of Twomey et al [37] demonstrates that homogenous heating of substrates could be achieved using microwave plasma treatments including considerably lower cycle times [38] compared to non-plasma microwave and furnace heating. In this section, the use of microwave plasma processing for the sintering of Nickel oxide (NiO) and Titanium dioxide (TiO 2 ) particles is presented.…”

Section: Microwave Plasma Sintering Of Nanoparticlesmentioning

confidence: 99%

Microwave Plasmas as a Processing Tool for Tailoring the Surface Properties of Ceramic Coatings

Ekoi¹,

Awais²,

Dowling³

2018

Recent Advances in Porous Ceramics

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This chapter reviews the use of low pressure microwave plasmas as a processing technology for both sintering and controlling the surface chemistry of porous ceramic coatings. A particular advantage of microwave processing is its ability to penetrate the surface of the workpiece; enabling rapid volumetric heating and thus reducing the need for external heat sources. The microwave plasma treatments have the ability to sinter materials in minutes rather than the hours taken using conventional furnace processing. This study provides examples of the use of these plasmas to sinter both nickel and titanium nanoparticles. These are used in the fabrication of electrodes for use in dye sensitized solar cells. Further applications of the microwave plasma treatments investigated is for their use in heat treatment to control crystalline phase transitions, as well as a rapid technique to oxidize metal surfaces.

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Comparison between Microwave and Microwave Plasma Sintering of Nickel Powders

Cited by 5 publications

References 10 publications

Inkjet‐Printing: A New Fabrication Technology for Organic Transistors

Inkjet‐Printing: A New Fabrication Technology for Organic Transistors

Future of clay-based construction materials – A review

Microwave Plasmas as a Processing Tool for Tailoring the Surface Properties of Ceramic Coatings

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