Volume 5 Issue 4
Aug.  2012
Turn off MathJax
Article Contents
MENG Xiang, YANG Rui-zhu, LIU Dong-xu, SUN Yun-lu, ZHANG Shi-ming, XU Ying, DONG Wen-fei. Formation and adjustment of cycle pattern of UV-curable polymeric hydrogel[J]. Chinese Optics, 2012, 5(4): 436-443. doi: 10.3788/CO.20120504.0436
Citation: MENG Xiang, YANG Rui-zhu, LIU Dong-xu, SUN Yun-lu, ZHANG Shi-ming, XU Ying, DONG Wen-fei. Formation and adjustment of cycle pattern of UV-curable polymeric hydrogel[J]. Chinese Optics, 2012, 5(4): 436-443. doi: 10.3788/CO.20120504.0436

Formation and adjustment of cycle pattern of UV-curable polymeric hydrogel

doi: 10.3788/CO.20120504.0436
  • Received Date: 12 Mar 2012
  • Rev Recd Date: 15 May 2012
  • Publish Date: 10 Aug 2012
  • A long-range order wrinkle pattern is fabricated based on Polymerized Poly(Ethylene Glycol)-Diacrylate(PEGDA). The formation mechanism and adjustment method are studied. The large scale of cycle pattern array occurs in the surface of polymeric hydrogel according to adjusting the optical interaction processing parameters. The dimension of the pattern can be adjusted from 101-103 m and the area of whole pattern can be an order of magnitude in millimetre or centimetre. It demonstrates that the unique performance is from the competition of the bending of skin and the compressing of bulk in the PEGDA hydrogel film.

     

  • loading
  • [1] THORSEN T,ROBERTS R W,ARNOLD F H,et al.. Dynamic pattern formation in a vesicle-generating microfluidic device[J]. Phys. Rev. Lett.,2001,86(18):4163-4166. [2] KHARE K,ZHOU J,YANG S,et al.. Tunable open-channel microfluidics on soft Poly(dimethylsiloxane)(PDMS) substrates with sinusoidal grooves[J]. Langmuir,2009,25(21):12794-12799. [3] CHAN E P,CROSBY A J. Fabricating microlens arrays by surface wrinkling[J]. Adv. Materials,2006,18(24):3238-3242. [4] CHANDRA D,YANG S,LIN P C. Strain responsive concave and convex microlens arrays[J]. Appl. Phys. Lett.,2007,91(25):251912-3. [5] SUN Y L,DONG W F,YANG R ZH,et al.. Dynamically tunable protein microlenses[J]. Angewandte Chemie,2012,124(7):1590-1594. [6] WU D,WANG J N,WU S ZH,et al.. Three-level biomimetic rice-leaf surfaces with controllable anisotropic sliding[J]. Adv. Functional Materials,2011,21(15):2927-2932. [7] YANG S,CHEN G,MEGENS M,et al.. Functional biomimetic microlens arrays with integrated pores[J]. Adv. Materials,2005,17(4):435-438. [8] SCHWEIKART A,ZIMIN D,HANDGE U A,et al.. Fabrication of artificial petal sculptures by replication of sub-micron surface wrinkles[J]. Macromolecular Chemistry and Physics,2010,211(2):259-264. [9] ZHANG SH M,XIE G H,XUE Q,et al.. All fluorescent and high color rendering index white organic light-emitting devices with improved color stability at high brightness[J]. Thin Solid Films,2012,520(7):2966-2970. [10] 花景田,陈宝玖,孙佳石,等. 稀土掺杂材料的上转换发光[J]. 中国光学与应用光学 ,2010(4):301-309. HUA J T,CHEN B J,SUN J SH,et al.. Introduction to up conversion luminescence of rare earth doped materials[J]. Chinese J. Opt. Appl. Opt.,2010(04):301-309.(in Chinese) [11] CHENG Y. Progress in display technologies and their applications[J]. Chinese J. Opt. Appl. Opt.,2010(1):27-32. [12] WU D,ZHAO Y B,WU S ZH,et al.. Simultaneous efficiency enhancement and self-cleaning effect of white organic light-emitting devices by flexible antireflective films[J]. Opt. Lett.,2011,36(14):2635-2637. [13] HYUN D C,PARK M,PARK C,et al.. Ordered zigzag stripes of polymer gel/metal nanoparticle composites for highly stretchable conductive electrodes[J]. Adv. Materials,2011,23(26):2946-2950. [14] HYUN D C,PARK M,PARK C,et al.. Ordered zigzag stripes of polymer gel/metal nanoparticle composites for highly stretchable conductive electrodes[J]. Adv. Materials,2011,23(26):2946-2950. [15] BUKOWSKY C,TORRES J M,VOGT B D. Slip-stick wetting and large contact angle hysteresis on wrinkled surfaces[J]. J. Colloid and Interface Science,2011,354(2): 825-831. [16] SCHWEIKART A,HORN A,BOKER A,et al.. Controlled wrinkling as a novel method for the fabrication of patterned surfaces[J]. Adv. Polymer Science,2010,227(2010):75-99. [17] GUVENDIREN M,BURDICK J A. The control of stem cell morphology and differentiation by hydrogel surface wrinkles[J]. Biomaterials,2010,31(25):6511-6518. [18] MEI Y,KIRAVITTAYA S,HARAZIM S,et al.. Principles and applications of micro and nanoscale wrinkles[J]. Materials Science and Eng.,2010,70(3-6):209-224. [19] JANA N R,GEARHEART J,MURPHY C J. Seed-mediated growth approach for shape-controlled synthesis of spheroidal and rod-like gold nanoparticles using a surfactant template[J]. Adv. Materials,2001,13(18):1389-1393. [20] DDOYCHEVA M,PETROVA E,STAMENOVA R,et al.. UV-Induced cross-linking of poly(ethylene oxide) in aqueous solution[J]. Macromolecular Materials and Eng.,2004,289(7):676-680. [21] DECKER C,JENKINS A D. Kinetic approach of oxygen inhibition in ultraviolet- and laser-induced polymerizations[J]. Macromolecules,1985,18(6):1241-1244. [22] O'BRIEN A K,BOWMAN C. Impact of Oxygen on Photopolymerization kinetics and polymer structure[J]. Macromolecules,2006,39(7):2501-2506. [23] GUVENDIREN M,YANG S,BURDICK J A. Swelling-induced surface patterns in hydrogels with gradient crosslinking density[J]. Advanced Functional Materials,2009,19(19):3038-3045. [24] CHANDRA D,CROSBY A J. Self-Wrinkling of UV-cured polymer film[J]. Adv. Materials,2011,23(30):3441-3445. [25] JIANG C,SINGAMANENI S,MERRICK E,et al.. 28 Complex buckling instability patterns of nanomembranes with encapsulated gold nanoparticle arrays[J]. Nano Lett.,2006,6(10):2254-2259. [26] TANAKA T,SUN S T,HIROKAWA Y,et al.. Mechanical instability of gels at the phase transition[J]. Nature,1987,325(6107):796-798.
  • 加载中

Catalog

    通讯作者: 陈斌, bchen63@163.com
    • 1. 

      沈阳化工大学材料科学与工程学院 沈阳 110142

    1. 本站搜索
    2. 百度学术搜索
    3. 万方数据库搜索
    4. CNKI搜索
    Article views(3054) PDF downloads(866) Cited by()
    Proportional views

    /

    DownLoad:  Full-Size Img  PowerPoint
    Return
    Return