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1	Measurement of cross sections for 65Cu([alpha],p) 68Zn nuclear reaction at low energy with comparison to Hauser-Feshbach statistical model / Measurement of cross sections for 65copper([alpha],p) 68zinc nuclear reaction at low energy with comparison to Hauser-Feshbach statistical model Deboer, Richard J. January 2005 (has links) Where did the elements come from? Why are they found in the abundance that they are? These are two of the fundamental questions that the field of astrophysics has sought to answer. The first major studies of elemental synthesis were done in the 1950's and 1960's. Most notable among them was the Burbidge, Burbidge, Fowler, and Hoyle paper [Clayton 73]. This paper set forth the general theory of elemental synthesis in stars and supernovae by means of nuclear reactions. It remains the leading theory for elemental abundance today.As with most theories, the picture of elemental synthesis remains incomplete. While it is thought that the overall theory is correct, there are still many mysteries in the details. There are several kinds of nuclear reactions that occur in stars and supernova that create the elements heavier than iron. They include the r-process, s-process, and p-process, along with several others. However, there are some elements whose creation is not fully understood. There are a variety of reasons for this, which will be discussed.In our experiment we studied the nuclear reaction properties of an isotope of Copper (65Cu). It is theorized that it is produced by the p-process during a supernova explosion. The p-process can be described simply as the collision of an alpha particle with a large atomic nucleus with a proton byproduct. Little actual experimental data has been taken involving the p-process, which is why we chose this reaction. The experiment was done using the Tandem Van de Graaff Accelerator at Ohio University. / Department of Physics and Astronomy Copper -- Synthesis. Zinc -- Synthesis. Nucleosynthesis.
2	Sinteza, strukturna, fizičko-hemijska i biološka karakterizacija novih N-heterocikličnih liganada i njihovih kompleksa sa jonima prelaznih metala / Synthesis, structural, physico-chemical and biological characterization of N-heterocyclic ligands and their complexes with transition metal ions Mađari Jožef 08 October 2018 (has links) <p>Opisane  su  sinteze  novih  liganada  bis(ftalazin-1hidrazon)-2,6-diacetilpiridna  (Hz<sub>2</sub>DAP·2HCl),  bis(3-hlorpiridazin-6-hidrazon)-2,6-diacetilpiridina (Hp<sub>2</sub>DAP),  3-hlorpiridazin-6-hidrazon  di(2-piridil) ketona  (HpDPK),  ftalazin-1-hidrazon  di(2-piridil)<br />ketona  (HzDPK)  i  ftalazin-1-hidrazon  piridin-2-karbaldehida  (HzPY).  Zajedničko  svojstvo  dobijenih liganada  je  &scaron;to  sadrže  piridinski  i  diazinski  prsten  i sadrže  samo  donorne  atome  azota.  Tokom  nastajanja kompleksa dolazi do deprotonacije liganada. Svi ligandi su  okarakterisani  elementalnom  analizom, termoanalitičkim  metodama  i  metodom  IR spektroskopije,  dok  neki  i  metodom  NMR spektroskopije  kao  i  rendgenskom  strukturnom analizom.Za  sintezu  koordinacionih  jedinjenja  primenjeni  soli Co(II),  Ni(II),  Cu(II)  i  Zn(II).  Dobijeni  kompleksi su okarakterisani  elementalnom  analizom, konduktomerijskim  i  magnetnim  merenjima,  IR spektroskopijom i termoanalitičkim metodama. Barem jedan  kompleks  iz  svake  serije  je  okarakterisan  i rendgenskom strukturnom analizom. Urađena  su  i  ispitivanja  antimikrobne  aktivnosti odabranih  jedinjenja  prema  predstavnicima  grampozitivnih i gram-negativnih bakterija i kulturu kvasca. Pored  toga,  urađena  su  i  ispitivanja  citotoksične,antiproliferativne  i  inhibitorne  aktivnosti  jedinjenja prema  roditeljskim  i  multirezistentnim  T-limfomnim ćelijama  kancera.  Utvrđeno  je  da  neka  jedinjenja pokazuju  izrazito  mikrobicidno,  citotoksično, antiproliferativno i inhibitorno dejstvo.</p> / <p>The synthesis of new ligands dihydrochloride salt of 2,6-diacetylpyridne   bis(phthalazine-1hydrazone) (Hz<sub>2</sub>DAP•2HCl),  2,6-diacetylpiridine  bis(3- chloropyridazine-6-hydrazone)  (Hp<sub>2</sub>DAP),  di(2-pyridyl)ketone  3-chloropyridazine- 6-hydrazone (HpDPK),  di(2-pyridyl)ketone  phthalazine-1-hydrazone  (HzDPK)  and    pyridine-2-carbaldehide phthalazine-1-hydrazone  (HzPY)  have  been described. All the ligands contain pyridine and diazine core and all of them have only nitrogen donor atoms. During the complex formation the deprotonation of ligands takes  places.  All  of  the  ligands  have  been characterized  by  elemental  analysis,thermoanalytical  methods  and  IR  spectroscopy.  In some  cases  also  by  NMR  spectroscopy  and  X-ray structural analysis.Co(II), Ni(II), Cu(II) and Zn(II) salts were  used for the synthesis  of  the  coordinational  compounds.  The obtained complexes were characterized by elemental analysis,  molar  conductivity  and  magnetic measurements,  IR  spectroscopy  and thermoanalytical  methods.  At  least  one complex  of each  series  were  characterized  by  X-ray  structural analysis.The antimicrobial activity of some of the compounds toward  Gram-positive/Gram- negative  bacteria furthermore,  the  cytotoxic,  antiproliferative  and inhibitory  activity  toward  sensitive  parental  andmultiresistant  T-lymphoma  cancer  cells  have  also been carried out. It  can  be  concluded  that  some  of  the  compounds exhibit  outstanding  antimicrobial,  cytotoxic, antiproliferative, and inhibitory activity.</p>

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Measurement of cross sections for 65Cu([alpha],p) 68Zn nuclear reaction at low energy with comparison to Hauser-Feshbach statistical model / Measurement of cross sections for 65copper([alpha],p) 68zinc nuclear reaction at low energy with comparison to Hauser-Feshbach statistical model

Sinteza, strukturna, fizičko-hemijska i biološka karakterizacija novih N-heterocikličnih liganada i njihovih kompleksa sa jonima prelaznih metala / Synthesis, structural, physico-chemical and biological characterization of N-heterocyclic ligands and their complexes with transition metal ions