Hexaphenylbenzene-based fluorescent aggregates for ratiometric detection of cyanide ions at nanomolar level: Set-reset memorized sequential logic device

Subhamay Pramanik; Vandana Bhalla; Manoj Kumar

doi:10.1021/am500903d

Hexaphenylbenzene-based fluorescent aggregates for ratiometric detection of cyanide ions at nanomolar level: Set-reset memorized sequential logic device

Subhamay Pramanik, Vandana Bhalla, Manoj Kumar

Research output: Contribution to journal › Article › peer-review

121 Scopus citations

Abstract

A hexaphenylbenzene-based receptor 3 has been synthesized that forms a fluorescent spherical aggregate in mixed aqueous media due to its aggregation-induced emission enhancement attributes. These fluorescent spherical aggregates show ratiometric response toward cyanide ions via nucleophilic addition and undergo deaggregation to form smaller nanoaggregates. In addition, the solution-coated paper strips of 3 can detect cyanide ions in the range of ∼2.6 ng/cm², thus, providing a simple, portable, and low-cost method for detection of cyanide ions in aqueous media. Receptor 3 also behaves as a set-reset memorized sequential logic circuit with chemical inputs of CN^- ions and trifluoroacetic acid or H⁺ (pH ≥ 3).

Original language	English
Pages (from-to)	5930-5939
Number of pages	10
Journal	ACS Applied Materials and Interfaces
Volume	6
Issue number	8
DOIs	https://doi.org/10.1021/am500903d
State	Published - Apr 23 2014
Externally published	Yes

Keywords

AIEE
cyanide
fluorescent nanoaggregates
hexaphenylbenzene
ratiometric
sequential device

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10.1021/am500903d

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title = "Hexaphenylbenzene-based fluorescent aggregates for ratiometric detection of cyanide ions at nanomolar level: Set-reset memorized sequential logic device",

abstract = "A hexaphenylbenzene-based receptor 3 has been synthesized that forms a fluorescent spherical aggregate in mixed aqueous media due to its aggregation-induced emission enhancement attributes. These fluorescent spherical aggregates show ratiometric response toward cyanide ions via nucleophilic addition and undergo deaggregation to form smaller nanoaggregates. In addition, the solution-coated paper strips of 3 can detect cyanide ions in the range of ∼2.6 ng/cm2, thus, providing a simple, portable, and low-cost method for detection of cyanide ions in aqueous media. Receptor 3 also behaves as a set-reset memorized sequential logic circuit with chemical inputs of CN- ions and trifluoroacetic acid or H+ (pH ≥ 3).",

keywords = "AIEE, cyanide, fluorescent nanoaggregates, hexaphenylbenzene, ratiometric, sequential device",

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T2 - Set-reset memorized sequential logic device

AU - Pramanik, Subhamay

AU - Bhalla, Vandana

AU - Kumar, Manoj

PY - 2014/4/23

Y1 - 2014/4/23

N2 - A hexaphenylbenzene-based receptor 3 has been synthesized that forms a fluorescent spherical aggregate in mixed aqueous media due to its aggregation-induced emission enhancement attributes. These fluorescent spherical aggregates show ratiometric response toward cyanide ions via nucleophilic addition and undergo deaggregation to form smaller nanoaggregates. In addition, the solution-coated paper strips of 3 can detect cyanide ions in the range of ∼2.6 ng/cm2, thus, providing a simple, portable, and low-cost method for detection of cyanide ions in aqueous media. Receptor 3 also behaves as a set-reset memorized sequential logic circuit with chemical inputs of CN- ions and trifluoroacetic acid or H+ (pH ≥ 3).

AB - A hexaphenylbenzene-based receptor 3 has been synthesized that forms a fluorescent spherical aggregate in mixed aqueous media due to its aggregation-induced emission enhancement attributes. These fluorescent spherical aggregates show ratiometric response toward cyanide ions via nucleophilic addition and undergo deaggregation to form smaller nanoaggregates. In addition, the solution-coated paper strips of 3 can detect cyanide ions in the range of ∼2.6 ng/cm2, thus, providing a simple, portable, and low-cost method for detection of cyanide ions in aqueous media. Receptor 3 also behaves as a set-reset memorized sequential logic circuit with chemical inputs of CN- ions and trifluoroacetic acid or H+ (pH ≥ 3).

KW - AIEE

KW - cyanide

KW - fluorescent nanoaggregates

KW - hexaphenylbenzene

KW - ratiometric

KW - sequential device

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M3 - Article

AN - SCOPUS:84899559393

SN - 1944-8244

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JO - ACS Applied Materials and Interfaces

JF - ACS Applied Materials and Interfaces

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ER -

Hexaphenylbenzene-based fluorescent aggregates for ratiometric detection of cyanide ions at nanomolar level: Set-reset memorized sequential logic device

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