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Andrew G. Gillies
Researcher at University of California, Berkeley
Publications - 16
Citations - 2350
Andrew G. Gillies is an academic researcher from University of California, Berkeley. The author has contributed to research in topics: Nanotube & Adhesion. The author has an hindex of 11, co-authored 16 publications receiving 2128 citations. Previous affiliations of Andrew G. Gillies include Lawrence Berkeley National Laboratory.
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Journal ArticleDOI
Nanowire active-matrix circuitry for low-voltage macroscale artificial skin
Kuniharu Takei,Toshitake Takahashi,Toshitake Takahashi,Johnny C. Ho,Johnny C. Ho,Hyunhyub Ko,Andrew G. Gillies,Paul W. Leu,Paul W. Leu,Ronald S. Fearing,Ali Javey,Ali Javey +11 more
TL;DR: This work presents the largest integration of ordered NW-array active components, and demonstrates a model platform for future integration of nanomaterials for practical applications.
Journal ArticleDOI
Optically- and thermally-responsive programmable materials based on carbon nanotube-hydrogel polymer composites
Xiaobo Zhang,Xiaobo Zhang,Cary L. Pint,Cary L. Pint,Min Hyung Lee,Min Hyung Lee,Bryan Edward Schubert,Bryan Edward Schubert,Arash Jamshidi,Arash Jamshidi,Kuniharu Takei,Kuniharu Takei,Hyunhyub Ko,Hyunhyub Ko,Andrew G. Gillies,Andrew G. Gillies,Rizia Bardhan,Rizia Bardhan,Jeffrey J. Urban,Jeffrey J. Urban,Ming C. Wu,Ming C. Wu,Ronald S. Fearing,Ronald S. Fearing,Ali Javey,Ali Javey +25 more
TL;DR: The work opens the framework to design complex and programmable self-folding materials, such as cubes and flowers, with advanced built-in features, including tunable response time as determined by the nanotube loading.
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Carbon Nanotube Active-Matrix Backplanes for Conformal Electronics and Sensors
TL;DR: A promising approach for fabricating large-scale flexible and stretchable electronics using a semiconductor-enriched carbon nanotube solution using a pressure sensitive rubber as the sensor element is reported.
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Controllable Particle Adhesion with a Magnetically Actuated Synthetic Gecko Adhesive
TL;DR: In this article, controllable adhesion to glass spheres with a new magnetically actuated synthetic gecko adhesive made from a magnetoelastomer composite is demonstrated, which can change the effective elastic modulus of the surface through actuation of micro surface features with an external magnetic field.
Journal ArticleDOI
Gecko toe and lamellar shear adhesion on macroscopic, engineered rough surfaces.
Andrew G. Gillies,Amy K. Henry,Hauwen Lin,Angela Ren,Kevin Shiuan,Ronald S. Fearing,Robert J. Full +6 more
TL;DR: The mechanics of the toes and lamellae are sought by examining gecko adhesion on controlled, macroscopically rough surfaces and it is discovered that the toes are capable of adhering to surfaces with amplitudes much larger than their dimensions even without engaging claws, maintaining 60% of shear adhesion over the range tested.