Skip to main content
Disciplines
Automotive Business IT + Informatics Construction + Real Estate Electrical Engineering + Electronics Energy + Sustainability Insurance + Risk Finance + Banking Management + Leadership Marketing + Sales Mechanical Engineering + Materials
Events
DE
EN
Books
Journals
Topic Page
Marketing
Start single access now
Access for companies
EXTENDED SEARCH
Log in
Top
Cellulose
Published in: Cellulose 10/2019

21-05-2019 | Original Research

Study of electrothermal properties of silver nanowire/polydopamine/cotton-based nanocomposites

Authors: Zhiliang Chen, Weidong Yu, Zhaoqun Du

Published in: Cellulose | Issue 10/2019

Log in

Activate our intelligent search to find suitable subject content or patents.

search-config
loading …

Abstract

In this study, cotton fabrics were reported to be typically functionalized by loading silver nanowires (AgNW) on the surface of the polydopamine modified cotton fabric. Firstly, AgNW were prepared by a polyol method and then a polydopamine-modified cotton fabric was prepared by being immersed in AgNW dispersion by the dip-coating method. The resulting silver nanowire/polydopamine/cotton-based nanocomposites (APCN) has a surface specific resistance as low as 2.4 Ω and has good durability and flexibility. In addition, the electrothermal properties of APCN were investigated by applied voltage. The result showed that the composite material can reach 80 °C in a short time under the voltage of 1.8 V, and conform to the power balance model. The steady-state temperature of the composite material is closely related to the voltage, and has a quadratic relationship with the voltage and expresses linear relation with the electric power.

Graphical abstract

previous article Microfibrillated cellulose modified with urea and its reinforcement for starch-based bionanocomposites
next article Development of organic–inorganic oxidized bacterial cellulose nanobiocomposites: ternary complexes

Dont have a licence yet? Then find out more about our products and how to get one now:

Springer Professional "Technik"

Online-Abonnement

Mit Springer Professional "Technik" erhalten Sie Zugriff auf:

  • über 67.000 Bücher
  • über 390 Zeitschriften

aus folgenden Fachgebieten:

  • Automobil + Motoren
  • Bauwesen + Immobilien
  • Business IT + Informatik
  • Elektrotechnik + Elektronik
  • Energie + Nachhaltigkeit
  • Maschinenbau + Werkstoffe




 

Jetzt Wissensvorsprung sichern!

inform now

Springer Professional "Wirtschaft+Technik"

Online-Abonnement

Mit Springer Professional "Wirtschaft+Technik" erhalten Sie Zugriff auf:

  • über 102.000 Bücher
  • über 537 Zeitschriften

aus folgenden Fachgebieten:

  • Automobil + Motoren
  • Bauwesen + Immobilien
  • Business IT + Informatik
  • Elektrotechnik + Elektronik
  • Energie + Nachhaltigkeit
  • Finance + Banking
  • Management + Führung
  • Marketing + Vertrieb
  • Maschinenbau + Werkstoffe
  • Versicherung + Risiko

Jetzt Wissensvorsprung sichern!

inform now
Literature
Abidi N, Cabrales L, Hequet E (2010) Fourier transform infrared spectroscopic approach to the study of the secondary cell wall development in cotton fiber. Cellulose 17:309–320CrossRef
Ashraf S, Saifur R, Sher F, Khalid ZM, Mehmood M, Hussain I (2014) Synthesis of cellulose–metal nanoparticle composites: development and comparison of different protocols. Cellulose 21:395–405CrossRef
Azulai D, Belenkova T, Gilon H, Barkay Z, Markovich G (2009) Transparent metal nanowire thin films prepared in mesostructured templates. Nano Lett 9:4246CrossRefPubMed
Bae JJ et al (2012) Heat dissipation of transparent graphene defoggers. Adv Funct Mater 22:4819–4826CrossRef
Cai D, Zhou J, Duan P, Luo G, Zhang Y, Fu F, Liu X (2018) A hierarchical structure of l-cysteine/Ag NPs/hydrogel for conductive cotton fabrics with high stability against mechanical deformation. Cellulose 25:7355–7367CrossRef
Cao M, Wang M, Li L, Qiu H, Padhiar MA, Yang Z (2018a) Wearable rGO-Ag NW@cotton fiber piezoresistive sensor based on the fast charge transport channel provided by Ag nanowire. Nano Energy 50:528–535CrossRef
Cao M, Wang M, Li L, Qiu H, Yang Z (2018b) Effect of graphene-EC on Ag NW-based transparent film heaters: optimizing the stability and heat dispersion of films. ACS Appl Mater Interfaces 10:1077–1083CrossRefPubMed
Caroline C, Céline M, Eléonore M, Henda B, Alexandre C, Jean-Pierre S (2012) Highly flexible transparent film heaters based on random networks of silver nanowires. Nano Research 5:427–433CrossRef
Centeno SA, Shamir J (2008) Surface enhanced Raman scattering (SERS) and FTIR characterization of the sepia melanin pigment used in works of art. J Mol Struct 873:149–159CrossRef
Chen TL, Ghosh DS, Marchena M, Osmond J, Pruneri V (2015) Nanopatterned graphene on a polymer substrate by a direct peel-off technique. ACS Appl Mater Interfaces 7:5938–5943CrossRefPubMed
Cheng D, He M, Ran J, Cai G, Wu J, Wang X (2018) In situ reduction of TiO2 nanoparticles on cotton fabrics through polydopamine templates for photocatalysis and UV protection. Cellulose 25:1413–1424CrossRef
Choi S et al (2015) Stretchable heater using ligand-exchanged silver nanowire nanocomposite for wearable articular thermotherapy. ACS Nano 9:6626–6633CrossRefPubMed
Coskun S, Aksoy B, Unalan HE (2011) Polyol synthesis of silver nanowires: an extensive parametric study. Cryst Growth Des 11:4963–4969CrossRef
Cui H-W, Suganuma K, Uchida H (2015) Highly stretchable, electrically conductive textiles fabricated from silver nanowires and cupro fabrics using a simple dipping-drying method. Nano Research 8:1604–1614CrossRef
Dreyer DR, Miller DJ, Freeman BD, Paul DR, Bielawski CW (2012) Elucidating the structure of poly (dopamine). Langmuir ACS J Surf Coll 28:6428CrossRef
El-Tantawy F (2001) Joule heating treatments of conductive butyl rubber/ceramic superconductor composites: a new way for improving the stability and reproducibility? Eur Polym J 37:565–574CrossRef
Gaminian H, Montazer M (2017) Decorating silver nanoparticles on electrospun cellulose nanofibers through a facile method by dopamine and ultraviolet irradiation. Cellulose 24:3179–3190CrossRef
Gelves GA, Sundararaj U, Haber JA (2010) Electrostatically dissipative polystyrene nanocomposites containing copper nanowires. Macromol Rapid Commun 26:1677–1681CrossRef
Giesz P, Mackiewicz E, Nejman A, Celichowski G, Cieślak M (2017) Investigation on functionalization of cotton and viscose fabrics with AgNWs. Cellulose 24:409–422CrossRef
Gueye MN, Carella A, Demadrille R, Simonato J-P (2017) All-polymeric flexible transparent heaters. ACS Appl Mater Interfaces 9:27250–27256CrossRefPubMed
Hakansson E, Kaynak A, Lin T, Nahavandi S, Jones T, Hu E (2004) Characterization of conducting polymer coated synthetic fabrics for heat generation. Synth Met 144:21–28CrossRef
Hong S, Yun SN, Choi S, Song IT, Lee H (2012) Non-covalent self-assembly and covalent polymerization co-contribute to polydopamine formation. Adv Funct Mater 22:4711–4717CrossRef
Ilanchezhiyan P, Zakirov AS, Kumar GM, Yuldashev SU, Cho HD, Kang TW, Mamadalimov AT (2015) Highly efficient CNT functionalized cotton fabrics for flexible/wearable heating applications. RSC Adv 5:10697–10702CrossRef
Jang HS, Sang KJ, Nahm SH (2011) The manufacture of a transparent film heater by spinning multi-walled carbon nanotubes. Carbon 49:111–116CrossRef
Jason NN, Shen W, Cheng W (2015) Copper nanowires as conductive ink for low-cost draw-on electronics. ACS Appl Mater Interfaces 7:16760–16766CrossRefPubMed
Ji S, He W, Wang K, Ran Y, Ye C (2015) Thermal response of transparent silver nanowire/PEDOT:PSS film heaters. Small 10:4951–4960CrossRef
Jiang J, Zhu L, Zhu L, Zhu B, Xu Y (2011) Surface characteristics of a self-polymerized dopamine coating deposited on hydrophobic polymer films. Langmuir 27:14180–14187CrossRefPubMed
Jin FW, Hai RL (2011) Research on wearable sensors based on knitted fabrics with silver plating fiber. Adv Mater Res 331:36–39CrossRef
Ju K-Y, Lee Y, Lee S, Park SB, Lee J-K (2011) Bioinspired polymerization of dopamine to generate melanin-like nanoparticles having an excellent free-radical-scavenging property. Biomacromol 12:625–632CrossRef
Kang J et al (2011) High-performance graphene-based transparent flexible heaters. Nano Lett 11:5154–5158CrossRefPubMed
Kim TY, Kim YW, Lee HS, Kim H, Yang WS, Suh KS (2013) Uniformly Interconnected silver-nanowire networks for transparent film heaters. Adv Funct Mater 23:1250–1255CrossRef
Korte KE, Skrabalak SE, Xia Y (2008) Rapid synthesis of silver nanowires through a CuCl-or CuCl. J Mater Chem 18:437–441CrossRef
Lee JY, Dong WP, Lim JO (2003) Polypyrrole-coated woven fabric as a flexible surface-heating element. Macromol Res 11:481–487CrossRef
Li C, Liu H, Li Z (2013) Structure and electric conductive heating performance of silver-plated filament knitted fabrics. J Text Res 34:52–56
Luo J, Lu H, Zhang Q, Yao Y, Chen M, Li Q (2016) Flexible carbon nanotube/polyurethane electrothermal films. Carbon 110:343–349CrossRef
Mi Y et al (2012) A simple and feasible in situ reduction route for preparation of graphene lubricant films applied to a variety of substrates. J Mater Chem 22:8036–8042CrossRef
Nateghi MR, Shateri-Khalilabad M (2015) Silver nanowire-functionalized cotton fabric. Carbohydr Polym 117:160–168CrossRefPubMed
Pal A, Shah S, Devi S (2009) Microwave-assisted synthesis of silver nanoparticles using ethanol as a reducing agent. Mater Chem Phys 114:530–532CrossRef
Park JH, Oh KW, Choi H-M (2013) Preparation and characterization of cotton fabrics with antibacterial properties treated by crosslinkable benzophenone derivative in choline chloride-based deep eutectic solvents. Cellulose 20:2101–2114CrossRef
Shi Z et al (2015) Enhanced colloidal stability and antibacterial performance of silver nanoparticles/cellulose nanocrystal hybrids. J Mater Chem B 3:603–611CrossRef
Sui D, Huang Y, Huang L, Liang J, Ma Y, Chen Y (2011) Flexible and transparent electrothermal film heaters based on graphene materials. Small 7:3186–3192CrossRefPubMed
Sun H et al (2018) Large-area self-assembled reduced graphene oxide/electrochemically exfoliated graphene hybrid films for transparent electrothermal heaters. Appl Surf Sci 435:809–814CrossRef
Tang B, Kaur J, Sun L, Wang X (2013) Multifunctionalization of cotton through in situ green synthesis of silver nanoparticles. Cellulose 20:3053–3065CrossRef
Tian S, He P, Chen L, Wang H, Ding G, Xie X (2017) Electrochemical fabrication of high quality graphene in mixed electrolyte for ultrafast electrothermal heater. Chem Mater 29:6214–6219CrossRef
Waite JH (1983) Evidence for a repeating 3,4-dihydroxyphenylalanine- and hydroxyproline-containing decapeptide in the adhesive protein of the mussel, Mytilus edulis L. J Biol Chem 258:2911–2915PubMed
Wang F, Gao C, Holmér I (2010) Effects of air velocity and clothing combination on heating efficiency of an electrically heated vest (EHV): a pilot study. J Occup Environ Hyg 7:501–505CrossRefPubMed
Wang D, Li D, Zhao M, Xu Y, Wei Q (2018) Multifunctional wearable smart device based on conductive reduced graphene oxide/polyester fabric. Appl Surf Sci 454:218–226CrossRef
Wu J et al (2011) Mussel-inspired chemistry for robust and surface-modifiable multilayer films. Langmuir 27:13684–13691CrossRefPubMed
Xin H, Zhao X (2009) Solvothermal synthesis and formation mechanism of chain-like triangular silver nanoplate assemblies: application to metal-enhanced fluorescence (MEF). Appl Surf Sci 255:7361–7368CrossRef
Yang J, Xu H, Zhang L, Zhong Y, Sui X, Mao Z (2017) Lasting superhydrophobicity and antibacterial activity of Cu nanoparticles immobilized on the surface of dopamine modified cotton fabrics. Surf Coat Technol 309:149–154CrossRef
Yao T, Wei H, Wang S, Tao Z, Cheng L (2014) One step synthesis of silver nanowires used in preparation of conductive silver paste. J Mater Sci Mater Electron 25:2929–2933CrossRef
Yao X, Hawkins SC, Falzon BG (2018) An advanced anti-icing/de-icing system utilizing highly aligned carbon nanotube webs. Carbon 136:130–138CrossRef
Yoon YH, Song JW, Kim D, Kim J, Park JK, Oh SK, Han CS (2010) Transparent film heater using single-walled carbon nanotubes. Adv Mater 19:4284–4287CrossRef
Zhang L, Baima M, Andrew TL (2017a) Transforming commercial textiles and threads into sewable and weavable electric heaters. ACS Appl Mater Interfaces 9:32299–32307CrossRefPubMed
Zhang T-Y et al (2017b) A large-strain, fast-response, and easy-to-manufacture electrothermal actuator based on laser-reduced graphene oxide. Appl Phys Lett 111:121901CrossRef
Zhang C, Zhou G, Rao W, Fan L, Xu W, Xu J (2018) A simple method of fabricating nickel-coated cotton fabrics for wearable strain sensor. Cellulose 25:4859–4870CrossRef
Metadata
Title
Study of electrothermal properties of silver nanowire/polydopamine/cotton-based nanocomposites
Authors
Zhiliang Chen
Weidong Yu
Zhaoqun Du
Publication date
21-05-2019
Publisher
Springer Netherlands
Published in
Cellulose / Issue 10/2019
Print ISSN: 0969-0239
Electronic ISSN: 1572-882X
DOI
https://doi.org/10.1007/s10570-019-02506-w

Other articles of this Issue 10/2019

Cellulose 10/2019 Go to the issue

Original Research

Biomass-derived porous ZrTiO4 nanotubes with controlled wall-thickness for enhanced photocatalytic activity

Original Research

Separation of crude oil from water using chitosan based hydrogel

Original Research

Direct screen printing of single-faced conductive cotton fabrics for strain sensing, electrical heating and color changing

Original Research

Facile preparation of high dielectric flexible films based on titanium dioxide and cellulose nanofibrils

Original Research

Chirality and bound water in the hierarchical cellulose structure

Original Research

Electrolyte membranes based on ultrafine fibers of acetylated cellulose for improved and long-lasting dye-sensitized solar cells