Giovanni Santagiuliana
Affiliations: | Queen Mary University of London, London, England, United Kingdom |
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| Wan K, Liu Y, Santagiuliana G, et al. (2021) Self-powered ultrasensitive and highly stretchable temperature-strain sensing composite yarns. Materials Horizons. 8: 2513-2519 |
| Meng N, Ren X, Santagiuliana G, et al. (2019) Ultrahigh β-phase content poly(vinylidene fluoride) with relaxor-like ferroelectricity for high energy density capacitors. Nature Communications. 10: 4535 |
| Wan K, Taroni PJ, Liu Z, et al. (2019) Flexible and Stretchable Self‐Powered Multi‐Sensors Based on the N‐Type Thermoelectric Response of Polyurethane/Nax(Ni‐ett)n Composites Advanced Electronic Materials. 5: 1900582 |
| Crespo M, Santagiuliana G, Picot O, et al. (2019) Photo‐Responsive Graphene: A Photoaddressable Liquid Crystalline Phase Transition in Graphene Oxide Nanocomposites (Adv. Funct. Mater. 24/2019) Advanced Functional Materials. 29: 1970165 |
| Crespo M, Santagiuliana G, Picot O, et al. (2019) A Photoaddressable Liquid Crystalline Phase Transition in Graphene Oxide Nanocomposites Advanced Functional Materials. 29: 1900738 |
| Santagiuliana G, Picot OT, Crespo-Ribadeneyra M, et al. (2018) Breaking the Nanoparticle Loading/Dispersion Dichotomy in Polymer Nanocomposites with the Art of Croissant-Making. Acs Nano |
| Taroni PJ, Santagiuliana G, Wan K, et al. (2018) Toward Stretchable Self‐Powered Sensors Based on the Thermoelectric Response of PEDOT:PSS/Polyurethane Blends Advanced Functional Materials. 28: 1704285 |
| Li Y, Zhang H, Crespo-Ribadeneyra M, et al. (2016) In-Situ Exfoliation of Graphene in Epoxy Resins: a Facile Strategy to Efficient and Large Scale Graphene Nanocomposites. Acs Applied Materials & Interfaces |