| 225 - 225 |
Bio-inspired adhesion
Ghatak A |
| 226 - 239 |
An accordion model integrating self-cleaning, strong attachment and easy detachment functionalities of gecko adhesion
Zhang T, Zhang ZQ, Kim KS, Gao HJ |
| 240 - 255 |
Advances in the computational modeling of the gecko adhesion mechanism
Sauer RA |
| 256 - 272 |
Asymmetric spatula heads combined with lateral forces provide a mechanism for controlling the adhesive attachment of a range of spider species
Keane PN, Hovgaard MB, Mostaert AS, Jarvis SP |
| 273 - 289 |
Beetle-inspired adhesion by capillary-bridge arrays: pull-off detachment
Slater DM, Vogel MJ, Macner AM, Steen PH |
| 290 - 319 |
Inspiration from the natural world: from bio-adhesives to bio-inspired adhesives
Favi PM, Yi SJ, Lenaghan SC, Xia LJ, Zhang MJ |
| 320 - 336 |
Determining adhesion of nonuniform arrays of fibrils
Zhang C, Zhou JHW, Sameoto D, Zhang X, Li Y, Ng HW, Menon C, Gates BD |
| 337 - 353 |
Robust large-area synthetic dry adhesives
Sameoto D, Ferguson B |
| 354 - 366 |
Nonangled anisotropic elastomeric dry adhesives with tailorable normal adhesion strength and high directionality
Sameoto D, Sharif H, Tellez JPD, Ferguson B, Menon C |
| 367 - 386 |
Janus-faced micro and nanopillars for geometry and surface chemistry controllable bioinspired dry adhesives
Rahmawan Y, Yoon H, Moon MW, Jeong HG, Suh KY |
| 387 - 398 |
Two-photon polymerization/micromolding of microscale barbs for medical applications
Boehm RD, Chen B, Gittard SD, Chichkov BN, Monteiro-Riviere NA, Nasir A, Narayan RJ |
| 399 - 416 |
Study on the role of polyethylenimine as gene delivery carrier using molecular dynamics simulations
Sun CB, Tang T |
