Chinese Journal of Lasers, Volume. 49, Issue 10, 1002602(2022)
Application of Bionic Superhydrophobic Surface in Jaw End Face of Microgripper
Figures & Tables(15)
Fig. 4. Physical comparison of functionalized jaw end face and original jaw end face
Fig. 5. Measured XPS and C 1s high-resolution spectra. XPS of (a) Al-Ⅰ and (b) Al-Ⅱ samples; C 1s high-resolution spectra fitted by the spectrum peaks of (c) Al-Ⅰ and (d) Al-Ⅱ samples
Fig. 6. Comparison of corrosion of Al-Ⅰ and Al-Ⅱ samples in acids, salts, and alkali solutions. (a)(e) Uncorroded samples; (b)(f) samples corroded by HCl solution at pH=2; (c)(g) samples corroded by NaCl solution at pH=7; (d)(h) samples corroded by NaOH solution at pH=12
Fig. 7. Polarization curves of Al-Ⅰ and Al-Ⅱ samples in pH=2, pH=7, and pH=12 solutions
Fig. 8. Comparison of electrochemical impedance spectra and polarization curves of Al-Ⅰ and Al-Ⅱ samples. Nyquist plots of samples in solutions with (a) pH=2, (b) pH=7, and (c) pH=12; (d) Bode diagram and fitting curves of impedance modulus and frequency; (e) Bode diagram and fitting curves of phase angle and frequency
Fig. 9. Equivalent circuit of EIS curves. (a) Al-Ⅰ and Al-Ⅱ surfaces at pH=2 and Al-Ⅰsurface at pH=7; (b) Al-Ⅱ surface at pH=7; (c) Al-Ⅰ surface and Al-Ⅱ surface at pH=12
Fig. 10. Comparison of self-cleaning effects of Al-Ⅰ and Al-Ⅱ sample surfaces, both at a scale of 5 mm. (a)(i) Al-Ⅰ sample; (j)(r) Al-Ⅱ sample
Fig. 11. Anti-icing ability test of 7075 aluminum sample, all scales are 10 mm. (a) Schematic of anti-icing test device; comparison of surface freezing and anti-icing processes between (b)(j) original Al-Ⅰ sample and (k)(s) superhydrophobic Al-Ⅱ sample
Fig. 12. Laser confocal microscopy of escherichia coli on the sample surface. Distributions of (a) viable bacteria and (b) dead bacteria in Al-Ⅰ sample; distributions of (c) viable bacteria and (d) dead bacteria in Al-Ⅱ sample
Fig. 13. Colony count of remaining bacteria in plate coating at different dilution ratio. (a)(c) Bare group; (d)(f) original sample; (g)(i) superhydrophobic sample
Table 1. Corrosion results of Al-Ⅰ and Al-Ⅱ samples in different solutions obtained by polarization curves
View tableTable 1. Corrosion results of Al-Ⅰ and Al-Ⅱ samples in different solutions obtained by polarization curves
Sample Ecorr/V Icorr/(A·cm-2) βa/(V·dec-1) -βc/(V·dec-1) Rp/(Ω·cm2) Al-Ⅰ(pH=2) -1.01 5.32×10-5 0.13 0.30 7.30×102 Al-Ⅱ(pH=2) -1.10 1.26×10-5 0.10 0.27 2.52×103 Al-Ⅰ(pH=7) -1.12 5.14×10-6 0.30 0.11 6.85×103 Al-Ⅱ(pH=7) -0.93 1.62×10-6 0.10 0.19 1.79×104 Al-Ⅰ(pH=12) -1.23 1.24×10-4 0.22 0.19 3.55×102 Al-Ⅱ(pH=12) -1.25 3.78×10-5 0.29 0.16 1.18×103
Table 2. Comparison of bacterial inhibition after 105 times dilution
View tableTable 2. Comparison of bacterial inhibition after 105 times dilution
Sample Concentration of bacteria Colony count /CFU Antibacterial rate /% Bare group 1.38×108 138 0 Al-Ⅰ 1.27×108 127 8.0 Al-Ⅱ 9.60×107 96 30.4
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Chengjuan Yang, Xue Yang, Meng Wang, Fujun Wang, Beichao Shi, Xinyao Zhu. Application of Bionic Superhydrophobic Surface in Jaw End Face of Microgripper[J]. Chinese Journal of Lasers, 2022, 49(10): 1002602
Paper Information
Received: Dec. 27, 2021
Accepted: Feb. 28, 2022
Published Online: May. 12, 2022
The Author Email: Yang Xue (xue_yang@tju.edu.cn)
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