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. 2018 Nov 12;11(11):2249. doi: 10.3390/ma11112249

Table 1.

Material properties of poly(urethane acrylate) aerogels aL-PUAc and aR-PUAc.

Sample Linear Shrinkage 1 (%) Bulk Density ρb (g cm−3) Skeletal Density ρs (g cm−3) Porosity 2 Π (% v/v) BET Surf. Area σ (m2 g−1) [Micropore Surf. Area] 3 VTotal4 (V1.7–300 nm) 5 (cm3 g−1) Av. Pore Diameter 6 (nm) Particle Size 7 (nm) Fractal Dimension 8 Ds
aL-PUAc-1.5 27 ± 1 0.081 ± 0.001 1.29 ± 0.01 94 203 11.6 (0.5) 10.2 (228) 11.4 2.59
aL- PUAc-3 20 ± 2 0.074 ± 0.001 1.29 ± 0.02 94 185 12.7 (0.4) 10.2 (276) 12.6 2.58
aL-PUAc-6 20 ± 2 0.260 ± 0.006 1.275 ± 0.005 80 225 3.1 (0.7) 12.9 (55) 10.4 2.55
aL-PUAc-12 16 ± 2 0.31 ± 0.03 1.288 ± 0.001 76 260 2.4 (0.8) 13.4 (38) 9.0 2.54
aR-PUAc-1.5 20 ± 2 0.041 ± 0.003 1.40 ± 0.01 97 488 [38] 23.7 (0.8) 8.2 (193) 4.5 2.65
aR-PUAc-3 20 ± 1 0.219 ± 0.008 1.43 ± 0.02 85 356 [13] 3.9 (1.1) 13.4 (42) 5.9 2.60
aR-PUAc-6 19 ± 2 0.15 ± 0.02 1.454 ± 0.004 90 374 [18] 6.0 (0.8) 9.8 (64) 5.5 2.61
aR-PUAc-12 17.5 ± 0.3 0.203 ± 0.004 1.414 ± 0.006 86 311 [2] 4.2 (0.9) 12.2 (54) 6.8 2.58

1 Linear shrinkage calculated according to the following formula: (y1 + y2)/2, where y1 = 100 − [(hfin/hst) × 100] and y2 = 100 − [(dfin/dst) × 100; h: height, d: diameter. 2 Porosity calculated according to the following formula: (ρsρb)/ρs, where ρs: skeletal density and ρb: bulk density. 3 Micropore surface area via t-plot analysis, according to the Harkins and Jura model. 4 Total pore volume calculated according to the following formula: VTotal = 1/ρb − 1/ρs. 5 Cumulative volume of pores between 1.7 and 300 nm from N2-sorption data and the BJH desorption method. 6 Calculated by the 4 V/σ method; V was set equal to the maximum volume of N2 adsorbed along the isotherm as P/Po → 1.0. For the number in parentheses, V was set equal to VTotal from the previous column. 7 Particle radii calculated according to formula: r = 3/(ρs × σ). 8 Surface fractal dimension derived from N2-sorption data, calculated from the slope of the following plot: ln(V/Vm) = (Ds − 3) ln(ln(Po/P)) + C, where V is the volume of N2 adsorbed at each equilibrium pressure P, Vm is the volume of N2 adsorbed in a monolayer, and Po is the saturation pressure.