Fabricarea de noi ferestre electrocromice bi-functionale care stocheaza energie
CONTRACT Nr. TE 100/2022
SURSA DE FINANTARE: BUGETUL DE STAT
COD PROIECT: PN-III-P1-1.1-TE-2021-0417
TITLUL PROIECTUL: Fabricarea de noi ferestre electrocromice bi-functionale care stocheaza energie
ACRONIM: INNOBIFEESW
ABSTRACT: Acest proiect isi propune sa obtina, sa asambleze si sa caracterizeze noi dispozitive bi-functionale de stocare a energiei, care combina caracteristicile pseudocapacitive si electrocromice. Aceste noi dispozitive, cu pret redus, prietenoase cu mediul, performante optic si capacitiv sunt realizate din: un nou catod de tip film subtire nano-compozit din nanostructuri (NSs) variate de TiO2NSs – WO3NSs; un nou electrolit solid pe baza de ADN dopat cu ioni Li+ (sau Zn2+); si un nou anod nano-hibrid pe baza de filme subtiri din PEDOT:PSS (sau PPyNSs)-TiO2NSs.
PRINCIPALUL OBIECTIV AL PROIECTULUI Acest proiect are ca obiectiv asamblarea si caracterizarea unor dispozitive inovatoare de stocare a energiei electrocromice din: noi filme subțiri nano-compozite catodice de tip TiO2rNSs – WO3NSs; bio-electroliti pe baza de ADN dopat cu ioni Li+ (sau Zn2+) si noi pelicule subtiri nano-hibride anodice de tip PEDOT:PSS (sau PPyNSs) - TiO2rNSs, cu costuri reduse si performanțe mari de modulare optica și capacitate specifica.
Obiectivele specifice ale acestui proiect sunt: - Dezvoltarea de noi electrozi electrocromici/pseudocapacitivi catodici pe baza de filme subtiri nano-compozite de TiO2rNSs-WO3NSs/FTO; - Dezvoltarea de noi electrozi nano-hibrizi anodici pe baza de pelicule subtiri de PEDOT:PSS-TiO2rNSs/FTO si PPyNSs-TiO2rNSs/FTO; - Obtinerea electrolitilor biopolimerici pe baza de ADN dopat cu ioni de Li+ sau de Zn2+, cu buna conductivitate ionica; - Asamblarea si caracterizarea noilor EESW-uri bifunctionale
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RAPORT STIINTIFIC 2022: view>> 2023: view>> 2024: view>>
Articole publicate si Brevete 1. Articol - Materials 2023, 16, 3147. https://doi.org/10.3390/ma16083147: view>> 2. Articol - Materials 2023, 16, 7509. https://doi.org/10.3390/ma16247509: view>> 3. Brevet - PROCEDEU DE FABRICARE A UNUI NOU ELECTROD PSEUDOCAPACITIV CATODIC PE BAZÄ‚ DE NANOCOMPOZIT DE TIP WO3_NANOFIBRE/TIO2_REDUS ELECTROCHIMIC PE SUBSTRAT DE FTO CU ACTIVITÄ‚Å¢I ELECTROCROMICE ÃŽMBUNÄ‚TÄ‚Å¢ITE: view>> 6. ......: view>>
Comunicari la conferinte ............................................................. 1. 22nd Romanian International Conference on Chemistry and Chemical Engineering Sinaia, ROMANIA - September 7 – 9, 2022: view>> 2. 20th International Conference on Advanced Nanomaterials, Aveiro, Portugal, 26-28 July 2023: view>> 3. 20th International Conference on Advanced Nanomaterials, Aveiro, Portugal, 26-28 July 2023: view>> 4. 3rd International Conference on Bioengineering and Polymer Science Bucharest, ROMANIA - June 7-11, 2023: view>> 5. 9th World Congress on Recent Advances in Nanotechnology (RAN 2024, London, United Kingdom, April 8 – 10, 2024: view>> ...................................................... 1. ...........................: view>>
Fabrication of innovative bi-functional electrochemical energy storage windows
CONTRACT ID TE 100/2022
FUNDING: STATE BUDGET
Project ID: PN-III-P1-1.1-TE-2021-0417
PROJECT TITLE: Fabrication of innovative bi-functional electrochemical energy storage windows
ACRONIM: INNOBIFEESW
ABSTRACT: This project aims to obtain, assemble and characterize innovative bi-function electrochromic energy storage devices which combine pseudocapacitive and electrochromic characteristics. The new devices with low cost, eco-friendly and high optical modulation performance and specific capacity are assembled from: new cathodic nano-composite with various nanostructures (NSs) based on TiO2NSs – WO3NSs thin film; new solid electrolyte DNA doped with Li+ (or Zn2+) ions; and new anodic nano-hybrid based on PEDOT:PSS (or PPyNSs)-TiO2NSs thin films.
MAJOR SCIENTIFIC OBJECTIVE OF THE PROJECT - This project aims to assemble and characterize innovative electrochromic energy storage devices based on: new cathodic nano-composite TiO2rNSs – WO3NSs thin films; bio-electrolyte DNA doped with Li+ (or Zn2+) ions and new anodic nano-hybrid PEDOT:PSS (or PPyNSs) - TiO2rNSs thin films, with low cost and high optical modulation performance and specific capacity.
The specific objectives of this project are: - Development of new cathodic nano-composite TiO2rNSs-WO3NSs thin films / FTO electrochromic/pseudocapacitive electrodes; - Development of new anodic nano-hybrid PEDOT:PSS-TiO2rNSs thin films / FTO and PPyNSs-TiO2rNSs thin films / FTO electrodes; - Design of biopolymer electrolytes based on DNA doped with Li+ or Zn2+ ions with highest ionic conductivity; - Assembly and characterization of the new bi-functional EESWs.
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Scientific reports 2022: view>> 2023: view>> 2024: view>>
Published papers and Patents 1. Article - Materials 2023, 16, 3147. https://doi.org/10.3390/ma16083147: view>> 2. Articol - Materials 2023, 16, 7509. https://doi.org/10.3390/ma16247509: view>> 3. Patent - METHOD FOR FABRICATING A NOVEL PSEUDOCAPACITIVE CATHODE ELECTRODE BASED ON WO3_NANOFIBRE/TIO2_ELECTROCHEMICALLY REDUCED NANOCOMPOSITE ON THE FTO SUBSTRATE WITH IMPROVED ELECTROCHROMIC ACTIVITIES: view>>
Communications ..................................... 1. 22nd Romanian International Conference on Chemistry and Chemical Engineering Sinaia, ROMANIA - September 7 – 9, 2022: view>> 2. 20th International Conference on Advanced Nanomaterials, Aveiro, Portugal, 26-28 July 2023: view>> 3. 20th International Conference on Advanced Nanomaterials, Aveiro, Portugal, 26-28 July 2023: view>> 4. 3rd International Conference on Bioengineering and Polymer Science Bucharest, ROMANIA - June 7-11, 2023: view>> 5. 9th World Congress on Recent Advances in Nanotechnology (RAN 2024, London, United Kingdom, April 8 – 10, 2024: view>> ........................................................ 1. ...........................: view>>