1. Chang , F. M. , Sheng , Y. J. , Cheng , S. L. , & Tsao , H. K. ( 2008 ). Tiny bubble removal by gas flow through porous superhydrophobic surfaces: Ostwald ripening. Applied Physics Letters, 92(26), 264102 .. Chang, F. M., Sheng, Y. J., Cheng, S. L., & Tsao, H. K. (2008). Tiny bubble removal by gas flow through porous superhydrophobic surfaces: Ostwald ripening. Applied Physics Letters, 92(26), 264102..
2. Lee , J. W. , Kim , S. , Lee , S. , & Hwang , W. ( 2020 ). Exponential promotion and suppression of bubble nucleation in carbonated liquid by modification of surface wettability. Applied Surface Science, 512, 145709 . Lee, J. W., Kim, S., Lee, S., & Hwang, W. (2020). Exponential promotion and suppression of bubble nucleation in carbonated liquid by modification of surface wettability. Applied Surface Science, 512, 145709.
3. Choi , C. H. , David , M. , Gao , Z. , Chang , A. , Allen , M. , Wang , H. , & Chang , C. H. ( 2016 ). Large-scale generation of patterned bubble arrays on printed bi-functional boiling surfaces. Scientific reports, 6(1), 1-10 . Choi, C. H., David, M., Gao, Z., Chang, A., Allen, M., Wang, H., & Chang, C. H. (2016). Large-scale generation of patterned bubble arrays on printed bi-functional boiling surfaces. Scientific reports, 6(1), 1-10.
4. Pereiro , I. , Khartchenko , A. F. , Petrini , L. , & Kaigala , G. V. ( 2019 ). Nip the bubble in the bud: a guide to avoid gas nucleation in microfluidics. Lab on a Chip, 19(14), 2296-2314 . Pereiro, I., Khartchenko, A. F., Petrini, L., & Kaigala, G. V. (2019). Nip the bubble in the bud: a guide to avoid gas nucleation in microfluidics. Lab on a Chip, 19(14), 2296-2314.
5. Campbell , J. ( 1968 ). The tribonucleation of bubbles. Journal of Physics D: Applied Physics, 1(8), 1085 . Campbell, J. (1968). The tribonucleation of bubbles. Journal of Physics D: Applied Physics, 1(8), 1085.