biophy-06-02-039
20190531020728
lianhua@aimspress.com
lianhua@aimspress.com
Biophy
Biophy
AIMS Biophysics
AIMS Biophysics
2377-9098
2019
6
2
Mohamed A. Elblbesy
2019
biophy-06-02-039
10.3934/biophy.2019.2.39
-
39
46
1
Kimmel E, Seri M, Fredberg JJ
Lung tissue resistance and hysteretic moduli of lung parenchyma
J
<em>J Appl Physiol</em>
1995
79
10.1152/jappl.1995.79.2.461
2
Nieman GF, Clark WR, Paskanik AM, et al.
Unilateral smoke inhalation increases pulmonary blood flow to the injured lung
J
<em>J trauma</em>
1994
36
10.1097/00005373-199405000-00003
3
Zaitsev S
Dynamic surface tension measurements as general approach to the analysis of animal blood plasma and serum
J
<em>Adv colloid interface sci</em>
2016
235
10.1016/j.cis.2016.06.007
4
Zaitsev S
Dynamic surface tension measurements for animal blood analysis and correlations with related biochemical parameters
J
<em>Colloids Interfaces</em>
2018
2
10.3390/colloids2010005
5
Zaitsev SY, Milaeva IV, Zarudnaya EN, et al.
Investigation of dynamic surface tension of biological liquids for animal blood diagnostics
J
<em>Colloids Surf A: Physicochem Eng Aspects</em>
2011
383
10.1016/j.colsurfa.2011.02.009
6
Aksenenko EV, Kovalchuk VI, Fainerman VB, et al
Surface dilational rheology of mixed adsorption layers at liquid interfaces
J
<em>Adv colloid interface sci</em>,
2006
122
10.1016/j.cis.2006.06.012
7
Hadidimasouleh R, Yaghmaee MS, Riahifar R, et al.
Modeling of the surface tension of colloidal suspensions
J
<em>Surf Rev Lett</em>
2017
24
10.1142/S0218625X17500500
8
Dong L, Johnson D
Surface tension of charge-stabilized colloidal suspensions at the water-air interface
J
<em>Langmuir</em>
2003
19
10.1021/la035128j