Gold–silver core–shell
nanoparticles stabilized with
a common sweetener, aspartame (AuNP@Ag@Asm), combine the antimicrobial
properties of silver with the photoinduced plasmon-mediated photothermal
effects of gold. The particles were tested with several bacterial
strains, while biocompatibility was verified with human dermal fibroblasts.
The synthesis of CF3OC(O)OOCF3, CF3OC(O)OOC(O)OCF3, and CF3OC(O)OOOC(O)OCF3 is accomplished by the photolysis of a mixture of (CF3CO)2O, CO, and O2. Pure CF3OC(O)OOCF3 and CF3OC(O)OOC(O)OCF3 are isolated after thermal decomposition of CF3OC(O)OOOC(O)OCF3 and repeated trap-to-trap condensation. Additional spectroscopic data of known CF3OC(O)OOCF3 are obtained by recording NMR, IR, Raman, and UV spectra: At room temperature CF3OC(O)OOC(O)OCF3 is stable for days in the liquid or gaseous state. The melting point is -38 degrees C, and the boiling point is extrapolated to 73 degrees C from the vapor pressure curve log p = 8.657-1958/T (p/mbar, T/K). The new compound is characterized by molecular mass determination and by NMR, vibrational, and UV spectroscopy. The new trioxide CF3OC(O)OOOC(O)OCF3 cannot be separated from CF3-OC(O)OOC(O)OCF3 by distillation due to their similar boiling points. CF3OC(O)OOOC(O)OCF3 decomposes at room temperature within hours into a mixture of CF3OC(O)OOC(O)OCF3, CF3OC(O)OOCF3, CO2, and O2. Its characterization is discussed along with a possible mechanism for formation and decomposition reactions.
The trifluoromethoxy radical is prepared in high yields by vacuum flash pyrolysis of CF3OC(O)OOC(O)OCF3 or CF3OC(O)OOCF3 highly diluted in inert gases, and subsequently isolated in inert gas matrices by
quenching the product mixture at low temperatures. In the IR spectrum, six fundamentals have been observed
and C
s
symmetry is concluded for the matrix-isolated CF3O· radical by comparison with predicted band
positions and band intensities from ab initio calculations. This finding is at variance with results from the
analysis of the rotational resolved fluorescence excitation spectra and dispersed fluorescence spectra of gaseous
CF3O· radicals, where C
3
v
symmetry was found. Possible explanations for this discrepancy are given. The
UV spectrum in the spectral region 28000−43000 cm-1 has been measured for the first time, and two different
electronic transitions are observed. The structure of the low energy transition Ã
2A1 ← X̃
2E is in agreement
with that in previous laser induced fluorescence spectra. Four vibrational progressions are found in the spectral
range between the band origin at 28517 cm-1 and up to 32400 cm-1. The spectroscopic results are compared
with the gas phase and ab initio computed values and are discussed in detail.
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