Refractive Index and Density of Acetone-Water Solutions.

Kurtz, S. S.; Wikingsson, A. E.; Camin, D. L.; Thompson, A. R.

doi:10.1021/je60027a009

Cited by 34 publications

(22 citation statements)

References 9 publications

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“…2c) sensors were tested against varying refractive index media adjusted with (i) acetone and (ii) ethanol. The resulting resonance shifts from water (RIU = 1.333) were compared using RIU values for acetone 1 and ethanol 8 solutions. Three trends were identified:…”

Section: Resultsmentioning

confidence: 99%

Whisky tasting using a bimetallic nanoplasmonic tongue

et al. 2019

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Section: Resultsmentioning

confidence: 99%

Whisky tasting using a bimetallic nanoplasmonic tongue

et al. 2019

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“…The theoretical values of the refractive indices of such mixtures are obtained from literature. 15 Figure 5. The spectra of different mixture ratios between acetone and deionized water measured by the refractometer consisting of a cylindrical Fabry-Pérot cavity with a micro tube inside.…”

Section: Resultsmentioning

confidence: 99%

Volume refractometry of liquids using stable optofluidic Fabry-Pérot resonator with curved surfaces

et al. 2015

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This work reports a simple, miniaturized optical sensing module for liquid refractometry. It is based on a stable FabryPerot resonator consisting of two silicon cylindrical mirrors with a cylindrical lens in the core. The lens is formed by a capillary tube through which the analyte to be analyzed passes. This setup enables volume refractometry, where light propagates through the sample realizing high interaction depth. The cylindrical surfaces achieve light confinement, reducing the light escaping loss encountered in classical cavities with straight mirrors; and hence high quality factor (Q) over 1,000 is attained. Exploiting this high Q, we adopt uncommon refraction index (RI) measurement criterion: we operate at a fixed wavelength and detect the power drop caused as a consequence to the spectral shift with RI change.Performing experimental testing using a tunable laser and a power-meter, the normalized spectra for different mixture ratios of acetone and deionized water are obtained. The wavelength corresponding to the maximal power transmission from pure acetone is taken as a reference. A vertical line at this wavelength cuts the successive transmission curves and enables measuring the power drop in the linear region, and from it the refractive index change Δn above the refractive index of the reference solution can be determined for 0.0023<Δn<0.0045. Sensitivity up to 4,094 dBm/RIU is achieved. A wider range is still accessible by the conventional method of tracing the shift in peak wavelengths: a range of Δn=0.0163 RIU can be scanned, with a sensitivity of 221 nm/RIU. Error analysis has been accomplished, and the design parameters of the device are discussed to evaluate the performance.

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“…Adicionalmente às análises cromatográficas, também foram realizadas aferições de densidade e refratometria, o que permitiu estimar as concentrações do solvente (% m/m) nas amostras de interesse a partir da comparação de dados de tabelas referentes a mistura binárias entre água e acetona disponíveis na literatura. 25 Com o intento de disponibilizar as informações da análise de pureza do solvente recuperado, preocupou-se com a elaboração de um laudo/FISPQ (Ficha de Informação de Segurança para Produtos Químicos) a ser fornecido junto ao produto no ato da entrega ao usuário. No laudo são apresentadas, além das condições do método e resultado cromatográfico, as informações sobre as características, riscos, medidas preventivas e remediativas para o manuseio do solvente.…”

Section: Avaliação De Parâmetros De Qualidadeunclassified

“…Tendo como referência os resultados desse parâmetro, permite-se estimar em aproximadamente 98% a concentração de acetona nos solventes, através da relação direta com os índices de refração de misturas binárias de acetona e água. 25 Tal concentração é equivalente àquela possível de ser estimada a partir da densidade do solvente recuperado.…”

Section: Avaliação Do Processo De Recuperação De Acetonaunclassified

Recuperação De Acetona Em Resíduos Laboratoriais: Uma Abordagem Sobre Aspectos Da Gestão, Operacionais E Da Eficiência Ambiental

Coletti

Tavaresa

Bendassolli

2019

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Recebido em 06/02/2019; aceito em 26/03/2019; publicado na web em 22/04/2019 ACETONE RECOVERY IN LABORATORIES WASTES: AN APPROACH OF ASPECTS OF MANAGEMENT, OPERATION AND ENVIRONMENTAL EFFICIENCY. The objective of this work was to exclusively improve the management of wastes constituted mainly by organic solvents, due to the opportunities for improvements in the processing of such substances in the institution where the studies were realized. By means of the tests carried out in the distillation system using acetone as a reference, advantages and disadvantages were found with increasing/decreasing the temperature used in the process. From the use of gas chromatography, it was possible to obtain a more precise control of the quality of the recovered product and also to verify the high efficiency of the distillation process in the separation of the solvent from the other contaminants present in the waste. And in terms of comparison of treatments, distillation proved to be environmentally more sustainable and about 8 times more economical than incineration.

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Refractive Index and Density of Acetone-Water Solutions.

Cited by 34 publications

References 9 publications

Whisky tasting using a bimetallic nanoplasmonic tongue

Whisky tasting using a bimetallic nanoplasmonic tongue

Volume refractometry of liquids using stable optofluidic Fabry-Pérot resonator with curved surfaces

Recuperação De Acetona Em Resíduos Laboratoriais: Uma Abordagem Sobre Aspectos Da Gestão, Operacionais E Da Eficiência Ambiental

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