- 作者:Christoph Held ; christoph.held@bci.tu-dortmund.de" class="auth_mail" title="E-mail the corresponding author ; Gabriele Sadowski
- 关键词:AO ; Atlantic Ocean ; ARD ; absolute average relative deviation ; BaS ; Baltic Sea ; BlS ; Black Sea ; cit ; l-citrulline ; DMG ; N ; N-dimethylglycine ; DMSO ; dimethyl sulfoxide ; DSC ; differential scanning calorimetry ; E ; ectoine ; EOS ; equation of state ; (e)PC-SAFT ; (electrolyte) Perturbed-Chain Statistical Associating Fluid Theory ; FPO ; freezing-point osmometer ; M ; method ; MG ; N-methylglycine ; sarcosine ; MS ; Mediterranean Sea ; NaCl ; sodium chloride ; NS ; North Sea ; OP ; osmotic pressure ; opt ; optical ; OP ; Pac
- 刊名:Fluid Phase Equilibria
- 出版年:2016
- 出版时间:15 January 2016
- 年:2016
- 卷:407
- 期:Complete
- 页码:224-235
- 全文大小:662 K
Thus, osmotic coefficients and densities were measured for aqueous CS solutions in a broad range of concentration and at three temperatures (273 K, 310 K, 323 K) at atmospheric pressure. Further, the solubility of CSs in water was measured as function of temperature to determine the maximum CS concentration that can be applied in aqueous solutions. CSs under investigation were trimethylamine N-oxide (TMAO), trehalose, citrulline, N,N-dimethylglycine, DMSO, glycerol, methylglycine, and ectoine. The data was used to calculate real osmotic pressures induced by these CSs. PC-SAFT was applied to model thermodynamic properties and phase equilibria of aqueous CS solutions in quantitative agreement to experimental data.
Among the CSs investigated in this work, TMAO induced the highest osmotic pressure and thus can be considered the best protector against osmotic stress. The data was finally analyzed concerning the influence of CSs molecular size, charge, and hydrophobicity on osmotic pressure. This included also the comparison to incompatible solutes (urea, glycine).