<p>(experimental conditions: <i>T</i> = 303 K, pH = 5 and absorbent dosage = 0.10g).</p
Curve of initial concentration Effect for Cu(II), Zn(II), and Cr(III) adsorption on Imine.</p
<p>(a) Relation between series resistance and dose. (b) Relation between log series resistance and d...
<p>Standard Curve of Time to positive <i>T<sub>p</sub></i> versus log of concentration (in pg-µl<sup...
<p>(experimental conditions: pH = 5 and <i>c</i><sub>0</sub> = 100~300 mg/L).</p
<p>(experimental conditions: <i>c</i><sub>0</sub> = 100 mg/L, <i>T</i> = 303 K, contact time = 90min...
<p>Ph<i>b</i> concentrations were as follows: (1) 0.95 and (2) 1.9 mg/ml. The inset shows the initia...
<p>(experimental conditions: <i>T</i> = 303 K, pH = 5, <i>c</i><sub>0</sub> = 100~300 mg/L and absor...
<p>Change in absorbance at 360 nm plotted as a function of the [P<sub>i</sub>] as a function of pH t...
<p>The parameters in <a href="http://www.plosone.org/article/info:doi/10.1371/journal.pone.0107406#p...
<p>Response and contour surfaces as a function of sucrose concentration and pH for OD<sub>600nm</sub...
<p>(a,b), The temperature and concentration profiles for different values of the power-law index <i>...
<p>(a) CIP distribution as a function of pH. (b) Effect of pH on FQs' removal efficiency. (c) Effect...
<p>(a) Relationship between interfacial tension and water separation ratio as a function of differen...
<p>TG (A) and DTG (B) curves for the control film and the film with different additives concentratio...
<p>C<sub>t</sub>, D-[6,6-<sup>2</sup>H]-glucose concentration at time point t; M<sub>t</sub>, fracti...
Curve of initial concentration Effect for Cu(II), Zn(II), and Cr(III) adsorption on Imine.</p
<p>(a) Relation between series resistance and dose. (b) Relation between log series resistance and d...
<p>Standard Curve of Time to positive <i>T<sub>p</sub></i> versus log of concentration (in pg-µl<sup...
<p>(experimental conditions: pH = 5 and <i>c</i><sub>0</sub> = 100~300 mg/L).</p
<p>(experimental conditions: <i>c</i><sub>0</sub> = 100 mg/L, <i>T</i> = 303 K, contact time = 90min...
<p>Ph<i>b</i> concentrations were as follows: (1) 0.95 and (2) 1.9 mg/ml. The inset shows the initia...
<p>(experimental conditions: <i>T</i> = 303 K, pH = 5, <i>c</i><sub>0</sub> = 100~300 mg/L and absor...
<p>Change in absorbance at 360 nm plotted as a function of the [P<sub>i</sub>] as a function of pH t...
<p>The parameters in <a href="http://www.plosone.org/article/info:doi/10.1371/journal.pone.0107406#p...
<p>Response and contour surfaces as a function of sucrose concentration and pH for OD<sub>600nm</sub...
<p>(a,b), The temperature and concentration profiles for different values of the power-law index <i>...
<p>(a) CIP distribution as a function of pH. (b) Effect of pH on FQs' removal efficiency. (c) Effect...
<p>(a) Relationship between interfacial tension and water separation ratio as a function of differen...
<p>TG (A) and DTG (B) curves for the control film and the film with different additives concentratio...
<p>C<sub>t</sub>, D-[6,6-<sup>2</sup>H]-glucose concentration at time point t; M<sub>t</sub>, fracti...
Curve of initial concentration Effect for Cu(II), Zn(II), and Cr(III) adsorption on Imine.</p
<p>(a) Relation between series resistance and dose. (b) Relation between log series resistance and d...
<p>Standard Curve of Time to positive <i>T<sub>p</sub></i> versus log of concentration (in pg-µl<sup...
DOI