Spectroelectrochemical Properties and Lithium Ion Storage in Self-Assembled Nanocomposites from TiO<sub>2</sub>

Facci, Tiago; Huguenin, Fritz

doi:10.1021/la903301c

Cited by 12 publications

(15 citation statements)

References 44 publications

(57 reference statements)

Supporting

Mentioning

Contrasting

Unclassified

Order By: Relevance

“…Adsorption of cations by mesoporous titania or other metal oxides has been studied mainly for purposes of electrochromism and ion storage [10][11][12][13][14][15][16]. However, it is limited almost exclusively to Li salts dissolved in polycarbonate.…”

Section: Introductionmentioning

confidence: 99%

Cation adsorption by mesoporous titania photoanodes and its effect on the current-voltage characteristics of photoelectrochemical cells

Pop

Sfaelou

Lianos

2015

Electrochimica Acta

View full text Add to dashboard Cite

Section: Introductionmentioning

confidence: 99%

Cation adsorption by mesoporous titania photoanodes and its effect on the current-voltage characteristics of photoelectrochemical cells

Pop

Sfaelou

Lianos

2015

Electrochimica Acta

View full text Add to dashboard Cite

“…Nanomaterials − have attracted great interest for their application in adsorption, separation, catalysis, sensors, biomedicine, and other areas, including electrode materials for supercapacitors as well as lithium-ion batteries. Among them, nanoporous carbon represents a very attractive material owing to its unique feature of stable physical–chemistry property, high porosity, large surface, good conductivity, and especially controllable nanostructure. − Many efforts have been made to provide insight into how to design and construct their pore structure, microcrystalline structure, and surface chemistry for a specific application.…”

Section: Introductionmentioning

confidence: 99%

Ammonia-Assisted Semicarbonization: A Simple Method to Introduce Micropores without Damaging a 3D Mesoporous Carbon Nanonetwork Structure

et al. 2014

View full text Add to dashboard Cite

A simple and effective way to introduce micropores into skeleton of carbon aerogel (CA) without damaging its unique 3D mesoporous nanonetwork has been successfully developed by NH3-assisted semicarbonization. During the NH3-assisted semicarbonization process, nitrogen functional groups with high thermo-decomposable ability like pyrrolic/pyridine and pyridinic can be introduced into the semicarbonized aerogel framework by substituting oxygen functional groups with low thermo-decomposable ability like C═O quinone-type groups and then escape from the resultant CA framework during the subsequent carbonization, thus forming abundant micropores inside carbon framework under the circumstance of keeping wonderful stability of mesoporous nanonetwork structure. Compared with the traditional CA without NH3 assistance during semicarbonization, the as-prepared novel CA represents a much higher surface area (1100 vs 620 m(2) g(-1)) and a compatible mesopore structure. Meanwhile, such a NH3 treatment confers many useful nitrogen functional groups on the nanonetwork framework. The novel CA is then used as electrode material of supercapacitors and shows a much higher capacitance and comparable high capacitance retention as compared with the traditional CA.

show abstract

“…66 Eles coordenaram íons Fe(CN) 6 3-aos resíduos pirazínicos do cluster de composição Ru 3 O(ac) 6 Além desta metodologia de combinação entre materiais inorgânicos e orgânicos na construção de eletrodos eletrocrômicos, a preparação de nanoestruturas eletrocrômicas híbridas é uma excelente maneira de melhorar as propriedades já apresentadas e, algumas vezes, obter novas propriedades. Facci e Huguenin 68 avaliaram as propriedades cromogênicas e capacidades de armazenamento de 6 (py) 2 …”

Section: Nanomateriaisunclassified

Electrochromism: Basis and Application of Nanomaterials in Development of High Performance Electrodes

Quintanilha¹,

Rocha²,

Vichessi³

et al. 2014

Química Nova

View full text Add to dashboard Cite

, describing the basic aspects and methodologies employed for the construction and analyses of different modified electrodes. The work presents the classic materials used for the construction of electrochromic electrodes, such as WO 3 and a view on the basic concepts of chromaticity as a useful approach for analyzing colorimetric results. The report also addresses how the incorporation of nanomaterials and the consequent novel modification of electrodes have furthered this area of science, producing electrochromic electrodes with high performance, high efficiency and low response times.Keywords: electrochromism; nanomaterials; modified electrodes. FUNDAMENTOS DE ELETROCROMISMOAs tecnologias desenvolvidas para o entretenimento visual têm grande impacto na sociedade e vem recebendo enormes investimentos. Como principais exemplos, existem as telas de LED (do inglês, light emission diode), LCD (do inglês, liquid crystal display) ou baseadas na emissão de radiação excitada por plasma. Neste contexto, os dispositivos baseados em eletrocromismo surgem como uma alternativa às tecnologias já empregadas, embora sua utilização em telas com grandes áreas, que requerem altas velocidades e grande variedade de cores ainda seja um desafio a ser superado. Podem ser encontrados muitos dispositivos simples que empregam esta tecnologia, como janelas inteligentes, espelhos retrovisores automotivos, displays, entre outros. 1 Neste cenário, surge em conjunto o interesse industrial em relação ao desenvolvimento e à produção em escalas comerciais de dispositivos eletrocrômicos poliméricos. Entre as principais empresas envolvidas na pesquisa e aplicação destes dispositivos estão a Isoclima, Saint Gobain e Pilkington na Europa, 2 Gentex, Apogee e Sage na América do Norte 3 e Asahi Glass, Nikon e Toyota na Ásia. 4O eletrocromismo consiste na mudança das propriedades ópticas de um determinado material após a aplicação de um estímulo elétrico na forma de corrente ou potencial. A mudança de coloração neste tipo de material ocorre devido à presença de grupos ou moléculas cromógenas, que absorvem a perturbação elétrica e como resposta, alteram suas propriedades ópticas. Materiais podem ser considerados eletrocrômicos se apresentam distintas mudanças de coloração reversíveis quando submetidos a uma reação de oxidação ou redução, sejam estas mudanças de transparente para colorido, ou mesmo a mudança entre cores. Novas classes de materiais têm sido foco de características espectrais passíveis de serem controladas. 5Quando um material possui dois ou mais estados redox e respectivas colorações diferentes, ele é denominado polieletrocrômico. Abaixo, na Equação 1, é representada uma reação eletrocrômica catódica reversível, na qual o material eletrocrômico é denominado como "E". Nesta reação, íons presentes no eletrólito (M + ) são inseridos na matriz do composto para que ocorra a compensação de cargas.Uma das primeiras observações de características eletrocrômicas ocorreu no ano de 1876, no trabalho de eletrooxidação da anilina, no qual o autor obser...

show abstract

Spectroelectrochemical Properties and Lithium Ion Storage in Self-Assembled Nanocomposites from TiO₂

Cited by 12 publications

References 44 publications

Cation adsorption by mesoporous titania photoanodes and its effect on the current-voltage characteristics of photoelectrochemical cells

Cation adsorption by mesoporous titania photoanodes and its effect on the current-voltage characteristics of photoelectrochemical cells

Ammonia-Assisted Semicarbonization: A Simple Method to Introduce Micropores without Damaging a 3D Mesoporous Carbon Nanonetwork Structure

Electrochromism: Basis and Application of Nanomaterials in Development of High Performance Electrodes

Contact Info

Product

Resources

About

Spectroelectrochemical Properties and Lithium Ion Storage in Self-Assembled Nanocomposites from TiO2

Cited by 12 publications

References 44 publications

Cation adsorption by mesoporous titania photoanodes and its effect on the current-voltage characteristics of photoelectrochemical cells

Cation adsorption by mesoporous titania photoanodes and its effect on the current-voltage characteristics of photoelectrochemical cells

Ammonia-Assisted Semicarbonization: A Simple Method to Introduce Micropores without Damaging a 3D Mesoporous Carbon Nanonetwork Structure

Electrochromism: Basis and Application of Nanomaterials in Development of High Performance Electrodes

Contact Info

Product

Resources

About

Spectroelectrochemical Properties and Lithium Ion Storage in Self-Assembled Nanocomposites from TiO₂