Author
Tarun Kumar Misra
Other affiliations: University of Burdwan, National Taiwan University
Bio: Tarun Kumar Misra is an academic researcher from National Institute of Technology Agartala. The author has contributed to research in topics: Nanoparticle & Non-covalent interactions. The author has an hindex of 16, co-authored 59 publications receiving 838 citations. Previous affiliations of Tarun Kumar Misra include University of Burdwan & National Taiwan University.
Papers published on a yearly basis
Papers
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TL;DR: In this paper, the N N stretch in copper(I) complexes shows a large shift to lower frequency from the free ligand value (ca 1400 cm−1) due to d(Cu) → π* (RaaiR′) back bonding.
80 citations
TL;DR: In this paper, three isomers of the composition Ru(aapm)2Cl2 have been chromatographically separated and established as having trans-cis-transcis (tcc), cis-trans-transçcis(ctc), and cis−ciscis-(ccc) configurations with reference to the order of coordination pairs as Cl; N(pyrimidine), N and N(azo), N′.
72 citations
TL;DR: In this article, 2-(Arylazo)pyrimidines (aapm, 3) have been synthesized by condensing nitrosoaromatics with 2-aminopyrimidine.
58 citations
TL;DR: In this article, Ru(NaiR)2Cl2 is chromatographically separated into four isomers: blue-green, trans-cis-cises and blue, cis-trans-cise.
51 citations
TL;DR: In this article, mixed-ligand trischelates have been synthesized by a silver-assisted route and the structures of the complexes have been supported by the single-crystal X-ray diffraction study and the stereochemistry are assessed by 1H NMR spectral data.
44 citations
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TL;DR: This work aims to review different strategies of surface modification and functionalization of inorganic colloidal nanoparticles with a special focus on the material systems gold and semiconductor nanoparticles, such as CdSe/ZnS.
Abstract: Inorganic colloidal nanoparticles are very small, nanoscale objects with inorganic cores that are dispersed in a solvent. Depending on the material they consist of, nanoparticles can possess a number of different properties such as high electron density and strong optical absorption (e.g. metal particles, in particular Au), photoluminescence in the form of fluorescence (semiconductor quantum dots, e.g. CdSe or CdTe) or phosphorescence (doped oxide materials, e.g. Y(2)O(3)), or magnetic moment (e.g. iron oxide or cobalt nanoparticles). Prerequisite for every possible application is the proper surface functionalization of such nanoparticles, which determines their interaction with the environment. These interactions ultimately affect the colloidal stability of the particles, and may yield to a controlled assembly or to the delivery of nanoparticles to a target, e.g. by appropriate functional molecules on the particle surface. This work aims to review different strategies of surface modification and functionalization of inorganic colloidal nanoparticles with a special focus on the material systems gold and semiconductor nanoparticles, such as CdSe/ZnS. However, the discussed strategies are often of general nature and apply in the same way to nanoparticles of other materials.
1,477 citations
TL;DR: Many glycan labels serve as a linker for oligosaccharide attachment to surfaces or carrier proteins, thereby allowing interaction studies with carbohydrate-binding proteins and supporting detailed structural characterization by (tandem) mass spectrometry.
Abstract: Most methods for the analysis of oligosaccharides from biological sources require a glycan derivatization step: glycans may be derivatized to introduce a chromophore or fluorophore, facilitating detection after chromatographic or electrophoretic separation. Derivatization can also be applied to link charged or hydrophobic groups at the reducing end to enhance glycan separation and mass-spectrometric detection. Moreover, derivatization steps such as permethylation aim at stabilizing sialic acid residues, enhancing mass-spectrometric sensitivity, and supporting detailed structural characterization by (tandem) mass spectrometry. Finally, many glycan labels serve as a linker for oligosaccharide attachment to surfaces or carrier proteins, thereby allowing interaction studies with carbohydrate-binding proteins. In this review, various aspects of glycan labeling, separation, and detection strategies are discussed.
427 citations
01 Jan 2007
TL;DR: The details of all steps involved in the quantification of biofilm formation in microtiter plates are described in this paper, where the authors present a protocol incorporating information on assessment of Biofilm production by staphylococci, gained both by direct experience as well as by analysis of methods for assayingBiofilm production.
Abstract: The details of all steps involved in the quantification of
biofilm formation in microtiter plates are described. The
presented protocol incorporates information on assessment of
biofilm production by staphylococci, gained both by direct
experience as well as by analysis of methods for assaying
biofilm production. The obtained results should simplify
quantification of biofilm formation in microtiter plates, and
make it more reliable and comparable among different
laboratories.
379 citations
TL;DR: In this article, the ligand-to-metal charge transfer (LMCT) is used for visible light activation of titania nanoparticles and other wide bandgap semiconductors, which has great potential to be developed as a more general method of solar energy utilization in photocatalytic systems.
Abstract: Visible light harvesting or utilization through semiconductor photocatalysis is a key technology for solar chemical conversion processes. Although titania nanoparticles are popular as a base material of photocatalysis, the lack of visible light activity needs to be overcome. This mini-review is focused on an uncommon approach to visible light activation of titania: the ligand-to-metal charge transfer (LMCT) that takes place between TiO2 nanoparticles and surface adsorbates under visible light irradiation. We discuss a basic concept of photoinduced LMCT and the recent advances in LMCT-mediated visible light photocatalysis which has been applied in environmental remediation and solar energy conversion. Although the LMCT processes have been less investigated and limited in photocatalytic applications compared with other popular visible light activation methods such as impurity doping and dye sensitization, they provide lots of possibilities and flexibility in that a wide variety of organic or inorganic compounds can form surface complexes with TiO2 and introduce a new absorption band in the visible light region. The LMCT complexes may serve as a visible light sensitizer that initiates the photocatalytic conversion of various substrates or the self-degradation of the ligand complexes (usually pollutants) themselves. We summarized and discussed various LMCT photocatalytic systems and their characteristics. The LMCT-mediated activation of titania and other wide bandgap semiconductors has great potential to be developed as a more general method of solar energy utilization in photocatalytic systems. More systematic design and utilization of LMCT complexes on semiconductors are warranted to advance the solar-driven chemical conversion processes.
355 citations
TL;DR: The role of gas chromatography played in the design of ionic liquids of low melting point, high thermal stability, high viscosity, and variable selectivity for separations is focused on.
Abstract: This article provides a summary of the development of ionic liquids as stationary phases for gas chromatography beginning with early work on packed columns that established details of the retention mechanism and established working methods to characterize selectivity differences compared with molecular stationary phases through the modern development of multi-centered cation and cross-linked ionic liquids for high-temperature applications in capillary gas chromatography. Since there are many reviews on ionic liquids dealing with all aspects of their chemical and physical properties, the emphasis in this article is placed on the role of gas chromatography played in the design of ionic liquids of low melting point, high thermal stability, high viscosity, and variable selectivity for separations. Ionic liquids provide unprecedented opportunities for extending the selectivity range and temperature-operating range of columns for gas chromatography, an area of separation science that has otherwise been almost stagnant for over a decade.
198 citations