Development of novel plastic scintillators based on polyvinyltoluene for the hybrid j-pet/mr tomograph
Potential wavelength shifters for the J-PET scintillator
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5. Potential wavelength shifters for the J-PET scintillator
Scintillators offered by companies are mostly adjusted to vacuum photomultpliers which were widely used in physics experiments for last decades. However, progress in the area of photodetectors, and successive substitution of traditional photomultipliers by SiPMs, demands development in the area of scintillators as well. Development of novel scintillator with the emission spectrum adjusted to the novel J-PET/MR device, enables an efficient detection of gamma quanta. In order to develop such scintillator, three chemical compounds were synthesized. The syntheses are described below in subsections A, B and C. A) Synthesis of 2-(4′- N , N -dimethyloaminophenyl)oxazolo[4,5- b ]pirydyne (DMAPOP) N O N N CH 3 CH 3 DMAPOP was synthesised according to procedure described in [59]. The scheme of reaction is presented below: N O N N CH 3 CH 3 OH O N C H 3 C H 3 + N OH NH 2 PPA PPA - polyphosphoric acid 26 In order to purify the desired compound, it was recrystallized from chloroform and then the final product was separated by column chromatography with Al 2 O 3 as stationary phase and chloroform as eluent. Then the sediment was precipitated from petroleum ether. The next step was column chromatography on silica gel/CHCl 3 . Fractions containing desired compound were selected according to results of TLC (Thin Layer Chromatography). The chosen fractions were connected and the solvent was evaporated. The sediment was precipitated to petroleum ether. The chemical compound with high purity was obtained, which melting temperature was equal to 227 °C. B) Synthesis of 2-(4-styrylphenyl)benzoxazole O N The reaction proceeds according to the scheme: O N CH 3 KOH O N N-benzylideneaniline The final product was synthesized. Obtained solid was dissolved in toluene and particular fractions were separated using column with silica gel. Then with TLC technique proper fractions were chosen, and the sediment was precipitated to petroleum ether. Melting temperature of the substance was 198 °C. C) Synthesis of 2-[4-methylbenzene][1,3]-oxazolo[5,4- b ]-quinoline. N N O CH 3 27 The reaction was as follows: N O H OH N O O CH 3 N N O CH 3 + P(OEt) 3 - triethylphosphine The product of the reaction was dissolved in toluene and particular fractions were separated in column filled with Al 2 O 3. Because of the insufficient degree or purity confirmed by TLC, the sediment was dissolved in chloroform and components of the mixture were separated by column with silica gel and toluene as eluent. Proper fractions were selected by TLC and solvent was removed by rotor evaportor. The sediment was crystalized from toluene. Melting point of the reaction product was equal to 243 °C. In scintillators development, high degree of purity is demanded. Because of that, each synthesis was followed by purification process. High purity of reaction products was confirmed by measurements of the melting points. Plastic scintillators containing synthesized fluorophores as wavelength shifters were prepared. Their constitution is shown in Tab. 6. Yüklə 3,22 Mb. Dostları ilə paylaş:
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