Highly Pure Solid‐State White‐Light Emission from Solution‐Processable Soft‐Hybrids

Rao, K. Venkata; Datta, K. K. R.; Eswaramoorthy, M.; George, Subi J.

doi:10.1002/adma.201204407

Cited by 138 publications

(96 citation statements)

References 53 publications

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“…[64,65] Although not fabricated as WLEDs, white light-emitting soft hybrids was reported based on the supramolecular co-assembly of organoclays and ionic chromophores. [66][67][68] Layered magnesium phyllo(organo)silicate was used as the inorganic counterpart, while coronene tetra-carboxylate (CS), sulforhodamine G (SRG), and tetraphenylethylene derivatives (TPTS) were employed as donor-acceptor chromophores (Figure 4).…”

Section: White Light Emission and Ledsmentioning

confidence: 99%

Optical Properties of Hybrid Organic‐Inorganic Materials and their Applications

Parola

Julián‐López

Carlos

et al. 2016

Adv Funct Materials

245

116

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Research on hybrid inorganic‐organic materials has experienced an explosive growth since the 1980s, with the expansion of soft inorganic chemistry based processes. Indeed, mild synthetic conditions, low processing temperatures provided by “chimie douce” and the versatility of the colloidal state allow for the mixing of the organic and inorganic components at the nanometer scale in virtually any ratio to produce the so called hybrid materials. Today a high degree of control over both composition and nanostructure of these hybrids can be achieved allowing tunable structure‐property relationships. This, in turn, makes it possible to tailor and fine‐tune many properties (mechanical, optical, electronic, thermal, chemical…) in very broad ranges, and to design specific multifunctional systems for applications. In particular, the field of “Hybrid‐Optics” has been very productive not only scientifically but also in terms of applications. Indeed, numerous optical devices based on hybrids are already in, or very close, to the market. This review describes most of the recent advances performed in this field. Emphasis will be given to luminescent, photochromic, NLO and plasmonic properties. As an outlook we show that the controlled coupling between plasmonics and luminescence is opening a land of opportunities in the field of “Hybrid‐Optics”.

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Section: White Light Emission and Ledsmentioning

confidence: 99%

Optical Properties of Hybrid Organic‐Inorganic Materials and their Applications

Parola

Julián‐López

Carlos

et al. 2016

Adv Funct Materials

245

116

View full text Add to dashboard Cite

show abstract

“…We recently reported a novel method to prepare luminescent LnNCs by simply mixing deprotonated aromatic carboxylic acid, Ln 3+ ions, and aminoclay (AC, a layered magnesium phyllosilicate [19,20]) in aqueous solution [21,22]. The negatively charged carboxylate groups are expected to interact electrostatically with the positively charged AC units and can coordinate with Ln 3+ (Ln=Eu and/or Tb) in aqueous solution, resulting in hydrophilic noncovalent hybrid composites with tunable emission colors.…”

Section: Introductionmentioning

confidence: 99%

A simple and green strategy for preparing luminescent Tb 3+ complex-based nanocomposite with stable luminescence in water

Wang

2017

Materials Research Bulletin

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“…For decades, many solid state materials have been explored and developed as white light emitting sources. These include inorganic oxide, inorganic quantum dots, nitride, organic molecules, polymers, and metal complexes [4][5][6][7][8][9][10][11][12]. Common approaches, such as dichromatic, tri-chromatic, and tetra-chromatic methods are often used to generate white light [13][14][15].…”

Section: Introductionmentioning

confidence: 99%