Journal article Open Access

Climbing Plant‐Inspired Micropatterned Devices for Reversible Attachment

Fiorello, Isabella; Tricinci, Omar; Naselli, Giovanna A.; Mondini, Alessio; Filippeschi, Carlo; Tramacere, Francesca; Mishra, Anand K.; Mazzolai, Barbara


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{
  "DOI": "10.1002/adfm.202003380", 
  "author": [
    {
      "family": "Fiorello, Isabella"
    }, 
    {
      "family": "Tricinci, Omar"
    }, 
    {
      "family": "Naselli, Giovanna A."
    }, 
    {
      "family": "Mondini, Alessio"
    }, 
    {
      "family": "Filippeschi, Carlo"
    }, 
    {
      "family": "Tramacere, Francesca"
    }, 
    {
      "family": "Mishra, Anand K."
    }, 
    {
      "family": "Mazzolai, Barbara"
    }
  ], 
  "issued": {
    "date-parts": [
      [
        2020, 
        7, 
        21
      ]
    ]
  }, 
  "abstract": "<p>Climbing plants have evolved over millions of years and have adapted to unpredictable scenarios in unique ways. These crucial features make plants an outstanding biological model for scientists and engineers. Inspired by the ratchet\u2010like attachment mechanism of the hook\u2010climber&nbsp;<em>Galium aparine</em>, a novel micropatterned flexible mechanical interlocker is fabricated using a 3D direct laser lithography technique. The artificial hooks are designed based on a morphometric analysis of natural hooks. They are characterized in terms of pull\u2010off and shear forces, both in an array and as individual hooks. The microprinted hooks array shows high values of pull\u2010off forces (up to&nbsp;<em>F</em><sub>&perp;</sub>&nbsp;&asymp; 0.4 N cm<sup>&minus;2</sup>) and shear forces (up to&nbsp;<em>F<sub>//</sub></em>&nbsp;&asymp; 13.8 N cm<sup>&minus;2</sup>) on several rough surfaces (i.e., abrasive materials, fabrics, and artificial skin tissues). The contact separation forces of individual artificial hooks are estimated when loads with different orientations are applied (up to&nbsp;<em>F</em>&nbsp;&asymp; 0.26 N). In addition, a patterned tape with directional microhooks is integrated into a mobile platform to demonstrate its climbing ability on inclined surfaces of up to 45&deg;. This research opens up new opportunities for prototyping the next generation of mechanical interlockers, particularly for soft\u2010 and microrobotics, the textile industry, and biomedical fields.</p>", 
  "title": "Climbing Plant\u2010Inspired Micropatterned Devices for Reversible Attachment", 
  "type": "article-journal", 
  "id": "3989424"
}
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