TY - JOUR
T1 - 3D Printing of Bioinspired Liquid Superrepellent Structures
AU - Liu, Xiaojiang
AU - Gu, Hongcheng
AU - Wang, Min
AU - Du, Xin
AU - Gao, Bingbing
AU - Elbaz, Abdelrahman
AU - Sun, Liangdong
AU - Liao, Julong
AU - Xiao, Pengfeng
AU - Gu, Zhongze
N1 - Publisher Copyright:
© 2018 WILEY-VCH Verlag GmbH & Co. KGaA, Weinheim
PY - 2018/5/29
Y1 - 2018/5/29
N2 - Bioinspired re-entrant structures have been proved to be effective in achieving liquid superrepellence (including anti-penetration, anti-adhesion, and anti-spreading). However, except for a few reports relying on isotropic etching of silicon wafers, most fluorination-dependent surfaces are still unable to repel liquids with extreme low surface energy (i.e., γ < 15 mN m−1), especially those fluorinated solvents. Herein, triply re-entrant structures, possessing superrepellence to water (with surface tension γ of 72.8 mN m−1) and various organic liquids (γ = 12.0–27.1 mN m−1), are fabricated via two-photon polymerization based 3D printing technology. Such structures can be constructed both on rigid and flexible substrates, and the liquid superrepellent properties can be kept even after oxygen plasma treatment. Based on the prepared triply re-entrant structures, micro open capillaries are constructed on them to realize directional liquid spreading, which may be applied in microfluidic platforms and lab-on-a-chip applications. The fabricated arrays can also find potential applications in electronic devices, gas sensors, microchemical/physical reactors, high-throughput biological sensors, and optical displays.
AB - Bioinspired re-entrant structures have been proved to be effective in achieving liquid superrepellence (including anti-penetration, anti-adhesion, and anti-spreading). However, except for a few reports relying on isotropic etching of silicon wafers, most fluorination-dependent surfaces are still unable to repel liquids with extreme low surface energy (i.e., γ < 15 mN m−1), especially those fluorinated solvents. Herein, triply re-entrant structures, possessing superrepellence to water (with surface tension γ of 72.8 mN m−1) and various organic liquids (γ = 12.0–27.1 mN m−1), are fabricated via two-photon polymerization based 3D printing technology. Such structures can be constructed both on rigid and flexible substrates, and the liquid superrepellent properties can be kept even after oxygen plasma treatment. Based on the prepared triply re-entrant structures, micro open capillaries are constructed on them to realize directional liquid spreading, which may be applied in microfluidic platforms and lab-on-a-chip applications. The fabricated arrays can also find potential applications in electronic devices, gas sensors, microchemical/physical reactors, high-throughput biological sensors, and optical displays.
KW - 3D printing
KW - directional flow
KW - superrepellents
KW - triply re-entrant structures
KW - two-photon polymerization
UR - http://www.scopus.com/inward/record.url?scp=85044724556&partnerID=8YFLogxK
U2 - 10.1002/adma.201800103
DO - 10.1002/adma.201800103
M3 - 文章
C2 - 29603422
AN - SCOPUS:85044724556
SN - 0935-9648
VL - 30
JO - Advanced Materials
JF - Advanced Materials
IS - 22
M1 - 1800103
ER -