Silvia Vignolini
Silvia Vignolini
University of Cambridge, Department of Chemistry
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Cited by
Cited by
Pointillist structural color in Pollia fruit
S Vignolini, PJ Rudall, AV Rowland, A Reed, E Moyroud, RB Faden, ...
Proceedings of the National Academy of Sciences 109 (39), 15712-15715, 2012
The self‐assembly of cellulose nanocrystals: Hierarchical design of visual appearance
RM Parker, G Guidetti, CA Williams, T Zhao, A Narkevicius, S Vignolini, ...
Advanced Materials 30 (19), 1704477, 2018
Biomimetic layer-by-layer assembly of artificial nacre
A Finnemore, P Cunha, T Shean, S Vignolini, S Guldin, M Oyen, U Steiner
Nature communications 3 (1), 966, 2012
Block copolymer self-assembly for nanophotonics
M Stefik, S Guldin, S Vignolini, U Wiesner, U Steiner
Chemical Society Reviews 44 (15), 5076-5091, 2015
A 3D optical metamaterial made by self‐assembly
S Vignolini, NA Yufa, PS Cunha, S Guldin, I Rushkin, M Stefik, K Hur, ...
Advanced Materials 24 (10), OP23-OP27, 2012
Digital color in cellulose nanocrystal films
AG Dumanli, HM Van Der Kooij, G Kamita, E Reisner, JJ Baumberg, ...
ACS applied materials & interfaces 6 (15), 12302-12306, 2014
Optical properties of gyroid structured materials: from photonic crystals to metamaterials
JA Dolan, BD Wilts, S Vignolini, JJ Baumberg, U Steiner, TD Wilkinson
Advanced Optical Materials 3 (1), 12-32, 2015
Flexible photonic cellulose nanocrystal films
MG Guidetti, S Atifi, S Vignolini, WY Hamad
Advanced materials (Deerfield Beach, Fla.) 28 (45), 10042, 2016
Bright-white beetle scales optimise multiple scattering of light
M Burresi, L Cortese, L Pattelli, M Kolle, P Vukusic, DS Wiersma, ...
Scientific reports 4 (1), 6075, 2014
Controlled, bio‐inspired self‐assembly of cellulose‐based chiral reflectors
AG Dumanli, G Kamita, J Landman, H van der Kooij, BJ Glover, ...
Advanced optical materials 2 (7), 646-650, 2014
Analysing photonic structures in plants
S Vignolini, E Moyroud, BJ Glover, U Steiner
Journal of the Royal Society Interface 10 (87), 20130394, 2013
Hierarchical self-assembly of cellulose nanocrystals in a confined geometry
RM Parker, B Frka-Petesic, G Guidetti, G Kamita, G Consani, C Abell, ...
ACS nano 10 (9), 8443-8449, 2016
Controlling the photonic properties of cholesteric cellulose nanocrystal films with magnets
B Frka‐Petesic, G Guidetti, G Kamita, S Vignolini
Advanced Materials 29 (32), 1701469, 2017
Hierarchically structured bioinspired nanocomposites
D Nepal, S Kang, KM Adstedt, K Kanhaiya, MR Bockstaller, LC Brinson, ...
Nature materials 22 (1), 18-35, 2023
Large-scale fabrication of structurally coloured cellulose nanocrystal films and effect pigments
BE Droguet, HL Liang, B Frka-Petesic, RM Parker, MFL De Volder, ...
Nature materials 21 (3), 352-358, 2022
A heterogeneous microbial consortium producing short-chain fatty acids from lignocellulose
RL Shahab, S Brethauer, MP Davey, AG Smith, S Vignolini, ...
Science 369 (6507), eabb1214, 2020
Scalable electrochromic nanopixels using plasmonics
J Peng, HH Jeong, Q Lin, S Cormier, HL Liang, MFL De Volder, ...
Science advances 5 (5), eaaw2205, 2019
Hierarchical Photonic Pigments via the Confined Self-Assembly of Bottlebrush Block Copolymers
DP Song, TH Zhao, G Guidetti, S Vignolini, RM Parker
ACS nano 13 (2), 1764-1771, 2019
Rewritable photonic circuits
F Intonti, S Vignolini, V Türck, M Colocci, P Bettotti, L Pavesi, ...
Applied physics letters 89 (21), 2006
Disorder in convergent floral nanostructures enhances signalling to bees
E Moyroud, T Wenzel, R Middleton, PJ Rudall, H Banks, A Reed, ...
Nature 550 (7677), 469-474, 2017
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