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Modélisation multi-technique de la densité électronique / Multi-technique modeling of electronic densityVoufack, Ariste Bolivard 28 September 2018 (has links)
Il est désormais possible, en utilisant le modèle de densité électronique résolue en spin (CRM2), de combiner les diffractions des rayons X et des neutrons (polarisés) pour déterminer les distributions électroniques de charge et de spin de matériaux magnétiques cristallins. Cette méthode permet la mise en évidence des chemins d’interactions rendant compte de l’ordre magnétique. Le modèle résolu en spin a été appliqué aux complexes de coordination avec un métal de transition portant la majorité du moment magnétique, il a été ensuite utilisé pour étudier les radicaux purs organiques contenant des électrons non appariés délocalisés sur un groupement chimique et les matériaux inorganiques. Dans le radical Nit(SMe)Ph, la modélisation des densités de charge et de spin a permis, en accord avec les résultats antérieurs, de montrer que le spin est délocalisé sur le groupe O-N-C-N-O (fonction nitronyle nitroxyde). Elle a également permis de montrer l’implication des liaisons hydrogène dans les interactions magnétiques ferromagnétique observé en dessous de 0.6K. Cette étude a mis en évidence une répartition dissymétrique de la population de spin sur les deux groupes N—O dont seuls les calculs CASSCF permettent de reproduire l’amplitude. Cette dissymétrie proviendrait d’une combinaison d’effets moléculaires et cristallins. Dans le radical p-O2NC6F4CNSSN de la famille des dithiadiazolyles, la modélisation par affinement joint montre que la majorité du spin est porté par le groupement –CNSSN en accord avec les travaux antérieurs. Grace aux propriétés topologiques de la densité de charge, des interactions halogène, chalcogène et π ont été mis en évidence. Certaines de ces interactions favorisent des couplages magnétiques, notamment les contacts S…N2 entre molécules voisines pouvant contribuer à l’ordre ferromagnétique observé à très basse température (1.3K). Quant au matériau inorganique, YTiO3, les densités de charge en phases paramagnétique et ferromagnétique ont été déterminées ainsi que la densité de spin dans la phase ferromagnétique. Les résultats de cette étude montrent que les orbitales d les plus peuplées en électrons de l’atome de Ti sont dxz et dyz.. L’ordre orbital présent dans ce matériau est observé à 100 et à 20 K suggérant que l’ordre orbitalaire est lié à la distorsion des octaèdres. La fonction d’onde de l’électron non apparié est une combinaison linéaire de ces orbitales t2g / X-ray and neutron diffraction methods can be combined to determine simultaneously electron charge and spin densities in crystals based on spin resolved electron density model developed at CRM2. This method enables to carry out the study of interaction paths leading to the observed ferromagnetic order. First applications of this model were to coordination complexes, where the unpaired electron is mainly located on the transition metal, then generalized to explore organic radicals and to inorganic materials. In radical Nit(SMe)Ph, the modeling of the experimental charge and spin densities showed localization of spin density on O-N-C-N-O group (nitronyl -nitroxyde function), in agreement with previous works. It is also evidenced the involvement of the hydrogen bonds in the magnetic interactions leading to the ferromagnetic transition at very low temperature (0.6K). This study revealed dissymmetrical spin population of the two N-O groups that only CASSCF-type calculations can reproduce in amplitude (not DFT). This dissymmetry originates from both molecular and crystal effects. In radical p-O2NC6F4CNSSN belonging to the family of dithiadiazolyl, the joint refinement showed that the majority of the spin is distributed on -CNSSN group in agreement with the previous works. From topological properties of the charge density, halogen, chalcogen and π interactions have been highlighted. The most important magnetic interactions are observed through the network formed by contacts S ... N2 between neighboring molecules leading to the ferromagnetic order below 1.23K. Concerning the inorganic material, YTiO3, the charge densities in both paramagnetic and ferromagnetic phases and spin density were modelled. The results show that the most populated d orbitals of Ti atom are dxz and dyz. The orbital ordering evidenced in this material is observed at 100 and 20 K due to the orthorhombic distorsion. The wave function of the unpaired electron is a linear combination of these particularly populated t2g orbitals
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Organic Fluorine in Crystal Engineering : Consequences on Molecular and Supramolecular OrganizationDikundwar, Amol G January 2013 (has links) (PDF)
The thesis entitled “Organic fluorine in crystal engineering: Consequences on molecular and supramolecular organization” consists of six chapters.
The main theme of the thesis is to address the role of substituted fluorine atoms in altering the geometrical and electronic features in organic molecules and its subsequent consequences on crystal packing. The thesis is divided into three parts. Part I deals with compounds that are liquids under ambient conditions, crystal structures of which have been determined by the technique of in situ cryocrystallography. Part II demonstrates the utilization of in situ cryocrystallography to study kinetically trapped metastable crystalline phases that provide information about crystallization pathways. In part III, crystal structures of a series of conformationally flexible molecules are studied to evaluate the consequences of fluorine substitution on the overall molecular conformation. The genesis and stabilization of a particular molecular conformation has been rationalized in terms of variability in intermolecular interactions in the crystalline state.
Part I. In situ cryocrystallography: Probing the solid state structures of ambient condition liquids.
Chapter 1 discusses the crystal structures of benzoyl chloride and its fluorinated analogs. These compounds have been analysed for the propensity of adoption of Cl···O halogen bonded dimers and catemers. The influence of conformational and electronic effects of sequential fluorination on the periphery of the phenyl ring has been quantified in terms of the most positive electrostatic potential, VS,max (corresponding to σ-hole) on the Cl-atom. It is shown that fluorine also exhibits “amphoteric” nature like other heavier halogens, particularly in presence of electron withdrawing groups. Although almost all the derivatives pack through C–H···O, C–H···F, C–H···Cl, Cl···F, C–H···π and π···π interactions, the compound 2,3,5,6-tetrafluorobenzoyl chloride exhibited a not so commonly observed Cl···O halogen bonded catemer. On the other hand, the proposed Cl···O mediated dimer is not observed in any of the structures due to geometrical constraints in the crystal lattice.
Chapter 2 presents the preferences of fluorine to form hydrogen bond (C–H···F) and halogen bonds (X···F; X= Cl, Br, I). Crystal structures of all three isomers of chloro-, bromo-and iodo-fluorobenzene have been probed in order to gain insights into packing interactions preferred by fluorine and other heavier halogens. It has been observed that
homo halogen…halogen (Cl···Cl, Br···Br and I···I) contacts prevail in most of the structures with fluorine being associated with the hydrogen atom forming C–H···F hydrogen bond. The competition between homo and hetero halogen bonds (I···I vs I···F) is evident from the packing polymorphism exhibited by 4-iodo fluorobenzene observed under different cooling protocols. The crystal structures of pentafluoro halo (Cl, Br, I) benzenes were also determined in order to explore the propensity of formation of homo halogen bonds over hetero halogen bonds. Different dimeric and catemeric motifs based on X···F and F···F interactions were observed in these structures.
Chapter 3 focuses on the effect of different cooling protocols in generating newer polymorphs of a given liquid. The third polymorph (C2/c, Z'=6) of phenylacetylene was obtained by sudden quenching of the liquid filled in capillary from a hot water bath (363 K) to the nitrogen bath (< 77 K). Also, different polymorphs were obtained for both 2¬fluoro phenylacetylene (Pna21, Z'=1) and 3-fluoro phenylacetylene (P21/c, Z'=3) when crystallized by sudden quenching in contrast to the generally followed method of slow cooling which results in isostructural forms (P21, Z'=1). The rationale for these kinetically stable “arrested” crystalline configurations is provided in part II of the thesis.
Part II. Tracing crystallization pathways via kinetically captured metastable forms.
Chapter 4 explains the utilization of the new approach of sudden quenching of liquids (detailed in chapter 3) to obtain kinetically stable (metastable) crystalline phases that appear to be closer to the unstructured liquids. Six different examples namely, phenylacetylene, 2-fluorophenylacetylene, 3-fluorophenylacetylene, 4-fluorobenzoyl chloride, 3-chloro fluorobenzene and ethyl chloroformate are discussed in this context. In each case, different polymorphs were obtained when the liquid was cooled slowly (100 K/h) and when quenched sharply in liquid nitrogen. The relationship between these metastable forms and the stable forms (obtained by slow cooling) combined with the mechanistic details of growth of stable forms from metastable forms provides clues about the crystallization pathways.
Part III. Conformational analysis in the solid state: Counterbalance of intermolecular interactions with molecular and crystallographic symmetries.
Chapter 5 describes the crystal structures of a series of conformationally flexible molecules namely, acetylene and diacetylene spaced aryl biscarbonates and biscarbamates. While most of the molecules adopt commonly anticipated anti (transoid) conformation, some adopt unusual cisoid and gauche conformations. It is shown that the unusually twisted conformation of one of the compounds [but-2-yne-bis(2,3,4,5,6¬pentafluorocarbonate)] is stabilized mainly by the extraordinarily short C–H···F intermolecular hydrogen bond. The strength of this rather short C–H···F hydrogen bond has been authenticated by combined single crystal neutron diffraction and X-ray charge density analysis. It has also been shown that the equi-volume relationship of H-and F-atoms (H/F isosterism) can be explored to access various possible conformers of a diacetylene spaced aryl biscarbonate. While biscarbonates show variety of molecular conformations due to absence of robust intermolecular interactions, all the biscarbamates adopt anti conformation where the molecules are linked with antiparallel chains formed with N–H···O=C hydrogen bonds.
Chapter 6 presents a unique example where the commonly encountered crystallographic terms namely, high Z' structure, polymorphism, phase transformation, disorder, isosterism and isostructuralism are witnessed in a single molecular species (parent compound benzoylcarvacryl thiourea and its fluorine substituted analogs). The origin of all these phenomenon has been attributed to the propensity of formation of a planar molecular dimeric chain mediated via N–H···O [R2 (12)] and N–H···S [R2 (8)] dimers.
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Microwave Spectroscopic and Atoms in Molecules Theoretical Investigations on Weakly Bound Complexes : From Hydrogen Bond to 'Carbon Bond'Devendra Mani, * January 2013 (has links) (PDF)
Weak intermolecular interactions have very strong impact on the structures and properties of life giving molecules like H2O, DNA, RNA etc. These interactions are responsible for many biological phenomena. The directional preference of some of these interactions is used for designing different synthetic approaches in the supramolecular chemistry. The work reported in this Thesis comprises of investigations of weak intermolecular interactions in gas phase using home-built Pulsed Nozzle Fourier Transform Microwave (PN-FTMW) spectrometer as an experimental tool and ab-initio and Atoms in Molecules (AIM) theory as theoretical tools. The spectrometer which is coupled with a pulsed nozzle is used to record pure rotational spectra of the molecular clusters in a jet cooled molecular beam. In the molecular beam molecules/complexes are free from interactions with other molecules/complexes and thus, spectroscopy in the molecular beams provides information about the 'isolated' molecule/complex under investigation. The rotational spectra of the molecules/complexes in the molecular beam provide their geometry in the ground vibrational states. These experimental geometries can be used to test the performance and accuracy of theoretical models like ab-initio theory, when applied to the weakly bound complexes. Further the AIM theory can be used to gain insights into the nature and strength of the intermolecular interactions present in the system under investigation. Chapter I of this Thesis gives a brief introduction of intermolecular interactions. Other than hydrogen bonding, which is considered as the most important intermolecular interaction, many other intermolecular interactions involving different atoms have been observed in past few decades. The chapter summarizes all these interactions. The chapter also gives a brief introduction to the experimental and theoretical methods used to probe these interactions. In Chapter II, the experimental and theoretical methods used in this work are summarized. Details of our home-built PN-FTMW spectrometer are given in this chapter. The chapter also discusses briefly the theoretical methods like ab-initio, AIM and Natural bond orbital (NBO) analysis. We have made few changes in the mode of control of one of our delay generators which have also been described.
Chapter III and Chapter V of this Thesis are dedicated to the propargyl alcohol complexes. Propargyl alcohol (PA) is a molecule of astrophysical interest. It is also important in combustion chemistry since propargyl radical is considered as the precursor in soot formation. Moreover, PA is a multifunctional molecule, having a hydroxyl (-OH) and an acetylenic (-C≡C-H) group. Both of the groups can individually act as hydrogen bond acceptor as well as donor and thus PA provides an exciting possibility of studying many different types of weak interactions. Due to internal motion of -OH group, PA monomer can exist in gauche as well as trans form. However, rotational spectra of PA-monomer show the presence of only gauche conformer. In Chapter III, rotational spectra of Ar•••PA complex are discussed. The pure rotational spectra of the parent Ar•••PA complex and its two deuterated isotopologues, Ar•••PA-D (OD species) and Ar•••PA-D (CD species), could be observed and fitted within experimental uncertainty. The structural fitting confirmed a structure in which PA is present as gauche conformer and argon interacts with both the O-H group and the acetylenic group leading to Ar•••H-O and Ar•••π interactions respectively. Presence of these interactions was further confirmed by AIM theoretical analysis. In all the three isotopologues c-type rotational transitions showed significant splitting. Splitting patterns in the three isotopologues suggest that it originates mainly due to the large amplitude motion of the hydroxyl group and the motion is weakly coupled with the carbon chain bending motion. No evidence for the complex with trans conformer of PA was found. Although, we could not observe Ar•••trans-PA complex experimentally, we decided to perform ab-initio and AIM theoretical calculations on this complex as well. AIM calculations suggested the presence of Ar•••H-O and a unique Ar•••C interaction in this complex which was later found to be present in the Ar•••methanol complex as well. This prompted us to explore different possible interactions in methanol, other than the well known O-H•••O hydrogen bonding interactions, and eventually led us to an interesting interaction which we termed as carbon bond. Chapter IV discusses carbon bonding interaction in different complexes. Electrostatic potential (ESP) calculations show that tetrahedral face of methane is electron-rich and thus can act as hydrogen/halogen bond acceptor. This has already been observed in many complexes, e.g. CH4•••H2O/HF/HCl/ClF etc., both experimentally and theoretically. However, substitution of one of the hydrogens of methane with -OH leads to complete reversal of the properties of the CH3 tetrahedral face and this face in methanol is electron-deficient. We found that CH3 face in methanol interacts with electron rich sites of HnY molecules and leads to the formation of complexes stabilized by Y•••C-X interactions. This interaction was also found to be present in the complexes of many different CH3X (X=OH/F/Cl/Br/NO2/NF2 etc.) molecules. AIM, NBO and C-X frequency shift analyses suggest that this interaction could be termed as "carbon bond". The carbon bonding interactions could be important in understanding hydrophobic interactions and thus could play an important role in biological phenomena like protein folding. The carbon bonding interaction could also play a significant role in the stabilization of the transition state in SN2 reactions. In Chapter V of this Thesis rotational spectra of propargyl alcohol dimer are discussed. Rotational spectra of the parent dimer and its three deuterated (O-D) isotopologues (two mono-substituted and one bi-substituted) could be recorded and fitted within experimental uncertainty. The fitted rotational constants are close to one of the ab-initio predicted structure. In the dimer also propargyl alcohol exists in the gauche form. Atoms in molecules analysis suggests that the experimentally observed dimer is bound by O-H•••O, O-H•••π and C-H•••π interactions. Chapter VI of the thesis explores the 'electrophore concept'. To observe the rotational spectra of any species and determine its rotational constant by microwave spectroscopy, the species should have a permanent dipole moment. Can we obtain rotational constants of a species having no dipole moment via microwave spectroscopy? Electrophore concept can be used for this purpose. An electrophore is an atom or molecule which could combine with another molecule having no dipole moment thereby forming a complex with a dipole moment, e.g. Argon atom is an electrophore in Ar•••C6H6 complex. The microwave spectra of Ar•••13CC5H6 and Ar•••C6H5D complexes were recorded and fitted. The A rotational constant of these complexes was found to be equal to the C rotational constant of 13CC5H6 and C6H5D molecules respectively and thus we could determine the C rotational constant of microwave 'inactive' 13CC5H6. This concept could be used to obtain the rotational spectra of parallel displaced benzene-dimer if it exists.
We recently showed that the square pyramidal Fe(CO)5 can act as hydrogen bond acceptor. Appendix I summarizes the extension of this work and discusses interactions of trigonal bipyramidal Fe(CO)5 with HF, HCl, HBr and ClF. Our initial attempts on generating a chirped pulse to be used in a new broadband spectrometer are summarized in Appendix II. Preliminary investigations on the propargyl•••water complex are summarized in Appendix III.
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Microwave Spectroscopic and Theoretical Investigations on Inter/Intra Molecular BondingShahi, Abhishek January 2014 (has links) (PDF)
The importance of weak interactions between molecules to life and all parts of science and engineering is unquestionable and there have been an enormous interest in such interactions. Among all the weak interactions, hydrogen bonding is the most popular and it has enjoyed the most attention of the scientific community. Halogen bonding is gaining more popularity in the recent time, as its importance to biological molecules and crystal engineering has been recognized. In this work, a Pulsed Nozzle Fourier Transform Microwave spectrometer has been used to study the rotational spectra of molecules and hydrogen bonded complexes. Structural information is obtained from the rotational spectra. Ab initio electronic structure, Natural Bond Orbital (NBO) and Atoms in Molecules (AIM) theoretical methods have been used to characterize the weak intermolecular interactions, including hydrogen bonding, halogen bonding and lithium bonding.
In Chapter I, introduction to weak interaction is discussed. A brief introduction of different experimental and theoretical methods is presented.
Chapter II discusses in detail about the different methods used to investigate weak interaction, both experimentally and theoretically, in this work. In our lab, we use Pulsed Nozzle Fourier Transform Microwave spectrometer to determine the complexes spectra and structures. We generate MW radiation with the help of electronic devices and use Balle-Flygare cavity where molecular interaction takes place. We inject the sample inside the cavity in form of supersonic molecular beam through a pulsed nozzle, parallel to MW radiation. The detailed instrumental discussion about MW spectrometer has been done in this Chapter. We extensively use theoretical methods to probe weak bonding and characterize them. Ab initio and DFT calculations are used to optimize the structure of the complexes and predict their rotational spectra. Atoms in Molecules theory and Natural Bond Orbital theory are then used with the ab initio wave functions to understand the weak interactions in depth. Discussion about these methods and software used for the analysis will also be discussed.
In Chapter III, rotational spectrum of Hexafluoroisopropanol (HFIP) monomer is presented. HFIP is an interesting molecule as it offers many possibilities as hydrogen bond donor and acceptor. It has the OH group which can both accept/donate a hydrogen bond and in addition it has a very acidic CH group. It is the only solvent that can dissolve polyethylene terephthalate, a normally difficult-to-dissolve polymer, and clearly it has unique interactions with this difficult to solve polymer. We have recorded and fitted rotational spectra of five different isotopologues of HFIP which helped us in determining its accurate structure. Though, it can exist in synclinical and antiperiplanar conformers, only the later has been detected in our molecular beam spectrometer. This happens to be the global minimum structure of HFIP. Combination of experimental observations and ab initio calculations provided many evidences which confirmed the presence of antiperiplanar conformer, experimentally. Since, the rotational constants for both conformers were very close, it was always challenging to pick up one conformer as experimentally observed structure. A prototype molecule, hexafluoroisobutene (HFIB) shows doubling of rotational transitions due to tunnelling/counter rotation of the two CF3 groups through a small barrier. Interestingly, such motion has no barrier in HFIP and hence no splitting in transitions was observed. Potential energy surface calculated for counter-rotation of the two CF3 groups is consistent with this observation. This barrier is different from eclipsed-staggered exchange barrier, observed by 60 counter rotation of both terminal CF3 groups, for which the barrier height is very large and tunnelling cannot occur. The origin/lack of the small barrier in HFIB/HFIP has been explored using Natural Bond Orbital (NBO) method which helped in understanding intramolecular bonding in these molecules. Along with HFIB, other prototype molecules were also considered for the analysis e.g. hexafluoroacetone, hexafluoroacetone imine, hexafluoroisobutane, hexafluoroisopropylamine. In the last section of this Chapter, we have discussed the generalized behaviour of molecules which have CF3-C-CF3 groups.
In Chapter IV, rotational spectrum of HFIP•••H2O complex is presented. Aqueous solution of HFIP stabilizes α-helical structure of protein, a unique property of this solvent. The main objective of this Chapter is understanding the interaction between HFIP and H2O. Microwave spectrum of HFIP•••H2O was predicted and recorded. Three isotopologues were investigated. Though, this complex could in principle have several structural conformers, detailed ab initio calculations predicted two conformers and only one was observed. Though, the rotational constants for both structures were somewhat similar, lack of a dipole transitions, larger intensity of b-dipole transitions over c-dipole transitions and isotopic substitution analysis positively confirm the structure in which HFIP acts as the hydrogen bond donor. The linear O-H•••O hydrogen bond in HFIP-H2O complex is significantly stronger than that in water dimer with the H•••O distance of 1.8 Å. The other structure for this complex, not found in experiment is cyclic with both C-H•••O and O-H•••O hydrogen bonds, both of which are bent with H•••O distances in the range 2.2-2.3 Å. Both AIM and NBO calculations have been used to characterize the hydrogen bond in this complex.
In Chapter V, a comprehensive study on hydrogen bonding, chlorine bonding and lithium bonding have been done. A typical hydrogen bonded complex can be represented as A•••H-D, where A is the acceptor unit and H-D is the hydrogen bond donor unit. Many examples are known in literature, both experimentally and theoretically, in which the A-H-D bond angles are not linear. Deviation from linearity also results in the increase in A•••H bond lengths, as noted above for the two structures of HFIP•••H2O complex. Though this has been known for long, the distance between A and D being less than the sum of their van der Waals ‘radii’ is still used as a criterion for hydrogen bonding by many. Our group has recently shown the inappropriateness of van der Waals ‘radii’ and defined hydrogen bond ‘radii’ for various donors, DH and A. A strong correlation of DH hydrogen bond ‘radii’ with the dipole moment was noted. In this Chapter, we explored in detail the angular dependence of hydrogen bond ‘radii’. Electron density topology around DH (D = F, Cl and OH) has been analyzed in detail and shown to be elliptical. For these molecules, the two constants for H atom treated as an ellipse have been determined. It is hoped that these two constants will be used widely in analyzing and interpreting H•••A distances, as a function of D-H•••A angles, rather than one ‘radius’ for H and acceptor atoms.
In Chapter VI, Detailed analysis and comparisons among hydrogen bond, chlorine bond and lithium bond, have been done. Hydrogen can be placed in group 1 as well as group 17 of the periodic table. Naturally, lithium bonding and halogen bonding have been proposed and investigated. There have been numerous investigations on the nature of hydrogen bonding and the physical forces contributing to it. In this Chapter, a total of one hundred complexes having H/Cl/Li bonding have been investigated using ab initio, AIM and NBO theoretical methods. Various criteria proposed in the literature have been examined. A new criterion has been proposed for the characterization of closed shell (ionic/electrostatic) and open shell (covalent) interactions. It has been well known that the D-H bond weakens on the D-H•••A hydrogen bond formation and H•••A bond acquires a fractional covalency. This Chapter shows that for D-Li•••A complexes, the ionicity in D-Li is reduced as the Li•••A bond is formed This comprehensive investigation of H/Cl/Li bonding has led us to propose a conservation of bond order, considering both ionic and covalent contributions to both D-X and X•••A bonds, where DX is the X-bond donor and A is the acceptor with X = H/Cl/Li.
Hydrogen bond is well understood and its definition has been recently revised [Arunan et al. Pure Appl. Chem., Vol. 83, pp. 1619–1636, 2011]. It states “The X–H•••Y hydrogen bond angle tends toward 180° and should preferably be above 110°”. Using AIM theory and other methods, this fact is examined and presented in Appendix A. In second part of appendix A, a discussion about calling H3¯ complex as trihydrogen bond and its comparison with FHF¯ complex, is presented. In Appendix B, there is tentative prediction and discussion about the HFIP dimer. Condense phase studies show that HFIP have strong aggregation power to form dimer, trimer etc. During, HFIP monomer study, we have unassigned lines which are suspected to be from HFIP dimer. These are tabulated in the Appendix B as well.
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Contribution to the Triazole-Based Fe(II) Spin-Crossover (SCO) materials : some achievements and new questions / Contribution à l’étude de matériaux à transition de spin à base de FeII et de triazole : avancées et nouvelles questionsPittala, Narsimhulu 24 November 2016 (has links)
Ces dernières années, les matériaux à transition de spin (TS) ont suscité un intérêt marqué en raison de leurs applications potentielles, notamment en tant que capteurs ou dispositifs électroniques; typiquement, ces complexes présentent - via un stimulus externe (ex. : température, rayonnement) - une transition de spin réversible "Haut Spin (HS) Bas Spin (BS)". Dans ce contexte, le travail présenté a porté sur la conception et les études magnétostructuralesde monocristaux de nouveaux systèmes FeII à TS à base de ligands 4-R-1,2,4-triazole comprenant un espaceur alkyl, en combinaison avec soit (i) des entités tétracyanométallates inorganiques ([M(CN)4]2-, M = NiII, PtII, PdII) ou (ii) des cyanocarbanions organiques spécifiques ((tcnsR')-: anions 1,1,3,3-tétracyano-2 thioalkylpropénide) - et ce afin de comprendre in fine l'origine physico-chimique de la forte coopérativité dans ces matériaux remarquables, mais aussi de rationaliser le contrôle et l’optimisation des propriétés de TS. Dans un premier temps, un nouveau sel de polymère 1D [Fe(bntrz)3][Pt(CN)4].H2O (1) - présentant une TS abrupte et une résilience exceptionnelle lors de cycles répétés de commutation - a été synthétisé; les études structurales fines - réalisées sur monocristaux - des états HS et BS ont clairement révélé l'impact des interactions à longue distance sur les propriétés de la TS dans ce système. Ensuite, la substitution de l'anion « rigide » tétracyanométallate ([Pt(CN)4]2-) par l'entité plus « flexible » (tcnset)- nous a conduit au premier exemple de complexe neutre trinucléaire à base de triazole [Fe3(bntrz)6(tcnset)6] (2) présentant une TS complète en une seule étape au-dessus de la température ambiante. La variation systématique du substituant R' de l'anion fonctionnalisé(tcnsR')- a permis l’obtention de deux nouveaux systèmes à TS, à savoir le complexe trinucléaire neutre [Fe3 (bntrz)6(tcnspr)6] (3) et le dérivé 1D [Fe3(bntrz)8(tcnsme)4].(tcnsme)2,4H2O (4), avec des caractéristiques structurales et des comportements de TS distincts. Enfin, dans le but d'évaluer précisément l'impact de différents substituants en 4ème position sur le ligand 1,2,4-triazole, deux nouveaux matériaux 3D basés sur le triazole 2-(3-(4H-l,2,4-triazol-4-yl)propyl)isoindoline-1,3-dione (phtptrz) - i.e. {Fe3(μ2-phtptrz)6[μ2-Pt(CN)4]3}.C2H5OH,5.5H2O (5) et {Fe(phtptrz)[Pt(CN)4].H2O} (6) - ont été synthétisés et caractérisés; une TS en deux étapes est observée pour le composé 5, tandis que le dérivé 6 exprime un comportement paramagnétique caractéristique de l’état de spin S = 2. / In recent years, the spin-crossover (SCO) materials have attracted much interest because of their potential applications such as sensors or electronic displays; these complexes typically exhibit - via an external disturbance (e.g. temperature, radiation) - a reversible “High Spin (HS) Low Spin (LS)” spin transition. In this context, the present work has focused on the design and the magneto-structural investigations of single crystals of novel FeII SCO systems based on 4-R-1,2,4-triazole ligands including an alkyl spacer - with either (i) inorganic tetracyanometallates ([M(CN)4]2-, M = NiII, PtII, PdII) or (ii) specific organic cyanocarbanions ((tcnsR’)-: 1,1,3,3-tetracyano-2-thioalkylpropenide anions) - in order to ultimately understand the physicochemical origin of the strong cooperativity in such striking materials, but also to rationalize the tuning of the SCO properties. At first, a new 1D polymer [Fe(bntrz)3][Pt(CN)4].H2O (1) salt - exhibiting an abrupt spin transition and an exceptional resilience upon repeated switching - has been synthesized; the accurate single crystal investigations of both HS and LS states of the latter clearly revealed the impact of the longrange interactions on SCO properties in this system. Then, the substitution of the ‘rigid’ [Pt(CN)4]2- tetracyanometallate anion by the more ‘flexible’ (tcnset)- entity lead us to the first example of triazole-based SCO FeII trinuclear neutral complex [Fe3(bntrz)6(tcnset)6] (2) exhibiting a complete one-step spin transition above room temperature. The systematic variation of the R’ substituent from the functionalized (tcnsR’)- anion resulted in two new FeII SCO systems, i.e. the neutral trinuclear complex [Fe3(bntrz)6(tcnspr)6] (3) and the 1D [Fe3(bntrz)8(tcnsme)4](tcnsme)2.4H2O (4) derivative, with distinct structural characteristics and SCO behaviours. Finally, with the purpose to further evaluate the impact of different substituents at the 4th position onto 1,2,4-triazole ligand, two new 3D materials based on the functionalised triazole 2-(3-(4H-1,2,4-triazol-4-yl)propyl)isoindoline-1,3-dione (phtptrz) - {Fe3(μ2-phtptrz)6[μ2-Pt(CN)4]3}.C2H5OH,5.5H2O (5) and {Fe(phtptrz)[Pt(CN)4].H2O} (6) - have been synthesized and characterized; a two-step SCO behaviour is observed only in 5, while 6 shows a characteristic paramagnetic behavior.
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Rotational Spectra Of Weakly Bound H2S Complexes And 'Hydrogen Bond Radius'Mandal, Pankaj Kanti 04 1900 (has links) (PDF)
No description available.
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Modélisation des propriétés électrostatiques des complexes macromoléculaires à partir des données de diffraction des rayons X à très haute résolution / Modeling of electrostatic properties in macromolecular complexes using X-ray diffraction data at ultra-high resolutionFournier, Bertrand 06 July 2010 (has links)
La diffraction des rayons X permet d’obtenir des informations sur la structure atomique et même sur la distribution de charges de composés sous forme cristalline, ce qui est d’une importance fondamentale pour la compréhension de leurs propriétés. Accéder expérimentalement à une description de la distribution de charges de systèmes macromoléculaires reste rarement possible malgré les améliorations techniques. Pour pallier cette limite, la transférabilité des paramètres de distributions de charges est un moyen fiable d’obtenir pour ces systèmes un modèle estimé et d’en déduire leurs propriétés électrostatiques. Les résultats présentés dans ce travail de thèse s’intègrent dans une dynamique visant à étendre les méthodes initialement réservées pour l’étude des petites molécules aux systèmes macromoléculaires. Il s’articule autour du développement de la suite de logiciels MoPro et de la banque de données ELMAM (Experimental Library of Multipolar Atom Model) pour l’étude des énergies des interactions électrostatiques au sein du site actif de complexes enzyme-inhibiteur. L’étude du fidarestat, un inhibiteur de l’holoenzyme aldose réductase, réalisée à partir de données obtenues à très haute résolution, est exposée dans ce manuscrit et a servi notamment à l’amélioration de la banque ELMAM en vue de l’étude des complexes holoenzymes aldo-keto réductase. A cette occasion, la légitimité du recours aux modèles transférés de distribution de charges a été discutée pour la première fois par une estimation statistique des incertitudes sur les énergies d’interaction électrostatique entre enzyme et inhibiteur / X-ray diffraction allows to obtain information about atomic structure and charge density distribution of crystal-state compounds, which is of main interest for the understanding of their properties. Reaching experimentally charge density distribution description of macromolecular systems is rarely possible despite technical improvements. To get around this limit, the transferability of charge density distribution parameters is a reliable way to obtain for these systems estimated model and to deduce their electrostatic properties. Works introduced in this PhD thesis manuscript take part in the will of extending methods initially for study of small molecules to macromolecular systems. It is centered on the development of the MoPro software suite and of ELMAM database (Experimental Library of Multipolar Atom Model) for the study of electrostatic interaction energies in enzyme-inhibitor complexes’ active site. The study of fidarestat, an inhibitor of aldose reductase holoenzyme, performed using ultra-high resolution data, is exposed in this manuscript and allowed to improve ELMAM database for the study of electrostatic interaction in aldo-keto reductase holoenzyme complexes. Moreover, the legitimacy of using transferred charge density distribution models was discussed for the first time, thanks to statistical estimation of uncertainties on electrostatic interaction energies between enzyme and inhibitor
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Optimization of marker sets and tools for phenotype, ancestry, and identity using genetics and proteomicsBailey Mae Wills (6989195) 12 October 2021 (has links)
<div><div>In the forensic science community, there is a vast need for tools to help assist investigations when standard DNA profiling methods are uninformative. Methods such as Forensic DNA Phenotyping (FDP) and proteomics aims to help this problem and provide aid in investigations when other methods have been exhausted. FDP is useful by providing physical appearance information, while proteomics allows for the examination of difficult samples, such as hair, to infer human identity and ancestry. To create a “biological eye witness” or develop informative probability of identity match statistics through proteomically inferred genetic profiles, it is necessary to constantly strive to improve these methods. </div><div><br></div><div>Currently, two developmentally validated FDP prediction assays, ‘HIrisPlex’ and ‘HIrisplex-S’, are used on the capillary electrophoresis to develop a phenotypic prediction for eye, hair, and skin color based on 41 variants. Although highly useful, these assays are limited in their ability when used on the CE due to a 25 variant per assay cap. To overcome these limitations and expand the capacities of FDP, we successfully designed and validated a massive parallel sequencing (MPS) assay for use on both the ThermoFisher Scientific Ion Torrent and Illumina MiSeq systems that incorporates all HIrisPlex-S variants into one sensitive assay. With the migration of this assay to an MPS platform, we were able to create a semi-automated pipeline to extract SNP-specific sequencing data that can then be easily uploaded to the freely accessible online phenotypic prediction tool (found at https://hirisplex.erasmusmc.nl) and a mixture deconvolution tool with built-in read count thresholds. Based on sequencing reads counts, this tool can be used to assist in the separation of difficult two-person mixture samples and outline the confidence in each genotype call.<br></div><div><br></div><div>In addition to FDP, proteomic methods, specifically in hair protein analysis, opens doors and possibilities for forensic investigations when standard DNA profiling methods come up short. Here, we analyzed 233 genetically variant peptides (GVPs) within hair-associated proteins and genes for 66 individuals. We assessed the proteomic methods ability to accurately infer and detect genotypes at each of the 233 SNPs and generated statistics for the probability of identity (PID). Of these markers, 32 passed all quality control and population genetics criteria and displayed an average PID of 3.58 x 10-4. A population genetics assessment was also conducted to identify any SNP that could be used to infer ancestry and/or identity. Providing this information is valuable for the future use of this set of markers for human identification in forensic science settings. </div></div><div><br></div>
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NEW FUNCTIONAL LOOKS INTO THE PROTEOME USING CO-FRACTION MASS SPECTROMETRY (CF-MS)Youngwoo Lee (9189272) 04 August 2020 (has links)
The sensitivity, speed, and reproducibility of modern mass spectrometers enable in-depth new functional looks into the cellular proteome. Thousands of proteins can be detected in a single sample. In Co-Fractionation Mass Spectrometry (CF-MS) method, the input sample is fractionated by any biochemical method of choice. The reduced complexity of each fractionated sample leads to better proteome coverage. The separation profiles provide functional information on the proteins. This application has been used to predict organelle localization based on co-purification with marker proteins. More recently, CF-MS is being used to measure the apparent masses and determine the localization of soluble or membrane-associated protein complexes. This Ph.D. dissertation focuses on the extension of the boundary of CF-MS application to learn how protein complex evolution and protein complex composition have been accomplished. In the first part of this dissertation, the data will be presented on the degree to which variation in protein oligomerization across plant species is present, how proteomics in phylogenetic analysis (phyloproteomics/evolutionary proteomics) helps understand the evolutionary changes, and how oligomerization drives neofunctionalization during plant evolution. The latter part will describe that CF-MS coupled with multiple orthogonal chromatographic separations increases the resolving power of the profiling technique, enabling the composition of protein complexes to be predicted in the subaleurone layers of rice endosperm. Lots of novel protein complexes involved in RNA binding protein, translation, and the tissue-species metabolism will be discussed.
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SNIFFING OUT FRIENDS AND FOES: HOW OLFACTORY SIGNALS INFLUENCE THE SOCIAL ENVIRONMENT OF MALE LABORATORY MICEAmanda Barabas (12432324) 20 April 2022 (has links)
<p>Home cage aggression in male laboratory mice continues to challenge preclinical researchers. It reduces animal welfare and can alter research parameters, potentially reducing the validity and reliability of study data. While simply reducing aggression would be beneficial, promoting socio-positive, affiliative behaviors would greatly improve mouse welfare as mice are a social species. Mice also use olfaction to communicate, so this sensory modality could be used as a tool to improve social interactions in the home cage. A scoping review of the literature on how mammalian odor signals impact same sex social behavior found that studies are dominated by rodent subjects, treatments from urine, and aggression measures (Chapter 1). As a whole, urine treatments had a variable effect on aggression. This review highlights that treatments from non-urinary sources are not often tested, and affiliative behavior is rarely measured.</p>
<p>One murine odor source worth exploring is found in used nesting material. Mice build complex nests for insulation and it has been speculated that the nest holds odor signals that appease home cage aggression, particularly aggression triggered by cage cleaning. It has been suggested that the nest contains secretions from plantar sweat glands, but the chemical content of neither nesting material nor plantar sweat have been examined. The main goals of this dissertation are to identify the odors stored in used nesting material, determine the sources of those odors, and test them for a behavioral role.</p>
<p>Samples of used nesting material were collected from cages of group housed male mice. Further, plantar sweat, saliva, and urine were collected from the dominant and subordinate mouse in each cage as plausible odor sources. All samples were analyzed for protein and volatile organic compound content. Home cage aggression and affiliative behavior were also recorded to compare to odor profiles. Protein profiles showed that used nesting material contains a variety of proteins that primarily originate from plantar sweat, saliva, and urine sources (Chapter 2). A large proportion of these proteins contain messages about individual identity and bind volatile compounds that further contribute to identity cues. This suggests that the nest aids in maintaining a familiar odor environment. Analysis of volatile content showed that small compounds in the nest are also traced back to plantar sweat, saliva, and urine sources (Chapter 3). Few of the compounds have a known behavior role. However, one compound detected in nest, sweat, and saliva samples had a negative correlation with home cage aggression and three compounds (two from sweat and one from urine) had a positive correlation with affiliative behaviors, making them potential candidates for controlled studies on social behavior.</p>
<p>Before testing the four candidate compounds, a challenge from the correlation study needed to be addressed. Body fluid samples were collected from individual mice based on social status, as this factor impacts production of known murine pheromones. Further, aggression is typically directed from a dominant to a subordinate mouse for territorial reasons. An aggression appeasement signal is likely to be produced by a subordinate to mitigate the dominant mouse’s perceived threat. Data from the correlation study showed no odor profile differences based on social status, and the pheromones that are known to vary with social status did not differ between dominant and subordinate mice. Therefore, Chapter 4 assesses the convergent validity of several dominance measures. Over one week, home cage interactions were observed in group housed male mice. For every aggression occurrence, the aggressor and target mouse was recorded to calculate individual dominance rankings in each cage. Then, individual mice were evaluated for the following measures known to correlate with dominance: levels of urinary darcin (a murine pheromone); scores from three rounds of the tube test; and ratio of preputial gland weight to body length. Postmortem wounding was also compared. Results showed that urinary darcin and preputial gland ratio have strong convergent validity with dominance ranking based on home cage aggression.</p>
<p>Finally, the four candidate compounds (identified in Chapter 3) were developed into treatment solutions to assess their effect on home cage social behavior (Chapter 5). Cages of group housed male mice were randomly assigned one of five treatments (four compounds + control) and home cage aggression and affiliative behavior were recorded for one week. Postmortem wounding was recorded as a secondary aggression measure and social stress was measured through fecal corticosterone metabolites from each cage’s dominant and subordinate mouse (rank based on preputial gland ratio). Treatment did not predict changes in most measures. This may be due to limitations in application or from the original correlation study, which are further discussed.</p>
<p>Although the final study showed null results, future research is still warranted to fine tune application methods and gain a better understanding of how odor signals impact interactions other than aggression. The relationship between olfaction and affiliative behaviors is largely unexamined and this dissertation is a first step in filling that gap.</p>
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