Advanced search
Publication Cover
Molecular Crystals and Liquid Crystals Volume 554, 2012 - Issue 1: Proceedings of the 11th International Conference on Frontiers of Polymers and Advanced Materials (ICFPAM2011)
Submit an article Journal homepage
524
Views
36
CrossRef citations to date
0
Altmetric
Original Articles

Agar-Based Gel Electrolyte for Electrochromic Device Application

E. Raphael IQSC, Universidade de São Paulo, C.P. 780, CEP 13560-970, São Carlos, SP, Brazil
,
C. O. Avellaneda CDTec, Universidade Federal de Pelotas, CEP 96010-00, Pelotas, RS, Brazil
,
M. A. Aegerter Ch des Placettes, 6, 1041, Bottens, Switzerland
,
M. M. Silva Centro de Química, Universidade do Minho, Gualtar, 4710-057, Braga, Portugal
&
A. Pawlicka IQSC, Universidade de São Paulo, C.P. 780, CEP 13560-970, São Carlos, SP, Brazil
Pages 264-272 | Published online: 12 Jan 2012

Citations (36)

Keep up to date with the latest research on this topic with citation updates for this article.

Subscribe to citation updates

Read on this site (2)

M. S. A. Rani, N. A. Dzulkurnain, A. Ahmad & N. S. Mohamed. (2015) Conductivity and Dielectric Behavior Studies of Carboxymethyl Cellulose from Kenaf Bast Fiber Incorporated with Ammonium Acetate-BMATFSI Biopolymer Electrolytes. International Journal of Polymer Analysis and Characterization 20:3, pages 250-260.
Read now
R.D. Alves, L.C. Rodrigues, J.R. Andrade, A. Pawlicka, L. Pereira, R. Martins, E. Fortunato & M.M. Silva. (2013) Study and Characterization of a Novel Polymer Electrolyte Based on Agar Doped with Magnesium Triflate. Molecular Crystals and Liquid Crystals 570:1, pages 1-11.
Read now

Articles from other publishers (34)

Raquel Alves, Arkaitz Fidalgo-Marijuan, Manuel Salado, Renato Gonçalves, Maria M. Silva, Begoña Bazán, Francisco Javier del Campo, Carlos M. Costa & Senentxu Lanceros-Mendez. (2023) Agar-Based Solid Polymer Electrolyte-Containing Ionic Liquid for Sustainable Electrochromic Devices. ACS Sustainable Chemistry & Engineering 11:46, pages 16575-16584.
Crossref
Estibaliz García-Gaitán, María Carmen Morant-Miñana, Domenico Frattini, Lorenza Maddalena, Alberto Fina, Claudio Gerbaldi, Igor Cantero & Nagore Ortiz-Vitoriano. (2023) Agarose-based Gel Electrolytes for Sustainable Primary and Secondary Zinc-Air Batteries. Chemical Engineering Journal 472, pages 144870.
Crossref
Domenico Frattini, Estíbaliz García Gaitán, Ainhoa Bustinza Murguialday, Michel Armand & Nagore Ortiz-Vitoriano. (2022) Essential data for industrially relevant development of bifunctional cathodes and biopolymer electrolytes in solid-state zinc–air secondary batteries. Energy & Environmental Science 15:12, pages 5039-5058.
Crossref
Camila M. Cholant, Marco P. Rodrigues, Raphael D. C. Balboni, Luana U. Krüger, Rafaela M. J. Lemos, Daniele F. Lopes, Agnieszka Pawlicka & César O. Avellaneda. (2022) Study of the effect of LiClO4 concentration on the ionic transport of solid polymer electrolyte based on poly(vinyl alcohol)/gum Arabic. Ionics 28:6, pages 2715-2729.
Crossref
V. Karuppasamy Vikraman, D. Praveen Kumar, G. Boopathi, P. Komalabharathi & P. Subramanian. 2022. Encyclopedia of Green Materials. Encyclopedia of Green Materials 1 7 .
Noriah Abdul Rahman, Sharina Abu Hanifah, Nadhratun Naiim Mobarak, Azizan Ahmad, Norasikin Ahmad Ludin, Federico Bella & Mohd Sukor Su'ait. (2021) Chitosan as a paradigm for biopolymer electrolytes in solid-state dye-sensitised solar cells. Polymer 230, pages 124092.
Crossref
Vahideh Bayzi Isfahani, Rui F. P. Pereira, Mariana Fernandes, Rodrigo C. Sabadini, Sónia Pereira, Hamid Rezagholipour Dizaji, Ali Arab, Elvira Fortunato, Agnieszka Pawlicka, Rosa Rego, Verónica Zea Bermudez & Maria M. Silva. (2021) Gellan‐Gum and LiTFSI‐Based Solid Polymer Electrolytes for Electrochromic Devices. ChemistrySelect 6:20, pages 5110-5119.
Crossref
Bo-Seong Park, Hyun-Jeong Kim, Hyeonho Shin, Seongmin Park, Jaeun Lee, Sunggun Jeon & Yoon-Chae Nah. (2021) Viologen Based All-in-one Flexible Electrochromic Devices. Korean Journal of Materials Research 31:3, pages 132-138.
Crossref
Shi‐Ming Wang, Yuhao Wang, Tao Wang, Zhengbo Han, Cheolhyun Cho & Eunkyoung Kim. (2020) Charge‐Balancing Redox Mediators for High Color Contrast Electrochromism on Polyoxometalates. Advanced Materials Technologies 5:10, pages 2000326.
Crossref
José A. Avila‐Niño, Sofía Vilchis & Elsie Araujo. (2020) Flexible and transparent capacitors based on gel‐type natural polymers. Journal of Applied Polymer Science 137:35, pages 49028.
Crossref
Ying Zhu, Lingling Xie, Tianci Chang, Aibin Huang, Ping Jin & Shanhu Bao. (2020) Synergistic Effect of Al 3+ /Li + -Based All-Solid-State Electrochromic Devices with Robust Performance . ACS Applied Electronic Materials 2:7, pages 2171-2179.
Crossref
Camila M. Cholant, Luana U. Krüger, Raphael D. C Balboni, Marco P. Rodrigues, Fabiele C. Tavares, Leandro L. Peres, Wladimir H. Flores, André Gündel, Agnieszka Pawlicka & César O. Avellaneda. (2020) Synthesis and characterization of solid polymer electrolyte based on poly(vinyl alcohol)/gum Arabic/LiClO4. Ionics 26:6, pages 2941-2948.
Crossref
Marwah Rayung, Min Min Aung, Shah Christirani Azhar, Luqman Chuah Abdullah, Mohd Sukor Su’ait, Azizan Ahmad & Siti Nurul Ain Md Jamil. (2020) Bio-Based Polymer Electrolytes for Electrochemical Devices: Insight into the Ionic Conductivity Performance. Materials 13:4, pages 838.
Crossref
Rahul Singh & Hee-Woo Rhee. (2019) The rise of bio-inspired energy devices. Energy Storage Materials 23, pages 390-408.
Crossref
Esin Eren. (2019) Improved performance and stability of solid state electrochromic devices with eco-friendly chitosan-based electrolytes. Solid State Ionics 334, pages 152-159.
Crossref
Sílvia C. Nunes, Sofia M. Saraiva, Rui F. P. Pereira, Sónia Pereira, Maria Manuela Silva, Luís D. Carlos, Elvira Fortunato, Rute A. S. Ferreira, Rosa Rego & Verónica de Zea Bermudez. (2019) Sustainable Dual-Mode Smart Windows for Energy-Efficient Buildings. ACS Applied Energy Materials 2:3, pages 1951-1960.
Crossref
S. Nunes, S. Saraiva, R. Pereira, M. Silva, L. Carlos, P. Almeida, M. Gonçalves, R. Ferreira & V. Bermudez. (2019) Luminescent κ-Carrageenan-Based Electrolytes Containing Neodymium Triflate. Molecules 24:6, pages 1020.
Crossref
R. Alves, F. Sentanin, R.C. Sabadini, A. Pawlicka & M.M. Silva. (2017) Solid polymer electrolytes based on chitosan and Dy(CF3SO3)3 for electrochromic devices. Solid State Ionics 310, pages 112-120.
Crossref
S. Selvalakshmi, T. Mathavan, S. Selvasekarapandian & M. Premalatha. (2017) Study on NH4I composition effect in agar–agar-based biopolymer electrolyte. Ionics 23:10, pages 2791-2797.
Crossref
R. Alves, F. Sentanin, R.C. Sabadini, A. Pawlicka & M.M. Silva. (2017) Innovative electrolytes based on chitosan and thulium for solid state applications: Synthesis, structural, and thermal characterization. Journal of Electroanalytical Chemistry 788, pages 156-164.
Crossref
E. Raphael, D. H. Jara & M. A. Schiavon. (2017) Optimizing photovoltaic performance in CuInS 2 and CdS quantum dot-sensitized solar cells by using an agar-based gel polymer electrolyte . RSC Advances 7:11, pages 6492-6500.
Crossref
Ding Zhou, Dong Xie, Xinhui Xia, Xiuli Wang, Changdong Gu & Jiangping Tu. (2016) All-solid-state electrochromic devices based on WO3||NiO films: material developments and future applications. Science China Chemistry 60:1, pages 3-12.
Crossref
R. Alves, F. Sentanin, R.C. Sabadini, A. Pawlicka & M.M. Silva. (2016) Influence of cerium triflate and glycerol on electrochemical performance of chitosan electrolytes for electrochromic devices. Electrochimica Acta 217, pages 108-116.
Crossref
L.M.N. Assis, R. Leones, J. Kanicki, A. Pawlicka & M.M. Silva. (2016) Prussian blue for electrochromic devices. Journal of Electroanalytical Chemistry 777, pages 33-39.
Crossref
I. J. Shamsudin, A. Ahmad, N. H. Hassan & H. Kaddami. (2015) Biopolymer electrolytes based on carboxymethyl ҡ-carrageenan and imidazolium ionic liquid. Ionics 22:6, pages 841-851.
Crossref
Przemyslaw Ledwon, Juliana R. Andrade, Mieczyslaw Lapkowski & Agnieszka Pawlicka. (2015) Hydroxypropyl cellulose-based gel electrolyte for electrochromic devices. Electrochimica Acta 159, pages 227-233.
Crossref
Claes G. Granqvist. (2014) Electrochromics for smart windows: Oxide-based thin films and devices. Thin Solid Films 564, pages 1-38.
Crossref
Denise T. B. De Salvi, Hernane S. Barud, Agnieszka Pawlicka, Ritamara I. Mattos, Ellen Raphael, Younés Messaddeq & Sidney J. L. Ribeiro. (2014) Bacterial cellulose/triethanolamine based ion-conducting membranes. Cellulose.
Crossref
M.J. Neto, R. Leones, F. Sentanin, J.M.S.S. Esperança, M.J. Medeiros, A. Pawlicka & M.M. Silva. (2014) Ionic liquids for solid-state electrolytes and electrosynthesis. Journal of Electroanalytical Chemistry 714-715, pages 63-69.
Crossref
R. Leones, L.C. Rodrigues, M. Fernandes, R.A.S. Ferreira, I. Cesarino, A. Pawlicka, L.D. Carlos, V. de Zea Bermudez & M.M. Silva. (2013) Electro-optical properties of the DNA-Eu3+ bio-membranes. Journal of Electroanalytical Chemistry 708, pages 116-123.
Crossref
Kuo-Chuan Ho, Chih-Wei Hu & Thomas S. Varley. 2013. Electrochromic Materials and Devices. Electrochromic Materials and Devices 91 112 .
Alice Lee-Sie Eh, Xuehong Lu & Pooi See Lee. 2013. Electrochromic Materials and Devices. Electrochromic Materials and Devices 289 310 .
Raquel D. Alves, Luísa C. Rodrigues, Juliana R. Andrade, Mariana Fernandes, Joana V. Pinto, Luís Pereira, Agnieszka Pawlicka, Rodrigo Martins, Elvira Fortunato, Verónica de Zea Bermudez & Maria Manuela Silva. (2013) Gelatin n Zn(CF 3 SO 3 ) 2 Polymer Electrolytes for Electrochromic Devices . Electroanalysis 25:6, pages 1483-1490.
Crossref
S. Heusing & M. A. Aegerter. 2012. Sol-Gel Processing for Conventional and Alternative Energy. Sol-Gel Processing for Conventional and Alternative Energy 239 274 .

Reprints and Corporate Permissions

Please note: Selecting permissions does not provide access to the full text of the article, please see our help page How do I view content?

To request a reprint or corporate permissions for this article, please click on the relevant link below:

Order Reprints Request Corporate Permissions

Academic Permissions

Please note: Selecting permissions does not provide access to the full text of the article, please see our help page How do I view content?

Obtain permissions instantly via Rightslink by clicking on the button below:

Request Academic Permissions

If you are unable to obtain permissions via Rightslink, please complete and submit this Permissions form. For more information, please visit our Permissions help page.

Related research

People also read lists articles that other readers of this article have read.

Recommended articles lists articles that we recommend and is powered by our AI driven recommendation engine.

Cited by lists all citing articles based on Crossref citations.
Articles with the Crossref icon will open in a new tab.