http://hdl.handle.net/2005/3 2013-05-02T19:33:22Z 2013-05-02T19:33:22Z Singh, Laishram Tomba http://hdl.handle.net/2005/1940 2013-02-25T10:39:19Z 2013-02-24T18:30:00Z

Title: Synthesis Of Various Carbon Nanostructures And The Transport Properties Of Carbon Nanotubes Authors: Singh, Laishram Tomba Abstract: Different carbon nanostructures have different properties and different applications. It is needed to synthesize good quality and also on large scale. From the point of industrial applications, highly productive and low cost synthesis method is very essential. Research has been done extensively on the intrinsic and individual properties of both single walled carbon nanotubes (SWCNTs) and multiwalled carbon nanotubes (MWC-NTs) in the range of nanometer to micrometer length scale. The important question is how the properties change beyond this length scale and if they are used in group in the form of an array instead of the individual carbon nanotubes (CNTs). Some applications require large current output, large energy production etc. For such kind of applications, it becomes essential to use CNTs in large number in the form of arrays or array, instead of using large numbers of CNTs in individual level. Future nanotechnology scope requires large scale application using the very rich intrinsic properties of the CNTs and nanomaterials. Keeping these problems and challenges in front, this thesis work is devoted to the research of the large scale synthesis of mm long MWCNTs, having different morphology and studies on various physical properties of MWCNTs in the form of arrays. Synthesis of mm long aligned and buckled MWCNTs have been reported for the first time. Generally buckled CNTs were obtained by compressing the straight CNTs. Apart from this, different morphologies like, aligned straight, helical or coiled CNTs are also synthesized. Resistance of the individual CNT increases with the increase in length. Resistance versus length of an array of CNT also shows similar behaviour. The thermal conductivity of CNT array is observed to decrease with the increase of array diameter (diameter �100 µm). There are few reports of the similar behaviour with the experiments done on small diameter CNT arrays (diameter �100 nm). From these observations, it seems that in the arrays of CNT, their intrinsic individual property is preserved though the magnitudes are different. The conductance measurements done on buckled CNT array by compressing it to apply uniaxial strain, shows the conductance oscillation. This conductance oscillation seems to be originating from the band gap change due to strain when the CNTs bend during compression. Recent research focuses on the arrays of CNT as they can carry large current of the order of several milliamperes that make the arrays suitable in nanoscale electronics and in controlling macroscopic devices such as light emitting diodes and electromotors. Regarding this aspect, a part of this thesis work is devoted on the application of CNT array to field effect transistor (FET) and study of thermoelectric power generation using CNT arrays. The entire thesis is based on the works discussed above. It has been organized as follows: Chapter 1 deals with introduction about the different carbon nanostructures and different synthesis methods. A brief introduction about the different current-voltage (IV) characteristics of SWCNTs and MWCNTs, length and diameter dependence and effect of the mode of contacts, are given. Some applications of the array of CNTs like buckling effect on compression, stretching of CNT into the form of rope, and conduction change on compression are discussed. Application of CNT as FET, as a thermometer, and thermoelectric effect of CNT are discussed. The electromechanical effect of CNT is also discussed briefly. Chapter 2 deals with experimental setup for synthesis of different morphologies of carbon nanostructures. The samples are characterized using common characterization techniques like, scanning electron microscopy (SEM), transmission electron microscopy (TEM) and Raman spectroscopy. A brief introduction about Raman Spectroscopy of CNT is given. Chapter 3 reports the unusual IV characteristics and breakdown of long CNT arrays. The current carrying ability and the threshold voltage as a function of array diameter are reported. The effect of the ambient like temperature and pressure are discussed. Chapter 4 deals with theoretical models to analyze the IV characteristics reported in Chapter 3. It has been shown that a set of classical equations are applicable to quantum structures and the band gap can be evaluated. Chapter 5 describes with application of CNT arrays as temperature sensors. It has been shown that CNT arrays of suitable diameters are used as temperature sensors after calibration. Chapter 6 reports the high current FET application of CNT arrays. Effects of temperature and ambient pressure are discussed. The type of the majority charge carrier is determined. Chapter 7 deals with application of CNT arrays as thermoelectric power generator to get large thermoelectric current. Effects of different array diameter are discussed. Modulation of thermoemf with gate voltage is discussed. The type of the majority charge carrier is determined. Chapter 8 reports the effect of compressive strain on buckled MWCNT arrays. Conductance is measured during the compression of the array. Quantum electromechanical conductance oscillation is observed. The structural changes are observed with SEM. Raman spectroscopic study supports the explanation of the effect. Chapter 9 provides the conclusion and overall summary of the thesis.

2013-02-24T18:30:00Z Hebbar, Sankeerth http://hdl.handle.net/2005/1933 2013-02-20T10:47:50Z 2013-02-19T18:30:00Z

Title: Applications Of Multiple Quantum Methods In NMR For Determination Of Dipolar Couplings And Chiral Discrimination Authors: Hebbar, Sankeerth Abstract: This thesis is about excitation, detection, properties and applications of multiple quantum coherences applied to different dipolar coupled spin systems. Major focus of the work is on spectral simplification, measurement of residual dipolar couplings and discrimination of enantiomers in chiral aligning media. The first chapter gives a brief account on the fundamentals of nuclear magnetic resonance spectroscopy and multiple quantum coherences. This includes a description of product operator and polarization operator formalisms of pulses and evolution of magnetization. Subsequently a detailed account of two dimensional multiple quantum – single quantum (MQ-SQ) correlation experiments is given. Demonstration of the homonuclear MQ-SQ pulse sequence on a weakly coupled spin system and analysis of the spectrum obtained are also discussed. Homo-nuclear multiple quantum studies carried out to obtain relative the signs of the couplings have been reported in the initial part of the second chapter. The technique has been applied on doubly labeled acetonitrile (13CH313C15N) aligned in a liquid crystalline medium. Special situations like ambiguity in the determination of relative signs of the couplings from the appearance of two dimensional MQ-SQ spectra and the explanation for the same are also discussed. Homo-nuclear MQ experiments on indistinguishable spins, like protons in a methyl group of 13CH313C15N oriented in liquid crystal, and distinguishable spins, like the two carbons in the same molecule, have been carried out. Different directions of approach in which these results need to be analyzed have been discussed. Subsequent part of the chapter is about the correlation of connected MQ-SQ coherences. These experiments are significant in reducing the cross-peaks further from the MQ-SQ spectra. This concept is extended for the discrimination of optical enantiomers dissolved in chiral aligning medium made of poly-Γ-benzyl-L-glutamate (PBLG) and CDCl3. In molecules of Chemical and biological interest one encounters several nuclei such as, 1H, 13C, 15N and 19F. It will be of general interest to determine magnitudes and relative signs of the couplings among these coupled nuclei by NMR experiments. Utilization of hetero-nuclear MQ Experiments in solving such problems is discussed in the third Chapter. Hetero-nuclear MQ experiments were carried out on dipolar coupled 13CH313C15N, with the aim of obtaining the values and signs of various hetero-nuclear couplings in the molecule. The splitting of transitions in the spectra of oriented molecules is always influenced by the sum of dipolar and scalar couplings. Hence precise determination of dipolar couplings requires the knowledge of scalar couplings. To determine the J couplings, experiments were carried out on the same molecule in isotropic medium. When many coupled nuclei are involved one has to carry out several experiments to derive all the spectral parameters. In circumventing this problem heteronuclear multiple quantum experiments involving more than two nuclei as active spins are advantageous. This reduces the number of experiments and thereby reducing the total experimental time. Second part of this chapter demonstrates how a triple resonance triple quantum experiment can provide majority of the couplings from a given coupled system. The feasibility of the experiment is demonstrated even for molecules containing natural abundant isotopes. Application of multiple quantum j-resolved technique for chiral discrimination and obtaining complete one dimensional spectrum of each enantiomer from their racemic mixture is discussed in the fourth chapter. The two dimensional experiment consists of a selective double quantum excitation period followed by selective refocusing during indirect time domain, isotropic mixing and nonselective detection of SQ transitions. Hence this pulse sequence is named as DQSERF-COSY (Double Quantum Selective Refocused Correlation Spectroscopy). The experiment exploits the existence of different intra-methyl couplings between the enantiomers dissolved in chiral liquid crystal medium to separate the one dimensional spectra of each enantiomer in different cross sections. This is possible due to the fact that all the nuclei in any one of the enantiomers are coupled among themselves and there is no inter molecular interaction between the two enantiomers. Also one can extract all the couplings between protons in each enantiomer, which can subsequently be utilized for determination of the residual dipolar couplings, structure and orientation parameters.

2013-02-19T18:30:00Z Dhaware, Madhuri Gautam http://hdl.handle.net/2005/1938 2013-02-25T10:09:15Z 2013-02-24T18:30:00Z

Title: Enantiospecific Synthesis Of Bioactive Styryllactones Authors: Dhaware, Madhuri Gautam Abstract: The thesis entitled “Enantiospecific synthesis of bio-active stryllactones” comprise an introduction about stryllactone and two chapters describes the synthesis of stryllactones. Trees of the genus Goniothalamus of the plant family Annonaceae in South East Asia has been known for a long time for their proven as folkloric medicine. Stryryllactones were found to exhibit moderate to significant biological activity including antitumour, antifungal as well as antibiotic properties. Because of their unique and intriguing structures and the activity associated much effort has been centered on the development of methodology for the synthesis of these compounds. The structures and relative configurations of these compounds were determined either by X-ray crystallography or by extensive NMR spectral analysis and by mass spectroscopic techniques. The research group of McLaughlin isolated and characterized a series of styryllactones, possessing significant to marginal cytotoxic activity against human tumor cell lines. The structures and relative configurations of these compounds were determined either by X-ray crystallography or by extensive NMR spectral analysis. Classification of these styryllactones is based on the structural characteristics of the six different skeletons as shown in Figure 1. Figure 1:features styryllactone the genus In this thesis, enantioselective total synthesis of styryllactones ()-9-deoxygoniopypyrone 1, ()-goniopypyrone 2, ()-7-epi-goniofufurone 3, ()-7-epigoniodiol 4 and the putative structure of ()-etharvendiol 5 is presented. a) Total synthesis of ()-9-deoxygoniopypyrone, ()-goniopypyrone, ()-7-epigoniofufurone and ()-7-epi-goniodiol: Synthesis of the styrylalctones is relied on elaboration of the trihydroxy ester 11 derived from tartaric acid. Appropriate protection of the hydroxy groups and further modifications of the ester functionality (which can be transformed into the corresponding alcohol or aldehyde) is planned for the synthesis of the styryllactones 1-5. Accordingly, the bis-dimethylamide 9 derived from D-()-tartaric acid, was transformed to the -hydroxy amide 10 using a combination of Grignard reagent addition followed by reduction of the resultant ketone. Acid mediated deprotection of the acetonide with concomitant hydrolysis of the amide to the ester is accomplished in one pot by treating 10 with p-TSA in benzene/MeOH mixture Treatment of the trihydroxy ester with 2,2-dimethoxy propane in presence of p-TSA afforded the hydroxy ester 12 which was elaborated to the styrylalctones 9deoxygoniopypyrone, 7-epi-goniodiol, 7-epi-goniofufurone and goniopypyrone (Scheme-2). (Part of this work is published: Prasad, K. R.; Dhaware, M.G. Synlett. 2007, 11121114.; Prasad, K.R.; Dhaware, M.G. Synthesis 2007, 3697) b) Stereoselective synthesis of the putative structure of (+)-etharvendiol: In 1997, Bermejo et al isolated the styryl pyrone etharvendiol 5 from the ethanolic extract of stem bark from Goniothalamus arvensis. Hitherto, no synthesis of etharvendiol is reported in the literature. In this section, approach towards the synthesis of putative structure of etharvendiol will be discussed. Synthesis of etharvendiol 5 is anticipated by the elaboration of masked tetrol 15, comprising an alkene tether and four contiguous hydroxy groups installed with definite configuration. It is relied on exploiting the hydroxy directed lactonization via the oxidation of alkene in 15, and subsequent elaboration to 7. Bis-dimethylamide 9, derived from D-()-tartaric acid was identified as the suitable precursor for the synthesis of 15. Synthesis of masked tetrol 15 is accomplished from 9 involving a combination of selective Grignard additions and stereoselective reduction (Scheme 3). (For structural formula pl see the pdf file)

2013-02-24T18:30:00Z Gowri, V http://hdl.handle.net/2005/1969 2013-04-15T05:46:43Z 2013-04-14T18:30:00Z

Title: Enantiospecific Synthesis Of Tetraquinane Diterpenes Crinipellins Authors: Gowri, V Abstract: Among Nature's creation, terpenoids are more versatile and exciting compounds, and provide fertile ground for developing and testing new synthetic strategies because of their phenomenal structural diversity. The thesis entitled “Enantiospecific Synthesis of Tetraquinane Diterpenes Crinipellins” describes the first enantiospecific synthesis of norcrinipellin and crinipellins, and the tricyclic core structure of tricycloillicinone, ialibinones, and takaneones. In the thesis, the compounds are sequentially numbered (bold) and references are marked sequentially as superscripts and listed at the end of the thesis. All the spectra included in the thesis were obtained by xeroxing the original NMR spectra. Crinipellins, the first group of natural products to contain a tetraquinane carbon framework, were isolated in 1985 by the research groups of Steglich and Anke from the submerged cultures of the basidiomycete Crinipellis stipitaria. Recently, In 2010, Shen and Li also reported the isolation of four new crinipellins from the Crinipellis stipitaria 113. In the present thesis, first enantiospecific synthesis of norcrinipellin and crinipellins has been described. To begin with, (S)-campholenaldehyde was transformed into the (1R,5R)-7,8,8-trimethylbicyclo[3.3.0]oct-6-en-3-one employing an intramolecular rhodium carbenoid insertion of a diazoketone, which was then transformed into the methyl (1R,2S,6R,8S,10R)-10-methoxy-2-methyl-5-oxotricyclo[6.3.0.02,6]undecane-4-carboxylate via rhodium carbenoid promoted activation of a tertiary methyl group to generate the cis, anti, cis-linear triquinane. The triquinane obtained was then transformed into ethyl 4-[(1R,2S,6S,8S,10R)-10-methoxy-2,5dimethyl-3-oxotricyclo[6.3.0.02,6]undec-4-ene-6-yl]butanoate by a sequence of reactions including an alkylative 1,3-enone transposition, which on intramolecular Michael addition reaction followed by DBU mediated equilibration generated a 5:4 mixture of ethyl (1S,3S,5R,7R,8S,11S,12R) and (1S,3S,5R,7R,8S,11S,12S)-5-methoxy8,11-dimethyl-9-oxotetracyclo[6.6.0.01,11.03,7]tetradecane-12-carboxylates, which were transformed into (12R) and (12S)-15-hydroxy-5-methoxy-20-norcrinipellin-9-ones and (12S) and (12R)-5-methoxy-20-norcrinipell-15-en-9-ones. The methodology has been further modified and extended for the first enantiospecific synthesis of (12R) and (12S) 15-hydroxy-5-(methoxymethoxy)crinipellin-9-ones In 1995, Fukuyama and coworkers reported the isolation of tricycloillicinone from Illicium tashiroi, containing an interesting 3,4,4-trimethyltricyclo[5.3.1.01,5]undecane system. This tricyclic structure was also present in two groups of acylphloroglucinoid natural products, ialibinones and takaneones. An enantiospecific synthesis of the tricyclic core structure of tricycloillicinone, ialibinones, and takaneones have been accomplished starting from (S)-campholenaldehyde employing a transannular RCM reaction as the key step, (S)-Campholenaldehyde was converted into methyl (5R)-6,6,7-trimethyl-3-oxobicyclo[3.3.0]octa-1,7-diene-2-carboxylate via the methyl (1R,5R)-6,6,7-trimethyl-3-oxobicyclo[3.3.0]oct-7-ene-2-carboxylate, which was then transformed into (1R,3S,5S)-3-allyl-7,8,8-trimethyl-5-vinylbicyclo[3.3.0]oct6-en-3-ol containing the vinyl and allyl groups at C-1 and C-3 carbons syn to each other. Transannular RCM reaction of the hydroxy diene led to the tricyclic core structure of tricycloillicinone. Further elaboration of the side chain at C-3 position led to the tricyclic core structure of ialibinones, and takaneones.

2013-04-14T18:30:00Z