Properties of Polysiloxane/Nanosilica Nanodielectrics for Wearable Electronic Devices

Polymer nanodielectrics characterized by good flexibility, processability, low dielectric loss and high dielectric permittivity are materials of interest for wearable electronic devices and intelligent textiles, and are highly in demand in robotics. In this study, an easily scalable and environmenta...

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Published in:	Nanomaterials (Basel, Switzerland) Vol. 12; no. 1; p. 95
Main Authors:	Radu, Elena Ruxandra, Panaitescu, Denis Mihaela, Andrei, Laura, Ciuprina, Florin, Nicolae, Cristian Andi, Gabor, Augusta Raluca, Truşcă, Roxana
Format:	Journal Article
Language:	English
Published:	Switzerland MDPI AG 29-12-2021 MDPI
Subjects:	Agglomerates Dielectric loss Dielectric properties Dielectric strength DMA Electronic devices Electronic equipment Energy storage Flexibility flexible electronics Frequency ranges Mechanical properties Modulus of elasticity Morphology Nanocomposites Nanoparticles Permittivity Polymerization Polymers Polysiloxanes Robotics Rubber silica nanoparticles Stiffness Storage modulus Substrates Tensile strength Textiles Wearable technology United States > US Germany flexible electronics DMA nanocomposites polysiloxanes silica nanoparticles dielectric properties
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Abstract	Polymer nanodielectrics characterized by good flexibility, processability, low dielectric loss and high dielectric permittivity are materials of interest for wearable electronic devices and intelligent textiles, and are highly in demand in robotics. In this study, an easily scalable and environmentally friendly method was applied to obtain polysiloxane/nanosilica nanocomposites with a large content of nanofiller, of up to 30% by weight. Nanosilica was dispersed both as individual particles and as agglomerates; in nanocomposites with a lower amount of filler, the former prevailed, and at over 20 wt% nanosilica the agglomerates predominated. An improvement of both the tensile strength and modulus was observed for nanocomposites with 5-15 wt% nanosilica, and a strong increase of the storage modulus was observed with the increase of nanofiller concentration. Furthermore, an increase of the storage modulus of up to seven times was observed in the nanocomposites with 30 wt% nanosilica. The tensile modulus was well fitted by models that consider the aggregation of nanoparticles and the role of the interface. The dielectric spectra showed an increase of the real part of the complex relative permittivity with 33% for 30 wt% nanosilica in nanocomposites at a frequency of 1 KHz, whereas the loss tangent values were lower than 0.02 for all tested nanodielectrics in the radio frequency range between 1 KHz and 1 MHz. The polysiloxane-nanosilica nanocomposites developed in this work showed good flexibility; however, they also showed increased stiffness along with a stronger dielectric response than the unfilled polysiloxane, which recommends them as dielectric substrates for wearable electronic devices.
AbstractList	Polymer nanodielectrics characterized by good flexibility, processability, low dielectric loss and high dielectric permittivity are materials of interest for wearable electronic devices and intelligent textiles, and are highly in demand in robotics. In this study, an easily scalable and environmentally friendly method was applied to obtain polysiloxane/nanosilica nanocomposites with a large content of nanofiller, of up to 30% by weight. Nanosilica was dispersed both as individual particles and as agglomerates; in nanocomposites with a lower amount of filler, the former prevailed, and at over 20 wt% nanosilica the agglomerates predominated. An improvement of both the tensile strength and modulus was observed for nanocomposites with 5–15 wt% nanosilica, and a strong increase of the storage modulus was observed with the increase of nanofiller concentration. Furthermore, an increase of the storage modulus of up to seven times was observed in the nanocomposites with 30 wt% nanosilica. The tensile modulus was well fitted by models that consider the aggregation of nanoparticles and the role of the interface. The dielectric spectra showed an increase of the real part of the complex relative permittivity with 33% for 30 wt% nanosilica in nanocomposites at a frequency of 1 KHz, whereas the loss tangent values were lower than 0.02 for all tested nanodielectrics in the radio frequency range between 1 KHz and 1 MHz. The polysiloxane–nanosilica nanocomposites developed in this work showed good flexibility; however, they also showed increased stiffness along with a stronger dielectric response than the unfilled polysiloxane, which recommends them as dielectric substrates for wearable electronic devices.
Author	Nicolae, Cristian Andi Andrei, Laura Truşcă, Roxana Ciuprina, Florin Gabor, Augusta Raluca Radu, Elena Ruxandra Panaitescu, Denis Mihaela
AuthorAffiliation	3 National Research Centre for Micro and Nanomaterials, University Politehnica of Bucharest, 313 Spl. Indendentei, 060042 Bucharest, Romania; truscaroxana@yahoo.com 2 ELMAT Laboratory, Faculty of Electrical Engineering, University Politehnica of Bucharest, 313 Spl. Indendentei, 060042 Bucharest, Romania; laura@elmat.pub.ro 1 National Institute for R&D in Chemistry and Petrochemistry ICECHIM, 202 Spl. Indendentei, 060021 Bucharest, Romania; radu.elena.ruxandra@gmail.com (E.R.R.); cristian.nicolae@icechim.ro (C.A.N.); raluca.gabor@icechim.ro (A.R.G.)
AuthorAffiliation_xml	– name: 2 ELMAT Laboratory, Faculty of Electrical Engineering, University Politehnica of Bucharest, 313 Spl. Indendentei, 060042 Bucharest, Romania; laura@elmat.pub.ro – name: 1 National Institute for R&D in Chemistry and Petrochemistry ICECHIM, 202 Spl. Indendentei, 060021 Bucharest, Romania; radu.elena.ruxandra@gmail.com (E.R.R.); cristian.nicolae@icechim.ro (C.A.N.); raluca.gabor@icechim.ro (A.R.G.) – name: 3 National Research Centre for Micro and Nanomaterials, University Politehnica of Bucharest, 313 Spl. Indendentei, 060042 Bucharest, Romania; truscaroxana@yahoo.com
Author_xml	– sequence: 1 givenname: Elena Ruxandra surname: Radu fullname: Radu, Elena Ruxandra organization: National Institute for R&D in Chemistry and Petrochemistry ICECHIM, 202 Spl. Indendentei, 060021 Bucharest, Romania – sequence: 2 givenname: Denis Mihaela orcidid: 0000-0003-3352-0929 surname: Panaitescu fullname: Panaitescu, Denis Mihaela organization: National Institute for R&D in Chemistry and Petrochemistry ICECHIM, 202 Spl. Indendentei, 060021 Bucharest, Romania – sequence: 3 givenname: Laura surname: Andrei fullname: Andrei, Laura organization: ELMAT Laboratory, Faculty of Electrical Engineering, University Politehnica of Bucharest, 313 Spl. Indendentei, 060042 Bucharest, Romania – sequence: 4 givenname: Florin orcidid: 0000-0001-8102-4554 surname: Ciuprina fullname: Ciuprina, Florin organization: ELMAT Laboratory, Faculty of Electrical Engineering, University Politehnica of Bucharest, 313 Spl. Indendentei, 060042 Bucharest, Romania – sequence: 5 givenname: Cristian Andi surname: Nicolae fullname: Nicolae, Cristian Andi organization: National Institute for R&D in Chemistry and Petrochemistry ICECHIM, 202 Spl. Indendentei, 060021 Bucharest, Romania – sequence: 6 givenname: Augusta Raluca surname: Gabor fullname: Gabor, Augusta Raluca organization: National Institute for R&D in Chemistry and Petrochemistry ICECHIM, 202 Spl. Indendentei, 060021 Bucharest, Romania – sequence: 7 givenname: Roxana surname: Truşcă fullname: Truşcă, Roxana organization: National Research Centre for Micro and Nanomaterials, University Politehnica of Bucharest, 313 Spl. Indendentei, 060042 Bucharest, Romania
BackLink	https://www.ncbi.nlm.nih.gov/pubmed/35010043$$D View this record in MEDLINE/PubMed
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Keywords	flexible electronics DMA nanocomposites polysiloxanes silica nanoparticles dielectric properties
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SubjectTerms	Agglomerates Dielectric loss Dielectric properties Dielectric strength DMA Electronic devices Electronic equipment Energy storage Flexibility flexible electronics Frequency ranges Mechanical properties Modulus of elasticity Morphology Nanocomposites Nanoparticles Permittivity Polymerization Polymers Polysiloxanes Robotics Rubber silica nanoparticles Stiffness Storage modulus Substrates Tensile strength Textiles Wearable technology
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Title	Properties of Polysiloxane/Nanosilica Nanodielectrics for Wearable Electronic Devices
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