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81	An interplay between the spin density distribution and magnetic superexchange interactions: a case study of mononuclear [nBu4N]2[Cu(opooMe)] and novel asymmetric trinuclear [Cu3(opooMe)(pmdta)2](NO3)2·3MeCN Abdulmalic, Mohammad A., Aliabadi, Azar, Petr, Andreas, Krupskaya, Yulia, Kataev, Vladislav, Büchner, Bernd, Hahn, Torsten, Kortus, Jens, Rüffer, Tobias January 2012 (has links) Treatment of the diethyl ester of o-phenylenebis(oxamic acid) (opbaH2Et2, 1) with 5/6 equivalent of MeNH2 in abs. EtOH results in the exclusive formation of the ethyl ester of o-phenylene(N′-methyl oxamide)(oxamic acid) (opooH3EtMe, 2) in ca. 50% yield. Treatment of 2 with four equivalents of [Me4N]OH followed by the addition of Cu(ClO4)2·6H2O gave [Me4N]2[Cu(opooMe)]·H2O (3A) in ca. 80% yield. As 3A appears to be a hygroscopic solid, the related [nBu4N]+ salts [nBu4N]2[M(opooMe)]·H2O (M = Cu (3B), Ni (4)) have been synthesized. By addition of two equivalents of [Cu(pmdta)(NO3)2] to a MeCN solution of 3B the novel asymmetric trinuclear complex [Cu3(opooMe)(pmdta)2](NO3)2 (5) could be obtained in ca. 90% yield. Compounds 2, 3A, 3B, 4 and 5 have been characterized by elemental analysis and NMR/IR spectroscopy. Furthermore, the solid state structures of 3A in the form of [Me4N]2[Cu(opooMe)]·MeOH (3A′), 3B in the form of [nBu4N]2[Cu(opooMe)] (3B′), 4 in the form of [nBu4N]2[Ni(opooMe)]·1.25H2O (4′) and 5 in the form of [Cu3(opooMe)(pmdta)2] (NO3)2·3MeCN (5′), respectively, have been determined by single-crystal X-ray diffraction studies. By controlled cocrystallization, diamagnetically diluted 3B (1%) in the host lattice of 4 (99%) in the form of single crystals have been made available, allowing single crystal EPR studies to extract all components of the g-factor and the tensors of onsite CuA and transferred NA hyperfine interaction. Out of these studies the spin density distribution of the [Cu(opooMe)]2− complex fragment could be determined. The magnetic properties of 5 were studied by susceptibility measurements versus temperature. An intramolecular J parameter of −65 cm−1 has been obtained, unexpectedly, as 5 should possess two different J values due to its two different spacers between the adjacent CuII ions, namely an oxamate (C2NO3) and an oxamidate (C2N2O2) fragment. This unexpected result is explained by a summarizing discussion of the experimentally obtained EPR results (spin density distribution) of 3B, the geometries of the terminal [Cu(pmdta)]2+ fragments of 5 determined by X-ray crystallographic studies and accompanying quantum chemical calculations of the spin density distribution of the mononuclear [Cu(opooMe)]2− and of the magnetic exchange interactions of trinuclear [Cu3(opooMe)(pmdta)2]2+ complex fragments. / Dieser Beitrag ist mit Zustimmung des Rechteinhabers aufgrund einer (DFG-geförderten) Allianz- bzw. Nationallizenz frei zugänglich. info:eu-repo/classification/ddc/540 ddc:540
82	ULTRAFAST PHOTOCHEMISTRY OF POLYATOMIC MOLECULES CONTAINING LABILE HALOGEN ATOMS IN SOLUTION Mereshchenko, Andrey S. 31 July 2013 (has links) No description available. Physical Chemistry Physics Chemistry Pump-probe bromoform dibromomethane boron bromide phosphorous(III) bromide copper(II) chlorocomplexes chloride CH2Br2 CHBr3 PBr3 BBr3 CuCl+ CuCl4 ultrafast dynamics femtosecond time-resolved strong coupling limit
83	[en] BINUCLEATING AROYLHYDRAZONIC LIGANDS AND THEIR DICOPPER II COMPLEXES AS NEW CLASSES OF POTENTIAL ANTICANCER AGENTS: SYNTHESES, CHEMICAL CHARACTERIZATION AND BIOLOGICAL ACTIVITY / [pt] LIGANTES BINUCLEANTES AROÍL-HIDRAZÔNICOS E SEUS COMPLEXOS BINUCLEARES DE COBRE II COMO NOVAS CLASSES DE POTENCIAIS AGENTES ANTICÂNCER: SÍNTESES, CARACTERIZAÇÃO QUÍMICA E ATIVIDADE BIOLÓGICA JESICA PAOLA RADA ARIAS 09 February 2021 (has links) [pt] Na busca de novos quimioterápicos diferentes dos clássicos derivados de cisplatina, ligantes derivados aroíl-hidrazônicos e complexos de cobre(II) aparecem como compostos promissores. Esta tese relata o desenvolvimento e a síntese de uma nova combinação desses compostos a partir de oito ligantes bases de Schift aroíl-hidrazônicos inéditos e seus Cu2-complexos derivados de sais de perclorato ou acetato 1‒14. Os complexos de cobre(II) obtidos contêm em suas estruturas modelos estruturais de sítios ativos de algumas metaloenzimas. Os compostos foram amplamente caracterizados utilizando várias técnicas espectroscópicas e analíticas. As análises por difração de raios X de quatro ligantes e cinco complexos são descritas em detalhes nessa tese. A estabilidade dos compostos foi estudada em meio celular e sua atividade biológica foi analisada. Os resultados incluem um estudo da interação de dois ligantes derivados de tiofeno (H3L1) ou furano (H3L2) e seus respectivos complexos 1 e 2 (primeiro conjunto de compostos) com uma proteína e DNA do timo de vitelo (calf thymus DNA), com o objetivo de medir a afinidade de ligação à albumina sérica bovina e ao DNA usando as técnicas de absorção de UV/Visível e/ou fluorescência. Adicionalmente, foi visto através de técnicas de espalhamento de luz que a interação entre os compostos e a proteína é reversível. Uma importante contribuição do presente trabalho foi analisar a capacidade de clivagem do DNA plasmidial de dois complexos 1 e 2 usando a técnica de espalhamento de luz dinâmico. Neste trabalho são estudadas as alterações do raio hidrodinâmico do DNA plasmidial causada pelo corte nas hélices resultante da presença dos complexos. Ensaios de citotoxicidades em algumas células cancerígenas, revelaram a alta capacidade dos ligantes (H3L1 and H3L2) e dos complexos (1 e 2) de induzir a morte celular. Ademais, as muitas propriedades biológicas, incluindo a atividade anticancerígena do fragmento isoxazol, motivaram sua inclusão na estrutura dos ligantes H3L3 and H2L4 e complexos 3‒6 (segundo conjunto de compostos). A combinação dessas estruturas pode vir a ser promissora na procura de novos medicamentos contra o câncer. A interação dos derivados dos ligantes isoxazol-aroíl-hidrazônicos com o DNA foi diretamente estudada por espectroscopia na absorbância e fluorescência, usando as propriedades luminescentes apresentadas pelos ligantes. No caso dos complexos, o ensaio de deslocamento de brometo de etídio revelou uma afinidade importante através da intercalação nos ácidos nucleicos da sequência do DNA. Adicionalmente, este trabalho conseguiu demostrar que ligantes e complexos contendo um braço fenólico no lugar de um braço piridínico melhoram a citotoxicidade in vitro em células de câncer de mama epitelial humano, alcançando a faixa nanomolar. A capacidade de metalação e transmetalação dos ligantes binucleares H3L3 e H2L4 e seus complexos de cobre 3‒6 com Fe(II), Fe(III) e Zn(II) provenientes do meio biológico foi verificada como uma estratégia adicional para induzir a morte de células cancerígenas. Além disso, para estudar a interação dos compostos com o sistema biológico e/ou para demostrar a permeabilidade celular dos compostos, os ligantes (H3L5‒H3L7) e complexos (7‒12) foram funcionalizados com fluoróforos potentes como pireno (H3L5) (conjunto três de compostos), benzopiranotiofeno (H3L6) ou borodipirrometeno (H3L7) (conjunto quatro de compostos) associados aos fragmentos hidrazônicos. Estudos de microscopia de fluorescência do ligando H3L7 comprovaram sua presença dentro de células de câncer. Também, análises de co-localização para organelas mostraram a afinidade dos ligantes com a mitocôndria. Finalmente, motivada pelas propriedades biológicas da molécula isoniaziada e seu uso em tratamentos de quimioterapia, esta tese mostra de forma general a síntese, caracterização e citotoxicidade de um novo ligante isoniazídico (H2L8) e seus complexos de perclorato ou acetato de cobre(II) 13 e 14 (conjunto cinco de compostos) visando realizar um pedido de patente. / [en] On the search of new chemotherapeutic agents differing from the classic cisplatin family drugs, aroylhydrazonic derivatives and their copper(II) complexes appear as promising compounds. This thesis reports on the design and syntheses of a novel combination of them through eight new aroylhydrazones and their fourteen perchlorate and/or acetate Cu2-complexes 1‒14. The obtained bioinspired copper(II) complexes constitute structural models for the active sites of some type 3 copper enzymes. The compounds were fully characterized using various spectroscopic and analytical techniques. X-ray diffraction structures for four ligands and five complexes are described in detail. Compounds stability was studied in cellular medium and their biological activity was examined. The results include a large study on the interaction of two thiophene (H3L1) or furan (H3L2) ligand derivatives and their respective μ-hydroxo dicopper complexes 1 and 2 (first set of compounds) respectively, with bovine serum albumin protein and calf thymus DNA using different spectroscopic techniques, which include the binding affinity to BSA and DNA using UV/Visible and/or fluorescence techniques. Additionally, scattering techniques revealed that the interaction between the compounds and BSA induces reversible aggregation of the biomolecules. As an important contribution of the present work, the plasmid DNA cleavage ability of the complexes 1 and 2 was studied by Dynamic Light Scattering. The changes of hydrodynamic radius values of pBR322 plasmid DNA are correlated to the nick induced by the complexes in the helices. Cytotoxic assays on some cancer cells revealed the high ability of H3L1 and H3L2, and complexes 1 and 2 to induce cell death. On the other hand, the many biological properties, including anticancer activity, of the isoxazole molecule, motivated the inclusion of this moiety in two ligands H3L3 and H2L4 and four complexes 3‒6 (second set of compounds). Interaction of these isoxazole-aroylhydrazonic ligand derivatives with DNA was directly studied by absorbance and fluorescence spectroscopy, as a result of the fluorescence properties displayed by the ligands. In the case of the isoxazole-aroylhydrazonic complexes-DNA interaction, the ethidium bromide displacement assay revealed significant affinity by intercalation binding mode of the nucleic acid in the DNA sequence. Additionally, this work successfully demonstrated that ligands and complexes containing a phenol pendant arm instead of a pyridine one improve the in vitro cytotoxicity on human epithelial breast cancer cells, attaining nanomolar range. Metal chelation and transmetallation ability of binucleating ligands H3L3 and H2L4 and their copper complexes 3‒6 with Fe(II), Fe(III) and Zn(II) from the biological medium was verified as an additional cell death induction anticancer strategy. Moreover, to study the interaction of the compounds with the biological system and to demonstrate their cell permeability, ligands (H3L5‒H3L7) and complexes (7‒12) were functionalized in their hydrazone moieties with potent fluorophores, such pyrene (H3L5) (set three of compounds), benzopyranothiophene (H3L6), or boron-dipyrromethene (H3L7) derivatives (set four of compounds). Fluorescence microscopy studies proved the presence of ligand H3L7 inside cancer cells, proving its ability to pass through the cell membrane. Besides, co-localization analysis for organelles showed the affinity of this ligand for the mitochondria. Finally, motived by the wide spectrum of biological properties of the isoniazid molecule and its use in chemotherapy, this thesis reports the syntheses, characterization and cytotoxicity studies on cancer cells of a new isonicotinoyl hydrazone ligand (H2L8) and its perchlorate or acetate copper(II) complexes 13 and 14 (set five of compounds), which are involved in a patent request. [pt] DNA [pt] IMAGEM CELULAR [pt] PROTEINAS DE ALBUMINA [pt] AGENTES ANTICANCERIGENOS [pt] CITOTOXICIDADE [pt] COMPLEXOS DE COBRE II [en] DNA [en] CELL IMAGING [en] ALBUMIN PROTEIN [en] ANTICANCER AGENTS [en] CYTOTOXICITY [en] COPPER II COMPLEXES [en] AROYLHYDRAZONIC LIGANDS
84	Studies of p-type semiconductor photoelectrodes for tandem solar cells Smith, Thomas January 2014 (has links) Photoelectrodes and photovoltaic devices have been prepared via multiple thin film deposition methods. Aerosol assisted chemical vapour deposition (AACVD), electrodeposition (ED), chemical bath deposition (CBD) and doctor blade technique (DB) have been used to deposit binary and ternary metal oxide films on FTO glass substrates. The prepared thin films were characterised by a combination of SEM (Scanning Electron Microscopy), powder X-ray diffraction, mechanical strength tests and photochemical measurements. Nickel oxide (NiO) thin films prepared by AACVD were determined to have good mechanical strength . with a photocurrent of 7.6 μA cm-2 at 0 V and an onset potential of about 0.10 V. This contrasted with the dark current density of 0.3 μA cm-2 at 0 V. These NiO samples have very high porosity with crystalline columns evidenced by SEM. In comparison with the AACVD methodology, NiO films prepared using a combination of ED and DB show good mechanical strength but a higher photocurrent of 24 μA cm-2 at 0 V and an onset potential of about 0.10 V with a significantly greater dark current density of 7 μA cm-2 at 0 V. The characteristic features shown in the SEM are smaller pores compared to the AACVD method. Copper (II) oxide (CuO) and copper (I) oxide (Cu2O) films were fabricated by AACVD by varying the annealing temperature between 100-325°C in air using a fixed annealing time of 30 min. It was shown by photocurrent density (J-V) measurements that CuO produced at 325 °C was most stable and provided the highest photocurrent of 173 μA cm-2 at 0 V with an onset potential of about 0.23 V. The alignment of zinc oxide (ZnO) nano-rods and nano-tubes fabricated by CBD have been shown to be strongly affected by the seed layer on the FTO substrate. SEM images showed that AACVD provided the best seed layer for aligning the growth of the nano-rods perpendicular to the surface. Nano-rods were successfully altered into nano-tubes using a potassium chloride bath etching method. NiO prepared by both AACVD and the combined ED/DB method were sensitized to absorb more of the solar spectrum using AACVD to deposit CuO over the NiO. A large increase in the photocurrent was observed for the p-type photoelectrode. These p-type photoelectrode showed a photocurrent density of approximately 100 μA cm-2 at 0 V and an onset potential of 0.3 V. This photocathode was then used as a base to produce a solid state p-type solar cell. For the construction of the solid state solar cells several n-type semiconductors were used, these were ZnO, WO3 and BiVO4. WO3 and BiVO4 were successfully produced with BiVO4 proving to be the optimum choice. This cell was then studied more in depth and optimised by controlling the thickness of each layer and annealing temperatures. The best solid state solar cell produced had a Jsc of 0.541 μA cm-2 (541 nA) and a Voc of 0.14 V, TX146 made up of NiO 20 min, CuFe2O4 50 min, CuO 10 min, BiVO4 27 min, using AACVD and then annealed for 30 min at 600°C. 543
85	Kompleksi nekih prelaznih metala sa Šifovim bazama aminogvanidina / Some transition metal complexes with Schiff bases of aminoguanidine Radanović Mirjana 29 October 2015 (has links) <p>   U ovoj doktorskoj disertaciji opisane su sinteze novih kompleksa prelaznih metala sa piridoksiliden-  (PLAG), odnosno saliciliden-aminogvanidinom (SALAG). Dobijeni<br />kompleksi su okarakterisani elementalnom analizom, IR spektrima, konduktometrijskim i magnetnim merenjima, a većina i rendgenskom<br />strukturnom analizom. Osim toga, dobijene su i nove forme ovih &Scaron;ifovih baza, i to u vidu monokristala, čime su omogućena ispitivanja njihovih  molekulskih i kristalnih struktura, kao i uporedna analiza sa koordinovanim ligandima.<br />    Sa PLAG je sintetisano 7 novi  kompleksa Cu(II), a pored toga po prvi put su<br />izolovani mono i bis(ligand) kompleksi Fe(III) i Co(III), mono(ligand) kompleksi  V(V), kao  i jedan kompleks Zn(II) u kojem ovaj potencijalno tridentatni <em> ONN </em> ligand,  u<br />monoprotonovanoj formi,  ima ulogu kontra-jona. Sa stanovi&scaron;ta geometrije zajedničko za izolovane komplekse Cu(II) i V(V) je da imaju kvadratno-piramidalnu strukturu, sa izuzetkom jednog kvadratno-planarnog kompleksa Cu(II), dok je u kompleksima Fe(III) i Co(III) nađeno očekivano oktaedarsko okruženje centralnog<br />jona. Pored ovih, sintetisano je i pet novih kompleksa sa SALAG, od kojih su dva<br />kompleksa Cu(II) i kompleks V(V) okarakterisani rendgenskom strukturnom<br />analizom, dok je mikrokristalnim bis(ligand) kompleksima Co(III) i Ni(III) na osnovu<br />fizičko-hemijskih karakteristika predložena odgovarajuća struktura.<br />   Zajedničko za obe opisane &Scaron;ifove baze je da se koordinuju na <em> ONN  </em>tridentatni način, i to preko atoma kiseonika deprotonovane fenolne grupe i atoma azota azometinske i imino grupe AG fragmeta. Posebno je nagla&scaron;eno da su  sa<br />PLAG izolovana dva dimerna kompleksa Cu(II) u kojima je po prvi put nađena tetradentatna koordinacija ovog  liganda, u koju je dodatno uključen atom kiseonika hidroksimetil-grupe PL-ostatka. Za razliku od SALAG, koji je u izolovanim kompleksima koordinovan isključivo kao monoanjon, nastao deprotonacijom fenolne<br />OH-grupe, za PLAG je osim ove, potvđena koordinacija u neutralnoj, zwitter-jonskoj, ali i dvostruko deprotonovanoj formi. Zwitter-jonska forma liganda nastaje migracijom atoma vodonika sa fenolnog hidroksila na piridinski atom azota PL-ostatka, dok deprotonacijom piridinskog ili hidrazinskog atoma azota, odnosno oba pomenuta atoma nastaju monoanjon i dianjon helatnog liganda, respektivno.<br />   Na kraju, urađena su  i ispitivanja antimikrobne aktivnosti odabranih jedinjenja<br />prema predstavnicima grampozitivnih i gramnegativnih bakterija, kao i dve kulture<br />kvasca. Tom prilikom nije utvrđena nikakva inhibitorna aktivnost   prema primenjenim<br />bakterijskim sojevima, dok su u slučaju kvasaca izvesno mikrobicidno dejstvo pokazali samo kompleksi Cu(II).</p> / <p>This PhD thesis describes the syntheses of some new transition metal complexes with  pyridoxilidene-  (PLAG) and salicylideneaminoguanidine (SALAG). Obtained  complexes are characterized by   elemental analysis, IR  spectroscopy,  conductometric and magnetic measurements. Besides, the structural analysis of majority of the obtained complexes was performed. Some new forms of these Schiff  bases are synthesized in form of single crystals, which made their X-ray analysis as well as comparison with coordinated forms possible.</p><p>With PLAG, 7 new Cu(II) complexes were obtained and for the first time mono and bis(ligand) complexes of Fe(III) and Co(III) as well  mono(ligand)  complexes  of V(V) were isolated. Furthermore,  the structure of Zn(II) complex in which PLAG in its monocationic form has a role of counter ion is presented. With the exception of one Cu(II) complex, all reported Cu(II) and V(V) complexes have a square-pyramidal geometry, whilst  Fe(III)  and Co(III)  are situated in octahedral surroundings. Also, five new complexes of Cu(II), Co(III), Ni(II) and V(V) with SALAG were synthesized. In both  Cu(II) complexes and V(V) complex the expected coordination mode and geometry were confirmed by X-ray analysis, while octahedral structure of bis(ligand) complexes with Co(III) and Ni(II) was proposed based on results of physico-chemical  characterization.</p><p>Both PLAG and SALAG coordinate the metal ion in tridentate  ONN  manner, through the oxygen atom of deprotonated phenolic group and nitrogen atoms  of azomethine and imino groups of AG moiety. It is also emphasized that in two dimeric Cu(II) complexes with PLAG tetradentate coordination mode was found, in which the oxygen atom of hydroxymethyl group of PL residue was additionally involved. Unlike SALAG, which is coordinated as monoanion in all of the examined complexes, PLAG can have one of three degrees of deprotonation. Zwitter-ion of PLAG is formed by migration of H-atom from phenolic oxygen to pyridine nitrogen, while the deprotonation of pyridine or/and hydrazine nitrogen, makes it mono-and dianion, respectively.</p><p>Also, microbiological tests on the selected compounds were preformed. Namely, antimicrobial activity of these compounds against some gram-positive and gram-negative bacteria, as well as some yeast cultures was examined and none of the samples showed antimicrobial activity against bacteria, whilst only Cu(II) complexes showed certain inhibitory effect against yeasts.</p>
86	Pyrazolat-liganden mit zwei facial tridentaten Koordinationstaschen - Metallkomplexe und erste Reaktivitätsuntersuchungen / Pyrazole based ligands with two facial tridentate coordination pockets - metal complexes and first investigations of reactivity Müller, Holger 01 November 2007 (has links) No description available. 540 Chemie Mathematics and Computer Science Pyrazolat Liganden facial tridentat Kupfer(II)-Komplexe Kupfer(I)-Komplexe Nickelkomplexe Magnetische Eigenschaften ferromagetisch antiferromagnetisch Speziesverteilung pyrazolate facial tridentate copper(II) complex copper(I) complex nickel complex magnetic properties ferromagnetic antiferromagnetic species distribution 35.20 35.45 35.49 35.79 STJ 550: Kupfer {Anorganische Chemie} SOC 250: Metallkomplexe Chelate {Chemie: Verbindungstypen} SHS 000: Magnetochemie STR 300: Nickel {Anorganische Chemie}
87	Μελέτη αποδέσμευσης ιόντων δισθενούς χαλκού από συμπολυμερή τύπου κτένας Ιατρίδη, Ζαχαρούλα 22 December 2009 (has links) Διερευνήθηκε η δέσμευση/αποδέσμευση ιόντων Cu(II) ή/και αντίθετα φορτισμένων επιφανειοδραστικών ενώσεων από συμπολυμερή τύπου κτένας. Ο κεντρικός σκελετός ήταν το πολυ(ακρυλικό νάτριο), PANa, ενώ οι πλευρικές αλυσίδες ήταν το Πολυ(Ν,Ν-διμεθυλακρυλαμίδιο) και το πολυ(Ν-Ισοπροπυλακρυλαμίδιο). Η συμπλοκοποίηση των συμπολυμερών με τα ιόντα Cu(II)σε υδατικό περιβάλλον διερευνήθηκε με θολομετρία, ιξωδομετρία, φασματοφωτομετρία UV-Vis, δυναμική σκέδαση φωτός, ιχνηθέτηση με φθορίζοντες ιχνηθέτες και προσδιορισμό του ζ-δυναμικού. Σε επόμενο στάδιο διερευνήθηκε η δυνατότητα σχηματισμού τριμερών συμπλόκων ΡAΝa/Cu(II)/επιφανειοδραστικής ένωσης σε υδατικό περιβάλλον. Από τη φυσικοχημική μελέτη των συστημάτων σε συνάρτηση του pΗ, ελήφθησαν σημαντικές πληροφορίες σχετικά με τον ανταγωνισμό των δύο ειδών (ιόντα Cu(II)ή ιόντα επιφανειοδραστικής ένωσης) να σχηματίσουν σύμπλοκα με το PANa. Ως τελικό στάδιο, παρασκευάστηκαν αδιάλυτα στο νερό υβριδικά υλικά πολυμερούς/Cu(II)ή πολυμερούς/Cu(II)/επιφανειοδραστικής ένωσης. Έπειτα από διερεύνηση της συμβατότητας/αναμιξιμότητάς τους με εμπορικές μήτρες που χρησιμοποιούνται συνήθως στη βιομηχανία χρωμάτων, ορισμένα από αυτά ενσωματώθηκαν σε πραγματικά χρώματα. / The binding/release of Cu(II) ions or/and surfactants from comb-type copolymers was studied. The backbone was poly(sodium acrylate), PANa, whereas the side chains were poly(N, N-Dimethylacrylamide) and Poly9N-Isopropylacrylamide). The complexation of these copolymers with Cu(II) ions in water, was studied by turbidimetry, viscometry, UV-Vis fasmatophotometry, dynamic light scattering, fluorescense probing and ζ-potential. As a next step, the possible formation of ternary PANa/Cu(II)/surfactant complexes in water was studied. From the physiocochemical studies with pH, important information was taken as far as the competition of the two species (Cu(II) ions and surfactant) to form complexes with PANa is concerned. As a next step, water-insoluble hybrid polymer/Cu(II) or polymer/Cu(II)/surfactant materials were produced. After studies upon the compatibility/mischibility of the hybrid materials with matrices that are usually used in paints, some of the materials were incorporated to paints. Ιόντα χαλκού (ΙΙ) Αποδέσμευση Χρώματα 547 Anionic polyelectrolytes Comb-type copolymers Copper (II) ions Polymer-metal complexation Polymer-surfactant complexation Hybrid polymer/metal ion nanoparticles Release Paints
88	Cytotoxicity of Metal Based Anticancer Active Complexes and their Targeted Delivery using Nanoparticles Pramanik, Anup Kumar January 2016 (has links) (PDF) Use of metal based anticancer medication began with the clinical approval of cisplatin in 1978. Research led to the development of six platinum based drug candidates which are in use around the world. However there is a great need to develop better treatment strategies. The present work entitled “Cytotoxicity of Metal Based Anticancer Active Complexes and Their Targeted Delivery Using Nanoparticles” is an effort to prepare cytotoxic metal complexes based on platinum(IV) and copper(II) and deliver them selectively to cancer cells using a targeting ligand, biotin, with two different delivery vehicles, viz. PEGylated polyamidoamine dendrimer (PAMAM) and gold nanoparticles (AuNPs). Chapter 1 provides a brief introduction to cancer and its characteristic features, followed by a short description about different treatment modalities in clinical practice. An account of the development of anticancer drugs starting from purely organic drugs to the field of metal based anticancer drugs is discussed. An overview of the available targeting strategies are discussed with specific examples. The section ends with the scope of the present work. Platinum based anticancer drugs currently in use contain platinum in the +2 oxidation state. These drugs showed side effects and are often ineffective against resistant cells, especially in the latter stages of treatment. A recent focus of metal based anticancer drug research is the development of platinum(IV) systems which shows promise to have greater activity in cancer cells in a reducing environment. Reported platinum(IV) dual drugs contain the components of “cisplatin” or an analogue along with an active organic drug. But there are no known dual drugs based on platinum(IV) that would generate a cytotoxic metal complex along with cisplatin. In Chapter 2, a bimetallic dual drug (M4) (Figure 1), the first of its kind, with components of cisplatin and copper bis(thiosemicarbazone) has been prepared (Figure 1). The components and the bimetallic complex were characterized using several spectroscopic techniques. The dual drug M4 was found to be highly cytotoxic (IC50 1.3 M) against HeLa cells and was better than cisplatin (IC50 6.8 M). The bimetallic complex turned out to be better than the mixture (IC50 7.2 M) of individual drugs which indicated possible synergism of the released cisplatin and the copper bis(thiosemicarbazone) from the dual drug. Figure 1: Structure of the platinum(IV) and copper bis(thiosemicarbazone) complexes. A novel approach towards conjugation of platinum(IV) drugs to a carrier has been developed using a malonate moiety (Figure 2). The bis(butyric acid) complex, Pt(NH3)2(OCOC3H7)2Cl2 (M1), was taken as model complex to demonstrate the conjugation strategy. The complex M4 was also conjugated to the partially PEGylated 5th generation PAMAM dendrimers. Figure 2: Schematic representation of the platinum(IV) drug conjugated PAMAM dendrimer. The cytotoxicity of M4 was reduced to a small extent on conjugation to the dendrimer. In the presence of 5 mM sodium ascorbate as a reducing agent, sustained release (40 %) of the drug was shown to occur over a period of 48 h by the drug release study. The reduction in cytotoxicity of the dendrimer conjugates could be due to incomplete release of the active drug. Unfortunately, no enhanced activity was observed with the additional targeting ligand, biotin. The drug uptake study revealed that the dendrimer conjugates were successful in entering cancer cells. There was no preferential uptake with biotin conjugated dendrimers which explained the similar cytotoxicity of dendrimer conjugates with and without biotin. Different delivery vehicles showed varied efficiency in delivering the pay load (drugs) to the cancer site. In this connection, PEGylated gold nanoparticles have shown good promise as a drug delivery vehicle. In Chapter 3, M1 and M4 are both conjugated to malonate functionalized PEGylated gold nanoparticles (30 nm). Biotin was also attached to the AuNPs for targeting HeLa cells. Figure 3: Schematic representation of the platinum(IV) drug and biotin conjugated AuNPs. The AuNPs were highly stable in water without agglomeration. There was no shift in the Surface Plasmon Resonance (SPR) band after conjugation of the drug molecules and targeting ligands. TEM images and DLS measurements showed there was no change in particle size. Drug conjugated AuNPs were also very stable in high salt concentrations as well as over a large range of pH. AuNPs with M1 were found to be less cytotoxic than the parent drug. Biotinylated AuNPs with M1 were more potent than non-biotinylated nanoparticles and increased cytotoxicity (35 %) was observed with biotin conjugation. Surprisingly, the enhanced activity of biotinylated AuNPs could not be correlated to the drug uptake study. The cytotoxicity of the bimetallic dual drug containing AuNPs were about 10-fold less and no increased activity was observed with the biotinylated conjugates. The reduced activity of AuNPs with the bimetallic drug was due to incomplete release from the AuNPs (20 % release after 48 h). But the release kinetics was very slow and sustained which might increase in vivo activity. The unexpected lower activity of biotinylated conjugates with copper bis(thiosemicarbazone) was suggestive of interference between bis(thiosemicarbazone) complex and the biotin receptor resulting in reduced drug uptake. Copper bis(thiosemicarbazone) complexes hold very good promise as a class of non-platinum anticancer drug candidates. However, they lack selectivity towards malignant cells. Recently, CuATSM has shown hypoxia selectivity and very good cytotoxicity resulting in 64CuATSM being used in advanced stages of clinical trials for imaging hypoxic cells. In Chapter 4, a copper bis(thiosemicarbazone) complex analogous to Cu(ATSM) with a redox active cleavable disulfide linker and a terminal carboxylic acid group (CuATSM-SS-COOH) was synthesised and characterised spectroscopically. The complex was highly cytotoxic and has an IC50 value (6.9 M) similar to that of cisplatin against HeLa cells. The complex was conjugated to PEGylated gold nanoparticles by amide coupling between the acid group from the drug molecule and the amine on the AuNPs (20 nm) for smart drug delivery. The gold nanoparticles were decorated with biotin for targeted delivery to the HeLa cells. Figure 4: Schematic representation of the CuATSM-SS-COOH and biotin decorated AuNPs. The CuATSM-SS-COOH was insoluble in water but conjugation to PEGylated gold nanoparticles made it water soluble. The drug molecules and biotin conjugated AuNPs were highly stable which was confirmed by TEM and DLS measurements. Similar to the study described in the previous chapter, these AuNPs were also stable in a wide range of pH and salt concentrations. In vitro glutathione (GSH) triggered release study demonstrated substantial release of the cytotoxic agent from the AuNPs (60 %) over a period of 48 h. In vitro cell viability study with HeLa cells showed reduced cytotoxicity (IC50 15 M) of AuNPs with and without biotin containing drug conjugates relative to the parent copper complex (IC50 6.9 M). The reduction of the cytotoxicity correlated well with the released amount of the active drug from the nanoconjugates over the same time period. In vivo studies demonstrated the effectiveness of these nanoparticle carriers as suitable vehicles as they exhibited nearly four-fold reduction of tumor volume without significant loss in body weight. Moreover, the biotin targeted nanoparticle showed significant (p < 0.5) reduction in tumor volume compared to the non-targeted gold nanoparticles. Thus, this smart linking strategy Can be extended to other cytotoxic complexes that suffer from non-specificity, low aqueous solubility and toxicity. Multinuclear anticancer active complexes do not act in the same way as that of their corresponding mononuclear analogues. In the case of multinuclear platinum complexes, the activity not only depends on the active moiety but also on the spacer length between the moieties. In Chapter 5, a series of multinuclear copper bis(thiosemicarbazone) complexes were prepared and characterised using different techniques. Figure 5: General structures of binuclear copper bis(thiosemicarbazone) complexes. All the complexes showed redox activity and have a very high negative reduction potential, i.e. these compounds would not be easily reduced in the biological medium and would remain as copper(II) species. As the concentration of the reducing agents are more within cancer cells, once these complexes are inside cells they would be reduced to Cu(I). These compounds were shown to be highly lipophilic from the large log P values. Unfortunately, these binuclear complexes were less active than similar mononuclear complexes. One possible reason for the reduced cytotoxicity of these complexes could be adherence of the complexes to the cell membrane due to the high lipophilicity of these complexes. Out of five different methylene spacers between two bis(thiosemicrarbazone) moieties, the complex with a three carbon spacer was shown to be the most active against HeLa cells. The complexes with five and six methylene spacers turn out to be noncytotoxic. Further experiments are necessary to reveal the mechanism of action in these complexes. In summary, bimetallic complexes can be very active and may be a way of overcoming drug resistance in platinum based therapy. A dual drug can be delivered using a malonate moiety and a disulfide linker. Gold nanoparticles are good delivery vehicles for these dual drugs and show great potential for improvement and translation to the next stage. (For figures pl refer the abstract pdf file) Anticancer Active Complexes Platianm Anticancer Drugs Biometalic Dual Drug Cytotoxicity Cytotoxic Agents Chemotherapy Platinum(II) Based Drugs Cancer - Targeted Therapy Pt(IV)-Cu(II) Bimetallic Dual Drug Biotinylated PAMAM Dendrimer Biotinylated Gold Nanoparticles Anticancer Agents Nanoparticles Inorganic and Physical Chemistry
89	Biomimetic Studies on Tyrosine- and Phenolate- Based Ligands and their Metal Complexes Umayal, M January 2014 (has links) (PDF) Tyrosine (4-hydroxyphenylalanine) is one of the naturally occurring 22 amino acids. The importance of tyrosine is due to the presence of its phenolic side chain. In biological systems, the tyrosyl residue in proteins is found to be sulfated, phosphorylated and nitrated. Upon oxidation with dioxygenases, Tyr residue forms dopaquinone which undergoes a series of reactions ultimately leading to the formation of melanin. Tyr is also a precursor to neurotransmitters (catechol amines namely dopamine, epinephrine and norepinephrine) and thyroid harmones T4 and T3. Tyr residue is also found to be cross linked with other amino acid residues in the active site of certain proteins. Tyr-Tyr cross link has also been associated with neurodegenerative diseases. Tyr residue in proteins has been targeted widely for site selective modifications. A series of chemical modifications like acylation, allylation, ene-type reaction, iodination with radiolabeled iodine, formation of Tyr-Tyr cross link with oxidants and aminoalkylation have been carried out on surface exposed Tyr residues in proteins. Apart from these chemical modifications of Tyr on protein surface, a couple of free Tyr-based scaffolds have also been developed for different applications. Similar to tyrosine-based scaffolds, several phenolate-based scaffolds have also been developed for various applications. Several phenolate-based binuclear metal complexes have been developed as mimics of the active site of metalloenzymes. Moreover, by varying the substituent in the phenolate scaffold, the redox properties of metal bound in these systems can be tuned. The thesis consists of five chapters. The first chapter gives general idea about tyrosine-and phenolate-based scaffolds. The first chapter also gives introduction to zinc(II)-containing enzymes metallo-β-lactamases (mβls) and phosphotriesterase (PTE) and their functional mimics. The importance of copper(II)-containing enzyme, catechol oxidase and its mimics has also been discussed. The significance and formation of o-dityrosine (Tyr-Tyr cross link) has also been briefly discussed. In chapters 2 and 3, a couple of phenolate-based ligands and their corresponding zinc(II)- and copper(II)- complexes have been synthesized and have been checked as mimics of zinc(II)-containing enzymes (mβl and PTE) and copper-containing enzyme catechol oxidase, respectively. In chapter 4, a series of tyrosine-based ligands have been designed and their in situ copper(II) complexes have been tested as mimics of catechol oxidase. In chapter 5, the effect of neighboring amino acid in the formation of Tyr-Tyr cross link has been studied. In chapter 2, a couple of zinc(II) complexes have been synthesized and studied as mimic of zinc(II)-containing enzymes mβl and PTE. Metallo-β-lactamases (mβls) are zinc(II)-containing enzymes which exist in both mono- and binuclear forms. Mβls are capable of hydrolyzing β-lactam ring in antibiotics and make them inactive (Scheme 1(A)). To date, an effective inhibitor for this enzyme is not known. Hence, in order to understand the nature of the enzyme a couple of synthetic mimics are known. However, in most of the synthetic mimics both the metal ions are in symmetrical environment. Therefore, we have attempted to design a few unsymmetrical phenolate- based ligands and their zinc(II) complexes. The unsymmetrical phenolate-based ligands HL1 and HL2 have been synthesized by sequential mannich reaction with formaldehyde and two different amines. Complexes 1 and 2 are obtained from ligands HL1 and HL2, respectively (Figure 1). For comparative purpose, the symmetrical ligands HL3 and HL4, and their zinc(II)-complexes 3 and 4 have been synthesized by reported procedures (Figure 1). The efficiency of the complexes 1-4 towards the hydrolysis of oxacillin has been studied. It has been observed that the binuclear zinc(II) complexes with metal-bound water molecule 1 and 4 are able to hydrolyze oxacillin at much faster rates compared to that of mononuclear complexes 2 and 3. However, between 1 and 4, there is no appreciable change in activity, indicating that the slight change in ligand environment has no significant role. PTE is a binuclear zinc(II)-containing enzyme, capable of hydrolyzing toxic organphosphotriesters to less toxic diesters (Scheme 1(B)). As the binuclear active site of mβl is comparable with that of phosphotriesterase (PTE), PTE activity of complexes 1-4 has been studied. Although the binuclear zinc(II)-complexes 1 and 4 are able to hydrolyze PNPDPP (p-nitrophenyl diphenyl phosphate) initially, these complexes are not able to effect complete hydrolysis. This is due to the inhibition of complexes 1 and 4 by hydrolyzed product, diester. However with mononuclear complexes 2 and 3 no such inhibitions is possible, and are capable of hydrolyzing PNPDPP at comparatively faster rates than 1 and 4. Scheme 1. Function of metallo-β-lactamase and phosphotriesterase. (A) Hydrolysis of β-lactam ring in antibiotics by metallo-β-lactamase. (B) Hydrolysis of organophosphotriesters to diesters by phosphotriesterase. Figure 1. Chemical structures of ligands HL1-HL4 and their corresponding zinc(II)complexes 1-4. In chapter 3, a couple of copper(II) complexes have been synthesized and their catechol oxidase activity has been studied. Catechol oxidase belongs to the class of oxidoreductase and it catalyzes the oxidation of a wide range of o-diphenols to o-quinones through the reduction of molecular oxygen to water (Scheme 2). A four new µ4-oxo-bridged tetranuclear copper(II) complexes (5-8) have been synthesized (Figure 2). The ability of these complexes to catalyze the oxidation of 3,5-DTBC (3,5-Di-tert-butylcatechol) to 3,5-DTBQ (3,5-Di-tert-butylquinone) has been studied. A detailed kinetic study has been carried out which reveals that the complexes with exogenous acetate ligands (5 and 6) are better catechol oxidase mimics compared to complexes with exogenous chloride ligands (7 and 8). This observation is due to the labile nature of acetate compared to chloride, as the displacement of exogenous ligand is essential for the binding of substrate to the catalyst. Based on mass spectral analysis a plausible mechanism has been proposed for the oxidation of 3,5-DTBC by these complexes. Scheme 2. Oxidation of catechol by catechol oxidase. Figure 2. Chemical structures of copper(II) complexes 5-8. In chapter 4, by following the analogy between phenol and tyrosine, a series of binucleating ligands of tyrosine or tyrosyl dipeptides (Figures 3 and 4) have been synthesized by Mannich reaction under mild conditions. The in situ complexation of these fifteen new binucleating ligands (HL5-HL19) with copper(II) chloride has been observed. In situ complexation was followed by UV-visible and mass spectral analysis. These in situ complexes were able to oxidize 3,5-DTBC at slower rate compared to that of the tetranuclear complexes reported in chapter 3. The catecholase activity has also been tested with the addition of base. A slight enhancement in activity of in situ complexes has been observed in the presence of base. Based on mass spectral evidences, a plausible mechanism for the oxidation of catechol by these in situ complexes has been proposed. Figure 3. Binucleating ligands (Mannich bases) of boc-protected tyrosine and tyrosyl dipeptides. Figure 4. Binucleating ligands (Mannich bases) of boc-deprotected tyrosyl dipeptides. In chapter 5 of the thesis, the effect of neighboring amino acid residue in the formation of o,o-dityrosine (Tyr-Tyr cross link) has been studied. o,o’-Dityrosine is a specific marker for oxidative/nitrosative stress. The increase in concentration of dityrosine is associated with several disease states. A detailed study has been carried out in order to find out the effect of neighboring amino acid residues in the rate of formation of dityrosine of several tyrosyl dipeptides. The formation of dityrosine has been carried out with horseradish peroxidase(HRP) and H2O2 (Scheme 3). Except Cys-Tyr, all other tyrosyl dipeptides, form corresponding dityrosine with HRP/ H2O2. With Cys-Tyr, the formation of corresponding disulfide is observed. The appreciably higher rate of dityrosine formation of Phe-Tyr is attributed to the presence of strong hydrophobic environment around the active site of HRP. Among the polar tyrosyl peptides, the positively charged peptides (Arg-Tyr, Lys-Tyr) undergo dityrosine formation at much faster rate compared to that of negatively charged dipepptides (Asp-Tyr, Glu-Tyr). This trend is in accordance with the pKa of neighboring amino acid residues. The positively charged neighboring residues with higher pKa stabilizes ionized tyrosine, hence the rate of dityrosine formation is higher for them. As positively charged neighboring residue enhances the rate of dityrosine formation, the effect of externally added L-Arg has been studied. A coupling of a few biologically relevant tyrosine derivatives has been studied. The derivatives in which one of the ortho-positions of tyrosine is blocked, does not undergo coupling under the experimental conditions employed. Scheme 3. Formation of dityrosine of Ile-Tyr from Ile-Tyr in the presence of H2O2 catalyzed by HRP. (For structural formula and figures pl refer the abstract pdf file) Biomimetics Tyrosine based Ligands Metallo-β-Lactamase Catechol Oxidase Phenolate based Ligands Copper Complexes Zinc(II) Complexes Phenolate-based Copper(II) Complexes Tyrosine-based Copper Complexes Phenolate-based Metal Complexes Tyrosine-based Metal Complexes Phenolate-based Zinc Complexes Tyrosine-based Scaffolds Phenolate-based Scaffolds Tyrosyl Dipeptides Bioinorganic Chemistry
90	Synthesis and Characterization of Metal Complexes for Thin Film Formation via Spin-Coating or Chemical Vapor Deposition Pousaneh, Elaheh 29 October 2020 (has links) The present thesis describes the synthesis and characterization of magnesium, copper, and iron complexes and their application in the MOCVD (Metal-Organic Chemical Vapor Deposition) process, as well as the synthesis and characterization of yttrium and gadolinium complexes and their use as spin-coating precursors for metal oxide thin layer formation. The objective of this scientific work is the development of the family of bis(β-ketoiminato) magnesium(II) complexes and a series of heteroleptic β-ketoiminato copper(II) precursors for the formation of magnesium oxide and copper/copper oxide layers by using the MOCVD process. Modifications of the ketoiminato ligands affect the physical and chemical properties of the respective complexes. Another central theme of this work is the development of β-diketonato iron(III) complexes for the deposition of carbon-free gamma- and alpha-Fe2O3 layers via MOCVD. The thermal behavior and vapor pressure of the precursors could be influenced by the variation of the β-diketonate ligands. In addition, the synthesis and characterization of yttrium and gadolinium β-diketonates and their use as spin-coating precursors are described. Field-effect transistors were successfully fabricated by the deposition of carbon nanotubes on top of the Y2O3 films. info:eu-repo/classification/ddc/540 ddc:540

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