Microestrutura de solidificação e propriedades mecanicas de ligas Sn-Zn para soldagem e recobrimento de superficies / Solidification microstructure and mechanical properties of Sn-Zn alloys for welding and deposition

Garcia, Leonardo Richeli

12 August 2018

Orientadores: Amauri Garcia, Wislei Riuper Ramos Osorio / Dissertação (mestrado) - Universidade Estadual de Campinas, Faculdade de Engenharia Mecanica / Made available in DSpace on 2018-08-12T22:54:52Z (GMT). No. of bitstreams: 1 Garcia_LeonardoRicheli_M.pdf: 15499869 bytes, checksum: 1afa8bd79812971da1e6fac7f4fed383 (MD5) Previous issue date: 2008 / Resumo: Sabe-se que existem tendências de leis e diretrizes que restringem o uso e aplicação de certas substâncias perigosas utilizadas em processos de fabricação de componentes em geral. Como exemplo, podem-se citar produtos contendo cádmio, mercúrio, cromo hexavalente, bifenilos polibromatos, éteres difenil-polibromato e chumbo. Devido a essas restrições, fabricantes de produtos eletrônicos têm que adequar seus produtos às novas diretrizes e desenvolver novas ligas de solda sem chumbo. Estudos preliminares indicam que ligas Sn-Zn, particularmente a eutética, consistem em alternativas promissoras para a substituição das ligas de solda contendo chumbo. Entretanto, é necessário avaliar influências das taxas de resfriamento do processo sobre a microestrutura formada e as propriedades mecânicas dessas ligas. O presente trabalho tem exatamente esse objetivo, e para cuja consecução foram planejadas as seguintes atividades: i) solidificação unidirecional de ligas Sn-Zn (Sn-4%Zn, Sn-9%Zn e Sn-12%Zn) e da liga eutética Sn-Pb (para comparação), ii) mergulho de lâminas de cobre em banho das ligas Sn-Zn e Sn- Pb por intermédio de imersão à quente e iii) por deposição em substrato de cobre. Para a fase inicial utilizou-se de um dispositivo de solidificação unidirecional vertical ascendente, para obtenção dos lingotes e registro dos respectivos perfis térmicos experimentais. Foram determinadas as variáveis térmicas de solidificação: coeficiente de transferência de calor metal/molde, velocidades de deslocamento da isoterma liquidus e taxa de resfriamento para as ligas do sistema Sn-Zn e para a liga Sn-Pb (Sn-40%Pb). Estas variáveis foram confrontadas com as previsões teóricas de um modelo numérico de solidificação e, em seguida, correlacionadas com os espaçamentos dendríticos secundários (?2) e equações experimentais de crescimento dendrítico foram determinadas. Foram realizados ensaios de mergulho utilizando-se lâminas (substrato) de cobre, a diferentes temperaturas de mergulho, em que foi possível avaliar a espessura da camada depositada sobre o substrato, a porcentagem da área recoberta pelas ligas e verificar as respectivas microestruturas. Foram também realizados ensaios de molhabilidade para avaliação do ângulo de contato entre cada liga e os respectivos substratos / Abstract: A number of laws and guidelines have been restricted the application of hazardous substances in manufacturing processes of components. This is the case of products containing cadmium, mercury, hexavalent chromium, polibromates biphenyls, polibromate-diphenyl ethers and lead. In order to adequate products to such restriction requirements, electronic components manufacturers have to meet such requirements by developing new lead-free solder alloys. Preliminary studies have indicated that Sn-Zn alloys, in particular the eutectic composition, are promising alternatives to the replacement of solder alloys containing lead. However, studies focusing on the influence of the cooling rate on the resulting microstructures and on the mechanical properties of these alloys need to be carried out. This work has precisely such objective, and the following activities have been planned to attain such purpose: i) unidirectional solidification of Sn-Zn alloys (Sn-4wt%Zn, Sn-9wt%Zn, Sn-12wt%Zn) and of the Sn-Pb eutectic (for comparison purposes), ii) copper blades dipped in molten Sn-Zn and Sn-Pb alloys (hot dipping) and iii) deposition on copper substrate. For the initial experimental step an upward vertical solidification system has been used to obtain the alloys ingots and their correspondent thermal profiles. Solidification thermal variables such as: metal/mold heat transfer coefficient, tip growth rates and cooling rates have been determined for Sn-Zn and the Sn-40wt%Pb alloys. Such experimental variables have been compared with predictions from a solidification numerical model and correlated to secondary dendrite arm spacings (?2) and experimental equations of dendritic growth have been proposed. The thickness of the coating layers, the spreading areas and the resulting microstructures of the alloys on the copper substrates (blades) were evaluated after the hot dipping procedures at different temperatures. Wetting tests have also been carried out in order to evaluate the contact angle between drop and substrate for each alloy / Mestrado / Materiais e Processos de Fabricação / Mestre em Engenharia Mecânica

Solidificação

Solda e soldagem

Microestrutura

Metais - Propriedades mecânicas

Ligas (Metalurgia)

Sn-Zn lead-free alloys

Unidirectional transient solidification

Dendritic structures

Mechanical properties

Wetting

Elaboration d'oxydes et de sulfures à grande bande interdite pour les cellules photovoltaïques à base de Cu(In,Ga)Se2 par dépôt chimique en phase vapeur par flux alternés (ALD) activé par plasma / Synthesis of large band gap oxides and sulfides for Cu(In,Ga)Se2 thin film solar cells by Atomic Layer Deposition (ALD) and Plasma Enhanced - ALD (PEALD)

Bugot, Cathy

29 October 2015

La thèse présentée ici a pour objectif de développer des matériaux innovants et performants pour la fabrication de la couche tampon des cellules photovoltaïques en couches minces à base de Cu(In,Ga)Se2 (CIGS). Pour la première fois, des couches minces d'In2(S,O)3 et de Zn(O,S) ont été réalisées par dépôt chimique en phase vapeur par flux alternés assisté par plasma afin de remplacer la couche tampon traditionnelle en sulfure de cadmium. En apportant des espèces plus réactives, cette méthode permet d'effectuer des réactions qui ne pourraient pas avoir lieu par procédé thermique. La comparaison des deux procédés a permis l'évaluation de leurs atouts et de leurs contraintes. Par exemple, l'In2(S,O)3 n'a pu être synthétisé que par cette méthode, via des mécanismes surfaciques d'échange entre des radicaux d'oxygène et le soufre de l'In2S3. Pour augmenter les performances des cellules CIGS/In2(S,O)3 jusqu'à 11,9%, le procédé de synthèse initial a été amélioré en corrélant les études de Spectroscopie Photoélectronique X et celles de spectrométrie de masse. En parallèle, il a été montré que la température de croissance avait un effet notable sur les propriétés opto-électroniques des cellules CIGS/Zn(O,S) et qu'il existait des optimums de performance à basse (Tdep < 160°C) et haute (Tdep > 200°C) températures. L'optimum situé à basse température s'explique par les propriétés favorables des couches minces de Zn(O,S) synthétisées par procédé thermique, tandis que celui situé à haute température est dû à l'existence de mécanismes d'interdiffusion à l'interface Zn(O,S)/CIGS. Un rendement de 15,6% a pu ainsi être obtenu. / This thesis focuses on the development of innovative and efficient materials for the fabrication of the buffer layer of Cu(In,Ga)Se2 (CIGS) thin film solar cells. For the first time, In2(S,O)3 and Zn(O,S) thin films were synthesized by Plasma Enhanced Atomic Layer Deposition (PEALD) in order to substitute the conventional cadmium sulfide buffer layer. By creating reactive species, this deposition technique allows reactions which could not be possible using thermal ALD. The comparison of both methods allows the evaluation of their respective assets and constraints. For instance, In2(S,O)3 thin films could only be achieved using PEALD through exchange reaction mechanisms between oxygen radicals from the plasma and sulfur atoms of In2S3 growing film. In order to obtain CIGS/In2(S,O)3 solar cells with efficiencies of 11.9%, the initial deposition process was improved by correlating X-Ray Photoelectron Spectroscopy and Quadrupole Mass Spectrometry analyses. At the same time, the deposition temperature proved to have a crucial effect on CIGS/Zn(O,S)-ALD device opto-electronic properties and we evidenced the existence of two deposition temperature ranges, at Tdep < 160°C and Tdep > 200°C, where the performances are enhanced. In the low temperature range, the high performances were explained by specific Zn(O,S) properties, while at high temperature they are enhanced by favorable interdiffusion mechanisms at the CIGS/Zn(O,S) interface. Increasing the deposition temperature allowed the fabrication of CIGS/Zn(O,S) solar cells with efficiencies up to 15.6%.

Cellules solaires en couches minces

CIGS

Zn(O,S)

In2(S,O)3

Plasma

Plasma enhanced atomic layer deposition

CIGS

541.35

Synthesis, Structural Elucidation and Anticancer Activity Studies on Metal Complexes of Nucleic Acid Constituents and their Derivatives

Sivakrishna, Narra

January 2016

Metal-nucleic acid interaction studies have been gaining attention due to their biological and chemical importance. Nucleic acids are negatively charged bio-polymers and neutralization of their negative charge is essential for the stability and function. In the cells, organic positive ions (positively charged amino acids and polyamines) and some of the metal ions (e.g. Na+, K+, Mg2+...etc) neutralize the charge of nucleic acids. Whereas, interactions of some metal ions (e.g. Cd2+, Hg2+…etc) with nucleic acids destabilize the structure. The stability and conformation of nucleic acids alter due to metal interactions. Further, metal interactions with nucleic acids can bring changes in conformation of ribose, H-bonding and π-π stacking interactions. To understand the metal interactions with nucleic acids, various spectroscopic techniques are being used. However, X-ray crystallographic technique is advantageous over all other spectroscopic techniques since it gives thorough detail of coordination mode and structure. However, crystallization of large molecules like nucleic acids with metals is associated with great difficulty. In order to simplify the problem, nucleic acid constituents and derivatives have been used as model systems for metal-nucleic acid interactions. Nucleic acid constituents and derivatives are multidentate ligands. Moreover, binding mode of metal with nucleic acid constituents and derivatives depends on various factors include pH, temperature, type of metal…etc. Further, understanding of metal nucleic acid interactions can aid to develop new anticancer drugs targeting nucleic acids. For example, cisplatin is a platinum based anticancer drug, which coordinates to N(7) of guanine in DNA brings cell death. There have been several reports in literature on the complexes of metal nucleic acid constituents. However, much more research is warranted for thorough understanding of metal-nucleic acid interactions. On the other hand, nucleic acid constituents and derivatives are used extensively in anticancer drug development. Some of nucleic acid constituent derivatives, 5-Fluro uracil and 6-Mercaptopurine, are currently in use for the treatment of colorectal cancer and leukemia, respectively. Moreover, cisplatin is a platinum based anticancer drug used in the treatment of various types of cancers. However, use of these drugs for long time poses severe side effects and drug resistance. Most of the side effects are due to non bio-compatibility of drugs. To overcome problems associated with present anticancer drugs, bio-compatible metal based anticancer drug development could be an attractive and alternative strategy. To address this, in this study, we report synthesis of a number of new metal complexes of nucleic acid constituents and their derivatives and characterization by various spectroscopic techniques. Also, the interactions of Ni, Cu and Zn ions with various nucleic acid constituents and their derivatives have been elucidated by single crystal X-ray crystallography. Interestingly, Ni, Cu and Zn ions showed various coordination modes to nucleic acid constituents and their derivatives. Further, anticancer studies were carried out for all these complexes in various cancer cell lines. Several complexes showed better cytotoxicity than the well-known drug cisplatin. My thesis work is divided into five parts based on the nature of molecules. I. Synthesis, X-ray crystallographic and anticancer studies on metal (Zn/Ni) complexes of guanine (G) based nucleic acid constituents In order to understand (Zn/Ni) interactions with guanine based nucleic acid constituents and their anticancer activity, several (Zn/Ni) complexes of 5′-GMP, 5′-IMP and hypoxanthine complexes were prepared. The synthesized complexes are (1) [Zn (5′-GMP)]n.11H2O, (2) [Ni (5′-GMP)2 Na2 (μ-OH2)3 (H2O)8].2H2O, (3) [Ni (5′-IMP)2Na2 (H2O)12]n.5H2O and (4) [Ni (hx)2 (H2O)4] Cl2 [Here 5′-GMP = 5′-Guanosine Mono Phosphate, 5′-IMP = 5′-Inosine Mono Phosphate and hx = Hypoxanthine). These complexes were characterized by various spectroscopic and X-ray crystallography techniques. Complex 1: The X-ray structure revealed that zinc is coordinated to 5′-GMP through N(7) position of purine and phosphate moieties, the uncoordinated water molecules are making interesting complicated network of hydrogen bonds in the unit cell. The geometry of zinc coordination centre is distorted tetrahedral. Fascinatingly, zinc exhibited two different coordination environments. In one case, all phosphate oxygens participated in coordination with zinc. In second case, N(7) position of purine and phosphate oxygens participated in coordination with zinc. Moreover, zinc formed a coordination polymer with 5′-GMP. The conformation of ribose changed upon zinc interaction with 5′-GMP from C(3′)-endo to C(2′)-endo, these results suggest that zinc interaction with nucleic acids may change their conformation. Complex 1 is stabilized in solid state by H-bonding and π-π stacking interactions. Complex 2: In complex 2, 5′-GMP is coordinated to nickel through N(7) position of purine but phosphate moiety did not take place in coordination. Two molecules of 5′-GMP and four water molecules coordinated to nickel and formed distorted octahedral geometry. The charge of complex 2 is balanced by sodium coordination to sugar hydroxyl groups and nickel coordinated water molecules. The geometry of sodium coordination centre is distorted octahedral. The conformation of 5′-GMP is altered due to nickel interaction. Moreover, complex 2 is stabilized in solid state by H-bonding and π-π stacking interactions. Complex 3: Nucleotide 5′-IMP also showed similar coordination modes like 5′-GMP towards nickel, where N(7) position of purine participated in coordination with nickel and phosphate moieties did not coordinate to nickel. Two molecules of 5′-IMP and four water molecules participated in coordination with nickel and formed distorted octahedral geometry. Interestingly, the charge of complex 3 is balanced by sodium coordination to sugar hydroxyl moieties. The geometry of sodium coordination centre is distorted octahedral. Moreover, nickel is forming coordination polymer with 5′-IMP. Further, nickel interactions with 5′-IMP brought changes in the conformation of ribose moiety. These results suggest that nickel interactions with nucleic acids may bring changes in their conformation. Interestingly, right hand helical structure formation is observed for complex 3 in crystal structure. Further, the chirality of complex 3 was confirmed by circular dichroism studies. Complex 3 is stabilized by both H-bonding and π-π stacking interactions in solid state. Complex 4: Surprisingly, nickel is coordinated to hypoxanthine through N(9) position of purine in acidic conditions and not through N(7) or N(3). The coordination mode of nickel with hypoxanthine is different from complexes 2 and 3. Two hypoxanthine moieties are coordinated to nickel in axial manner. The geometry of nickel coordination centre is distorted octahedral. Further, complex 4 is stabilized by H-bonding and π-π stacking interactions in solid state. Cytotoxicity studies of complexes 1-4 on various cancer cell lines revealed that complex 1 is better cytotoxic than complexes 2-4. Moreover, complex 1 exhibited comparable cytotoxicity with cisplatin on various cells lines and induced apoptotic cell death. II. Synthesis, structure elucidation and anticancer activity of copper-adeninyl complexes In order to understand copper-adenine interactions and anticancer activity, several copper complexes of adenine derivatives were prepared. Here, most of adenine derivatives used in complex preparation is known as cycline dependent kinase inhibitors. Prepared copper complexes are 1) [Cu (N6-benzyl adenineH)2Cl3 ].Cl.2H2O, 2) [Cu (2-amino-N6-benzyladenineH)2Cl3].(2-amino-N6-benzyl adenineH)2.3Cl.5H2O, 3) [Cu (α-(Purin-6-ylamino)-p-toluenesulfonamide H)2Cl4], 4) [Cu (kinetinH)2 Cl3].Cl.2H2O, 5) [Cu (N-1H-purine-6-yl-alanineH) (H2O) Cl3].H2O, 6) [(Cu (N-1H-purine-6-yl-alanineH)2Cl3).(Cu(N-1H-purine-6-yl-alanineH)Cl)2(μ-Cl)2].Cl.4H2O. All these complexes were characterized by X-ray crystallography and various spectroscopic techniques. Complex 1: Synthesis and X-ray structures of complex 1 were reported in literature. However, anticancer activity of complex 1 is not known. Therefore, it was prepared based on the reported lines to assess the anticancer activity. The anticancer activity of complex 1 was studied on various cell lines. Interestingly, complex 1 exhibited better cytotoxicity than cisplatin in MCF-7 and MDA-MB-231 cell lines. Complex 2: Ligand 2-amino-N6-benzyl adenine is coordinated to copper through N(9) of purine. In addition, two uncoordinated 2-amino-N6-benzyl adenine, three chloride and five water molecules are making it as a co-complex with uncoordinated ligands. The copper coordination centre adopted distorted trigonal bipyramidal geometry [3+2] with τ = 0.671 (α-β/60, where α, β are two greatest valence angles of coordination centre). Further, complex 2 is stabilized in solid state by both H-bonding and π-π stacking interactions. H-bonding is observed between N-H···Cl. Uncoordinated water molecules formed six-member rings with H-bonding network. The π-π stacking interactions are observed between phenyl and purine moieties. Complex 2 exhibited better cytotoxicity than 2-amino-N6-benzyl adenine and copper salt. Complex 3: Ligand α-(2-Amino purin-6-ylamino)-p-toluene sulfonamide is coordinated to copper through N(9) position and protonation is observed at N(3) position. Two molecules of α-(2-Amino purin-6-ylamino)-p-toluene sulfonamide and four chloride ions are forming a distorted octahedral geometry with copper. Complex 3 is stabilized by N-H···Cl and N-H···O H-bonding. Further, complex 3 exhibited better cytotoxicity than cisplatin in U251 cells. Complex 4: Kinetin is coordinated to copper through N(9) position of purine. Protonation is observed on N(3) position and balanced the charge of complex 4. Two molecules of kinetin and three chloride moieties are coordinated to copper and forming distorted trigonal bipyramidal geometry [3+2] with τ = 0.431. Moreover, complex 4 is stabilized by both H-bonding interactions and π-π stacking interactions. The H-bonding of complex 4 is observed between N-H···Cl and C-H···Cl. The π-π stacking interactions are observed between furanyl aromatic ring and imidazole ring of purine. Complex 4 exhibited better cytotoxicity than kinetin and copper salt. Complex 5: The N-1H-purine-6-yl-alanine is coordinated to copper through N(9) position of purine. Complex 5 crystallizes in the monoclinic space group P21 with Z=4. One molecule of N-1H-purine-6-yl-alanine, two chloride ions and one water molecule coordinated to copper. The geometry of copper coordination centre is distorted trigonal bipyramidal [3+2] with Cu(1) τ1 = 0.613 and Cu(2) τ2= 0.671. Protonation is observed on N(3) position. Complex 5 is stabilized by both H-bonding and π-π stacking interactions. The H-bonding of complex 5 is observed between N-H···Cl and C-H···Cl. The π-π stacking interactions are observed between imidazole moieties. Moreover, complex 5 exhibited better cytotoxicity than N-1H-purine-6-yl-alanine and copper salt. Complex 6: Complex 6 is a co-complex, where two different complexes are co-crystallized. The crystal structure of complex 6 indicate that geometry of Cu(1) and Cu(2) coordination centre are distorted trigonal bipyramidal [3+2] with τ1 = 0.3261 and τ2 = 0.8, respectively. Two molecules of N-1H-purine-6-yl-alanineH are coordinated to Cu(2) through N(9) position of purine. The N-1H-purine-6-yl-alanineH ligands are arranged in geometry in trans manner with respect to axis passing through the N(9) atom and copper. Whereas, in second co-complex two N-1H-purine-6-yl-alanineH are coordinated to Cu(1) through N(9) and N(3) position of purine. Both Cl(1) and Cl(3) coordinated to copper are forming a bridge between copper. In addition, one uncoordinated chloride and two water molecules are present in the unit cell. Complex 6 is stabilized in crystalline state by both H-bonding and π-π stacking interactions. Complex 6 exhibited better cytotoxicity than complex 5, N-1H-purine-6-yl-alanine and copper salt on various cell lines. III. Synthesis, structure and anticancer activity of zinc complexes of adenine derivatives In order to understand zinc interaction with adenine and their anticancer activity, several zinc complexes of adenine derivatives were prepared. The prepared complexes are (1) [Zn (N6-benzyladenineH).Cl3].2H2O, (2) [Zn2 (μ -N6-benzyladenine)2( μ-H2O)2(H2O)4].(OTf)4.H2O, (3) (N6-benzyl adenineH2) [ZnCl4].2H2O, (4) [Zn (2-Amino-N6-Benzylpurine)Cl3).2-Amino-N6-BenzylpurineH).EtOH, (5) (2-Amino-N6-(3-picoyl)purineH2)[ZnCl4].H2O, (6)(2-Amino-N6-(3-picoyl)purineH2)[ZnCl4].HCl, (7) (2-Chloro-N6-(3-picoyl) purineH2) [ZnCl4].H2O, (8) ((α-Purine-6-ylamino)-p-toluene sulfonamide H)2[ZnCl4].2HCl.2H2O. Complex 1: The N6-benzyl adenine is coordinated to zinc through nitrogen atom N(7) of purine. One molecule of N6-benzyl adenine and three chloride ions are coordinated to zinc and forming distorted tetrahedral geometry. Interestingly, the nitrogen atom N(1) of purine is protonated. Complex 1 exhibited strong H-bonding interactions between N-H···O, N-H···Cl and N-H···N. The complex 1 showed better cytotoxicity than N6-benzyl adenine and ZnCl2. Complex 2: The N6-benzyl adenine formed a dimeric complex with zinc at neutral pH. Complex 2 crystallizes in the triclinic space group P-1with Z=1. Two Zn metal centres are bridged by two molecules of N6-benzyl adenine through nitrogen atoms N(3) and N(9) of purine forming a di-nuclear complex, further two zinc centres is bridged by two water molecules and other two water molecules on the other side completing the octahedral coordination for the Zn. Complex 2 is stabilized in crystalline state by H-bonding interactions. The H-bonding of complex 2 is observed between O-H···O and N-H···O. Complex 2 exhibited better cytotoxicity than N6-benzyl adenine and ZnCl2 on various cell lines. Complex 3: The N6-benzyladenine is not coordinated to the Zn metal at acidic pH and forms an ion-pair complex. Ion-pair complex 3 crystallizes in the monoclinic space group Cc with Z=4. The protonation is observed at N(1) and N(9) atoms of N6-benzyl adenine. The positive charges on N6-benzyl adenine is neutralized by the presence of two chloride ions in [ZnCl4]2-. Alternative arrangement of cation and anion arrangement is observed in complex 3. Water channel formation is observed between cation and anion arrangement. Moreover, complex 3 is stabilized by H-bonding and π-π stacking interactions. H-bonding is observed in complex 3 between N-H···Cl, O-H···Cl and N-H···O. The π-π stacking interactions in complex 3 are observed between benzyl six-membered aromatic ring and purine six-membered rings. Complex 3 exhibited better cytotoxicity than N6-benzyl adenine and ZnCl2 in various cell lines. Complex 4: Ligand 2-amino-N6-benzyl adenine resulted in a different structure from N6-benzyl adenine with zinc. One molecule of 2-amino-N6-benzyl purine is coordinated to zinc through nitrogen atom N(7) of purine. Surprisingly, one uncoordinated positively charged 2-amino-N6-benzyl purineH is present in the asymmetric unit, which is balancing the charge of zinc complex 4. Protonation is observed on N(3A) atom. Interestingly, tautomeric proton is located on coordinated purine of N(9) atom and uncoordinated purine of N(7A) atom. Geometry of ‘Zn coordination centre’ is distorted tetrahedral. Complex 4 is stabilized by H-bonding and π-π stacking interactions. The H-bonding interaction in complex 4 is observed between N-H···O and N-H···Cl. The π-π stacking interactions are observed between five-member aromatic rings and six-membered aromatic rings. Complex 4 exhibited better cytotoxicity than 2-amino-N6-benzyl purine and ZnCl2 in various cell lines. Complex 5: 2-Amino-N6-(3-picoyl) purine forms an ion-paired complex with zinc at acidic pH. The protonation in 2-Amino-N6-(3-picoyl) purine is observed at N(3) of the purine and picolyl N(14). The positive charge of 2-Amino-N6-(3-picoyl) purine is neutralized by the presence of two chloride ions in [ZnCl4]2-. Moreover, complex 5 exhibited both H-bonding interactions and π-π stacking interactions. The H-bonding interactions are observed between N-H···Cl, N-H···N, O-H···Cl, N-H···O and C-H···N. One uncoordinated water molecule is present in unit cell, which is involved in H-bonding with both ions. The π-π stacking interactions are observed between purine five-membered rings and purine six-membered ring. Complex 5 exhibited better cytotoxicity than cisplatin in HeLa and MDA-MD-231 cells. Complex 6: 2-Amino-N6-(3-picoyl) purine formed similar structure of complex 5 in strong acidic conditions. Complex 6 exhibited both H-bonding and π-π stacking interactions. The H-bonding in complex 6 is observed between N-H···Cl and N-H···N. In complex 6, the π-π stacking interactions are observed between pyridyl six-membered rings and purine six-membered rings. Purine-Purine stacking interactions are observed between purine six-membered ring and five-membered rings. Complex 6 exhibited better cytotoxicity than cisplatin in HeLa, MCF-7, MDA-MB-231 and HeLa-Dox cells. Interestingly, complex 6 arrested (G2/M phase) cell cycle in HeLa and MCF-7 at higher concentration and induced apoptosis. Complex 7: 2-chloro-N6-(3-picoyl) purine formed ion-pair complex with zinc. The protonation in 2-chloro-N6-(3-picoyl) purine is observed on N(9) of purine and N(14) of picolyl atoms. The positive charge of 2-chloro-N6-(3-picoyl) purine is neutralized by the presence of two chloride ions in [ZnCl4]2-. Complex 7 is stabilized by both H-bonding and π-π stacking interactions. The H-bonding is observed between N-H···Cl, O-H···Cl and N-H···O in complex 7. The π-π stacking interactions are observed between pyridyl six-membered ring and six-membered ring of purine. Complex 7 exhibited better cytotoxicity than cisplatin in HeLa, MCF-7, U251 and HeLa-Dox cells. Complex 8: (α-Purine-6-ylamino)-p-toluene sulphonamide formed ion-pair complex with zinc. Ion-pair complex 8, crystallizes in the triclinic space group P-1 with Z=4. The protonation on (α-Purine-6-ylamino)-p-toluene sulfonamide is observed at N(9) and N(1) atoms of purine. The positive charge of the ligand is neutralized by two chloride ions present in [ZnCl4]2 -. The H-bonding is observed between N-H···Cl, O-H···N, N-H···O and O-H···Cl. The π-π stacking interactions are observed between benzyl rings of benzene sulfonamide moieties. Complex 8 exhibited better cytotoxicity than cisplatin in HeLa, MCF-7 and HeLa-Dox cells. Moreover, these complexes induced apoptotic cell death as revealed by Annexin V/PI assay, FACS and microscopy analysis. IV. Synthesis, structure and cytotoxicity studies of zinc complexes of uracil-1-acetic acid and N6-adeninebutyric acid To understand the zinc interactions with nucleic acid constituent derivatives and their anticancer activity, zinc complexes of uracil-1-acetic acid and N6-adeninebutyric acids were prepared. (1) [Zn (uracil-1-acetato)2 (H2O)4] and complex (2) [Zn (N6-adeninebutyric acid)2 (H2O)2]) were characterized by X-ray crystallography and various spectroscopic techniques. The X-ray structures showed acetate moiety coordination to zinc rather than purine and pyrinidine moities. The geometry of zinc coordination centre is distorted octahedral. Complexes 1 and 2 are stabilized by non-covalent interactions. Anticancer studies of these complexes showed better cytotoxicity than cisplatin in MDA-MB-231cells. V. Copper (II) complexes of 6-mercaptopurine, hypoxanthine and uracil-1-acetic acid: Synthesis, structures, antioxidant and potent anticancer activity To delineate copper interactions with purine and pyrimidine derivatives and anticancer activity, several copper complexes of 6-mercaptopurine, hypoxanthine and uracil-1-acetic acid were prepared. The prepared complexes are (1) [Cu (6-MP) (bpy) Cl2], (2) [Cu (hx) (phen) Cl2].H2O and (3) [Cu (bpy)2 (uracil-1-acetato)].6H2O)] (bpy = 2, 2′-bipyridine, phen = 1, 10-phenanthroline, 6-MP = 6-Mercapto Purine and hx = hypoxanthine). All these complexes were chracterized by various spectroscopic and X-ray diffraction techniques. Complexes 1 and 2 crystallize in the monoclinic space groups Cc and C2/c, respectively with eight molecules in the unit cell. All the complexes 1-3 adopt distorted trigonal bipyramidal geometry. Surprisingly, most potent coordination sites of sulfur in 6-MP and acetato in uracil-1-acetato did not participate in coordination with copper. In complexes 1 and 2, the N(7) position of purine and the N(3) position of pyrimidine in complex 3 are coordinated with copper. All these complexes 1-3 are stabilized by non-covalent interactions in solidstate. Anticancer studies showed better cytotoxicity for copper complexes than cisplatin, 6-meracptopurine and temozolomide in various cell lines. Interestingly, copper complexes of 6-MP and hypoxanthine showed antioxidant activity and reduced ROS level in cells. In contrast, copper complex of uracil-1-acetic acid produced ROS in cells. In contrast, copper hypoxanthine showed better cytotoxicity than cisplatin in HeLa-Dox cells. All these complexes induced apoptotic cell death. In summary, we studied the interaction of metal-nucleic acid constituents and derivatives by X-ray crystallography. We found new coordination modes for Ni, Cu and Zn towards various nucleic acid constituents and derivatives. Some of these complexes showed better cytotoxicity than well known anticncer drugs cisplatin, 6-meracptopurine and temozolomide. Complex [Cu (hx) (phen) Cl2].H2O showed better cytotoxicity than cisplatin in doxorubicin resistant (HeLa-Dox) cells. These complexes induced apoptotic cell death in various cancer cells. All in all, the results of present studies/findings could form a potential lead for the development of newer anticancer therapeutics.

Metal Nucleic Acid Interaction

Metal Complexes of Nucleic Acid

Zn/Ni Complexes

Copper-adeninyl Complexes

Zinc Complexes

Copper (II) Complexes

Anticancer Drug Development

Inorganic and Physical Chemistry

Studium růstu ZnO krystalů ze supersaturovaného alkalického elektrolytu / The Study of ZnO Crystal Growth in Supersaturated Alkaline Solution

Bannert, Tomáš

January 2017

This thesis deals with the study of growth of zinc oxide crystals from supersaturated solutions using a scanning electron microscope and XRD methods. The work is divided into a theoretical and an experimental part. The theoretical part analyses issues related to the principle of operation of electrochemical cells with an emphasis on Ni-Zn batteries and phenomena limiting the life and efficiency of Ni-Zn batteries with a focus on phenomena that affect precipitation processes of zinc oxide crystals. It also analyses and compares the appropriateness of the methods that have been used to study the growth of the prepared zinc oxide crystals. The experimental part describes the preparation of a supersaturated solution, the process of each analysis and its evaluation. The results of each method are compared with the theoretical assumptions and among themselves. The experimental part also contains a chapter dealing with the design of in situ X-ray diffraction analysis methods of the obtained zinc oxide crystals.

Determination of the levels of heavy metals in water, pastures and meat tissues of Pedi goats across two rivers in Limpopo Province, South Africa

Manamela, Makwena Precious

January 2021

Thesis (M. Sc. Agriculture (Animal Production)) -- University of Limpopo, 2021 / The study was carried out to determine the concentration levels of mercury (Hg), lead (Pb), cadmium (Cd), chromium (Cr), nickel (Ni) and zinc (Zn) in water, soil, witbuffels grass and meat of goats reared along the river banks of Middle Olifants (Mogalatsana village) and Mogalakwena (Papegaai village) rivers. The samples were collected from the river water, soils along the river banks, grass grown along the river banks and male Pedi goats reared in Mogalatsana and Papegaai villages. The samples were analysed for the selected heavy metals with an inductively coupled plasma mass spectroscopy (ICP-MS). Data was analysed as in a complete randomised design. The results of selected heavy metals in water of both rivers ranged from 0.00 mg/litre of water (Ni and Cr) to 0.04 mg/litre of water (Hg). The concentration levels of selected heavy metals in water were similar (P>0.05) for Middle Olifants and Mogalakwena rivers. The concentration levels of selected heavy metals in the soils along the banks of Middle Olifants and Mogalakwena rivers ranged from 0.00 mg/kg DM soil (Hg and Cd) to 63.70 mg/kg DM soil (Cr). There were similar (P>0.05) concentration levels of selected heavy metals in the soils along the banks of Middle Olifants and Mogalakwena rivers. Heavy metal concentration levels in the witbuffels grass grown along the banks of Middle Olifants and Mogalakwena rivers ranged from 0.00 mg/kg DM of grass (Hg and Cd) to 5.05 mg/kg DM of grass (Zn). Similar (P>0.05) concentrations of selected heavy metals were observed in witbuffels grass grown along the banks of Middle Olifants and Mogalakwena rivers. However, the concentration levels of Zn, Pb and Cd in water from both sites were above internationally maximum permissible levels, indicating that the water from these rivers was not safe for drinking by humans and animals. The concentration levels of Ni and Pb in soils from both sites were above internationally recommended maximum permissible limits. Similarly, chromium concentration levels in witbuffels grass from both sites were above the recommended maximum permissible limits for livestock, indicating that the grass was not safe for consumption by livestock. It is recommended that further studies be conducted to ascertain these findings. Blood, liver, kidney and meat samples of yearling male Pedi goats grazing along the banks of Middle Olifants river (Mogalatsana village) had similar (P>0.05) Cr, Cd, Hg, Ni and Pb concentration levels, respectively. However, goat liver samples had higher (P<0.05) Zn concentrations than meat, kidney and blood samples. Samples of goat v meat contained higher (P<0.05) Zn concentrations than those of kidneys and blood. Similarly, goat kidney samples contained more (P<0.05) Zn than blood samples. Blood, liver, kidney and meat samples of Pedi goats grazing along the banks of Mogalakwena river (Papegaai village) contained similar (P>0.05) concentration levels of Cr, Cd, Hg, Ni and Pb, respectively. However, goat meat samples contained higher (P<0.05) Zn concentrations than liver, kidney and blood samples. Samples of goat liver contained higher (P<0.05) Zn concentration levels than kidney and blood samples. Similarly, goat kidney samples contained more (P<0.05) Zn than blood samples. Meat, blood, liver and kidney samples of male Pedi goats raised in Mogalatsana and Papegaai villages had similar (P>0.05) chromium, cadmium, mercury, nickel and lead concentrations, respectively. However, liver and kidney samples of goats from Mogalatsana village had higher (P<0.05) zinc levels than those from Papegaai village. Blood and meat samples of goats from Papegaai village had higher (P<0.05) zinc levels than those from Mogalatsana village. The concentration levels of Zn, Ni, Pb, Cr and Cd in the blood, liver, kidney and meat samples of male Pedi goats reared along the banks of Middle Olifants and Mogalakwena rivers were within the maximum permissible levels for human consumption. Mercury concentration levels in liver, kidney and meat samples of the goats were within the maximum permissible levels for human consumption. However, mercury concentration levels in the blood of goats grazing along the banks of Middle Olifants and Mogalakwena rivers were above the maximum permissible limit of 0.2 mg/litre of blood. It was concluded that meat, livers and kidneys of the goats were fit for human consumption. However, blood from these goats was not fit for human consumption.

Cadmium

Chromium (Cr)

Nickel (Ni)

Zinc (zn)

Mogalakwena

Lead (Pb)

Mercury (Hg)

Heavy metals -- Environmental aspects

Chromium

Cadmium -- Environmental aspects

Lead compounds

Mercury

Zinc compounds

Nickel compounds

Interdiffusion And Impurity Diffusion In Magnesium Solid Solutions

Kammerer, Catherine

01 January 2013

Magnesium, being lightweight, offers potential to be developed into extensive structural applications. The transportation segment has particular interest in Mg and Mg alloy for applications where reduced vehicle weight is proportional to increased fuel efficiency. Aluminum and zinc are two of the most common alloying elements in commercial Mg alloys. They improve the physical properties of Mg through solid solution strengthening and precipitation hardening. Diffusion plays a key role in the kinetics of and microstructural development during solidification and heat treatment. However, there is limited diffusion data available for Mg and Mg alloys. In particular, because Al is monoisotopic, tracer diffusion data is not available. Interdiffusion of Mg solid solution with Zn also does not exist in literature. The diffusional interaction of Al and Zn in Mg solid solution at temperatures ranging from 623 – 723K was examined using solid-to-solid diffusion couple method. The objective of this thesis is two-fold: first, is the examination of interdiffusion in the Mg solid solution phase of the binary Mg-Al and Mg-Zn systems; second, is to explore non-conventional analytical methods to determine impurity diffusion coefficients. The quality of diffusion bonding was examined by optical microscopy and scanning electron microscopy with X-ray energy dispersive spectroscopy, and concentration profiles were determined using electron probe microanalysis with pure standards and ZAF matrix correction. Analytical methods of concentration profiles based on Boltzmann-Matano analysis for binary alloys are presented along with compositional dependent interdiffusion coefficients. As the iv concentration of Al or Zn approaches the dilute ends, an analytical approach based on the Hall method was employed to estimate the impurity diffusion coefficients. Zinc was observed to diffuse faster than Al, and in fact, the impurity diffusion coefficient of Al was smaller than the self-diffusion coefficient of Mg. In the Mg solid solution with Al, interdiffusion coefficients increased by an order of magnitude with an increase in Al concentration. Activation energy and pre-exponential factor for the average effective interdiffusion coefficient in Mg solid solution with Al was determined to be 186.8 KJ/mole and 7.69 x 10-1 m2/sec. On the other hand, in the Mg solid solution with Zn, interdiffusion coefficients did not vary significantly as a function of Zn concentration. Activation energy and pre-exponential factor for the average effective interdiffusion coefficient in Mg solid solution with Zn was determined to be 129.5 KJ/mole and 2.67 x 10-4 m2/sec. Impurity diffusion coefficients of Al in Mg was determined to have activation energy and pre-exponential factor of 144.1 KJ/mole and 1.61 x 10-4 m2/sec. Impurity diffusion coefficients of Zn in Mg was determined to have activation energy and preexponential factor of 109.8 KJ/mole and 1.03 x 10-5 m2/sec. Temperature and compositiondependence of interdiffusion coefficients and impurity diffusion coefficients are examined with respect to reported values in literature, thermodynamic factor, Φ, diffusion mechanisms in hexagonal close packed structure, and experimental uncertainty

Diffusion

interdiffusion

impurity diffusion

boltzmann matano

hall analysis

diffusion couple

thermodynamic factor

diffusion coefficient

binary

magnesium

zinc

aluminum

al

mg

zn

Engineering

Materials Science and Engineering

MULTIFUNCTIONAL METAL-FREE CARBON NANOMATERIALS FOR CLEAN ENERGY CONVERSION AND STORAGE APPLICATIONS

Chen, Xiaoyi

25 January 2022

No description available.

Chemistry

Energy

Nanotechnology

Carbon metal-free catalyst

solar cell

water splitting

fuel cell

Zn-air battery

supercapacitor

zero emission energy system

Terpyridine-Based Metallo-Supramolecular Architectures: From Structure to Function

Elbatal, Hany

January 2013

No description available.

Chemistry

Energy

Inorganic Chemistry

Materials Science

Nanotechnology

Organic Chemistry

Polymer Chemistry

Shape Memory Behavior of Ionomers and Their Compounds

Dolog, Rostyslav

January 2013

No description available.

Polymers

Plastics

Engineering

Chemical Engineering

ionomer

shape memory

shape memory polymer

fatty acids

Zn-SEPDM

tunable shape memory effect

multiple shapes

mechanical properties

Atmospheric Corrosion of Zn by NaCl, SO2, NH3, O3, and UV Light

Onye, Jermain Eze

January 2014

No description available.

Materials Science

Chemistry

Atmosphere