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Bio-inspired Photonics

Professor Silvia Vignolini

Professor of Chemistry and Bio-materials

Photonic structures in Nature and Bio-mimetic Materials

Research Interests

Photonic structures in nature

Colour in nature is everywhere: animals and plants develop structures on sub-micrometer scale to manipulate light and to obtain brilliant and iridescent colours. This kind of colouration, named structural since it is not obtained using pigmentation, results from various mechanisms, including multilayered materials, crystalline inclusions and surface diffraction gratings. Pollia condensata fruits are one of the most striking examples of  strong iridescent colouration in plants. The colour is caused by Bragg-reflection of helicoidally stacked cellulose microfibrils, which form multilayers in the cell walls of the epicarp. The bright blue colour of this fruit is more intense than that of many previously described biological materials. Uniquely in nature, the reflected colour differs from cell to cell, as the layer thicknesses in the multilayer stack vary, giving the fruit a striking pixelated or ’pointillist’ appearance.

PNAS 109, 15712–15715, (2012)

 

Another striking example is the white of the Cyphochilus beetle which is native to South-East Asia, is whiter than paper, thanks to ultra-thin scales which cover its body. A new investigation of the optical properties of these scales has shown that they are able to scatter light more efficiently than any other biological tissue known, which is how they are able to achieve such a bright whiteness.

Scientific Reports 4, 6075 doi:10.1038/srep06075 (2014)

Funding

  1. BBSRC David Phillips fellowship
  2. Next Generation fellowship
  3. Isaac Newton Trust

Watch Professor Vignolini discuss her research

Take a tour of the Vignolini lab

Selected Publications

[1] Pointillist structural colour in Pollia fruit

S. Vignolini, P. J. Rudall, A. V. Rowland, A. Reed, E. Moyroud, R. B. Faden, J. J. Baumberg, B. J. Glover, U. Steiner; PNAS 109, 15712–15715, (2012). 

[2] Controlled bio-inspired self-assembly of cellulose-based chiral reflectors 

A. G. Dumanli, G. Kamita, J. Landman, H. van der Kooij, B. J. Glover, J. J. Baumberg, U Steiner, S. Vignolini;  Adv. Opt. Mat. DOI: 10.1002/adom.201400112  (2014)
 

[3]Bright-White Beetle scales Optimise Multiple Scattering of Light

M. Burresi, L. Cortese, L. Pattelli, M. Kolle, P.Vukusic, D. Wiersma, U. Steiner, and S.Vignolini; Scientific Reports 4, 6075 doi:10.1038/srep06075 (2014)

 

Publications

Complex photonic response reveals three-dimensional self-organization of structural coloured bacterial colonies.
L Schertel, GT van de Kerkhof, G Jacucci, L Catón, Y Ogawa, BD Wilts, CJ Ingham, S Vignolini, VE Johansen
– Journal of the Royal Society Interface
(2020)
17,
20200196
(doi: 10.1098/rsif.2020.0196)
Hereditary character of photonics structure in Pachyrhynchus sarcitis weevils: colour changes via one generation hybridization
Y Chang, Y Ogawa, G Jacucci, OD Onelli, HY Tseng, S Vignolini
– Advanced Optical Materials
(2020)
8,
2000432
(doi: 10.1002/adom.202000432)
Disordered wax platelets on Tradescantia pallida leaves create golden shine
GT van de Kerkhof, L Schertel, R Poon, G Jacucci, B Glover, S Vignolini
– Faraday Discussions
(2020)
223,
207
(doi: 10.1039/D0FD00024H)
Plant-Inspired Polyaleuritate-Nanocellulose Composite Photonic Films
JA Heredia-Guerrero, CA Williams, G Guidetti, P Cataldi, L Ceseracciu, D Debellis, A Athanassiou, S Guzman-Puyol, WY Hamad, S Vignolini
– ACS Applied Polymer Materials
(2020)
2,
1528
(doi: 10.1021/acsapm.9b01205)
Bionic 3D printed corals
D Wangpraseurt, S You, F Azam, G Jacucci, O Gaidarenko, M Hildebrand, M Kühl, AG Smith, MP Davey, A Smith, DD Deheyn, S Chen, S Vignolini
– Nature communications
(2020)
11,
1748
(doi: 10.1038/s41467-020-15486-4)
Retrieving the Coassembly Pathway of Composite Cellulose Nanocrystal Photonic Films from their Angular Optical Response
B Frka-Petesic, JA Kelly, G Jacucci, G Guidetti, G Kamita, NP Crossette, WY Hamad, MJ MacLachlan, S Vignolini
– Adv Mater
(2020)
32,
e1906889
(doi: 10.1002/adma.201906889)
Cellulose Nanocrystal-Templated Tin Dioxide Thin Films for Gas Sensing.
A Ivanova, B Frka-Petesic, A Paul, T Wagner, AN Jumabekov, Y Vilk, J Weber, J Schmedt Auf der Günne, S Vignolini, M Tiemann, D Fattakhova-Rohlfing, T Bein
– ACS Applied Materials & Interfaces
(2020)
12,
12639
(doi: 10.1021/acsami.9b11891)
Nanotechnology in a shrimp eye's view
L Schertel, S Vignolini
– Nat Nanotechnol
(2020)
15,
87
(doi: 10.1038/s41565-020-0645-1)
Optics and photonics in nature: general discussion.
H Arwin, P Barla, AJ Blake, A Borsuk, M Brien, S Burg, Y Chang, P Freyer, M Hardy, A Holt, A Kallepalli, GT van de Kerkhof, M Kolle, C Kuttner, M Ladouce, A Matt, SR Mouchet, NJ Nadeau, D Osorio, A Parnell, P Pirih, A Prakash, G Rosetta, L Schertel, D Skigin, D Stavenga, S Vignolini, P Vukusic, M Xiao
– Faraday Discussions
(2020)
223,
107
(doi: 10.1039/d0fd90013c)
The role of structure: order vs. disorder in bio-photonic systems: general discussion.
E Bermudez Ureña, Y Chang, H Clark, B Datta, Á Escobar, M Hardy, H Hölscher, A Holt, G Isapour, M Kolle, C Kuttner, V Lloyd, A Matt, A McDougal, SR Mouchet, L Ospina, A Parnell, TG Parton, P Pirih, A Qiu, L Schertel, GT van de Kerkhof, S Vignolini, W Wardley, D Wiersma
– Faraday Discussions
(2020)
223,
233
(doi: 10.1039/d0fd90015j)
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Head of group

Telephone number

01223 761490 (shared)

Email address

College

Jesus College

Research Interests

Study at Cambridge

About the University

Research at Cambridge