P. Suresh Kumar scite author profile

Gold nanoparticles fully covered with triphenylene-based discotic liquid crystals (DLCs) were synthesized and dispersed in a columnar matrix. The thermophysical properties of these nanocomposites, studied using polarizing optical microscopy, differential scanning calorimetry and small angle X-ray diffraction studies (SAXS), confirm their insertion into the columnar matrix. The presence of the gold nanoparticles in the triphenylene-based DLCs does not disturb the nature of the mesophase other than altering the transition temperatures. We propose that the gold nanoparticles are distributed between the domain gaps of the DLCs in random disordered manner. Interestingly the DC conductivity measurements show an enhancement of the electrical conductivity by more than a million times upon doping of the discotic liquid crystals with the triphenylene-capped nanoparticles under ambient conditions.

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Dispersion of Thiol Stabilized Gold Nanoparticles in Lyotropic Liquid Crystalline Systems

Kumar

Pal

Kumar

et al. 2007

Langmuir

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A new method of forming stable dispersions of alkanethiol and aromatic thiol stabilized gold nanoparticles in two different lyotropic liquid crystalline mediums, namely, a columnar hexagonal phase made up of a Triton X-100/water system and an inverse columnar hexagonal phase made up of pure AOT, are presented. The dispersions have been characterized using small-angle X-ray scattering (SAXS) and polarizing optical microscopy. Our studies show that the gold nanoparticles are distributed outside the columns formed by both the surfactants. Such dispersions can find applications in the study of nanoparticles as well as in the development of devices based on some unique properties of metal nanoparticles.

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Cu@Pd core-shell nanostructures for highly sensitive and selective amperometric analysis of histamine

Gajjala

Kumar

2018

Biosensors and Bioelectronics

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Electrical Conductivity Studies on Discotic Liquid Crystal−Ferrocenium Donor−Acceptor Systems

Kumar

Lakshminarayanan

2008

J. Phys. Chem. B

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The dispersion of electron-deficient ferrocenium ions was studied in the electron-rich media of two different triphenylene-based columnar hexagonal liquid-crystalline phases. These composites were characterized using polarizing optical micrography (POM), differential scanning calorimetry (DSC), small-angle X-ray scattering (SAXS), visible absorption spectroscopy, and dc and ac conductivity measurements. It was found that these composites form donor-acceptor systems that enhance the quasi-one-dimensional conductivity of the discotic system without altering the hexagonal columnar mesophase. The absorbance spectra confirm the formation of a charge-transfer complex between the electron-rich discotic molecules and the electron-deficient ferrocenium ions.

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Fabrication of strong bifunctional electrocatalytically active hybrid Cu–Cu₂O nanoparticles in a carbon matrix

Muthukumar

Kumar

Gajjala

et al. 2018

Catal. Sci. Technol.

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P. Suresh Kumar

Novel conducting nanocomposites: synthesis of triphenylene-covered gold nanoparticles and their insertion into a columnar matrix

Dispersion of Thiol Stabilized Gold Nanoparticles in Lyotropic Liquid Crystalline Systems

Cu@Pd core-shell nanostructures for highly sensitive and selective amperometric analysis of histamine

Electrical Conductivity Studies on Discotic Liquid Crystal−Ferrocenium Donor−Acceptor Systems

Fabrication of strong bifunctional electrocatalytically active hybrid Cu–Cu₂O nanoparticles in a carbon matrix

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P. Suresh Kumar

Novel conducting nanocomposites: synthesis of triphenylene-covered gold nanoparticles and their insertion into a columnar matrix

Dispersion of Thiol Stabilized Gold Nanoparticles in Lyotropic Liquid Crystalline Systems

Cu@Pd core-shell nanostructures for highly sensitive and selective amperometric analysis of histamine

Electrical Conductivity Studies on Discotic Liquid Crystal−Ferrocenium Donor−Acceptor Systems

Fabrication of strong bifunctional electrocatalytically active hybrid Cu–Cu2O nanoparticles in a carbon matrix

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Fabrication of strong bifunctional electrocatalytically active hybrid Cu–Cu₂O nanoparticles in a carbon matrix