A DNA-based molecular motor that can navigate a network of tracks SFJ Wickham, J Bath, Y Katsuda, M Endo, K Hidaka, H Sugiyama, ... Nature nanotechnology 7 (3), 169-173, 2012 | 397 | 2012 |
Direct observation of stepwise movement of a synthetic molecular transporter SFJ Wickham, M Endo, Y Katsuda, K Hidaka, J Bath, H Sugiyama, ... Nature nanotechnology 6 (3), 166-169, 2011 | 388 | 2011 |
Addressing the instability of DNA nanostructures in tissue culture J Hahn, SFJ Wickham, WM Shih, SD Perrault ACS nano 8 (9), 8765-8775, 2014 | 380 | 2014 |
Routing of individual polymers in designed patterns JB Knudsen, L Liu, AL Bank Kodal, M Madsen, Q Li, J Song, ... Nature nanotechnology 10 (10), 892-898, 2015 | 198 | 2015 |
The chiral structure of porous chitin within the wing-scales of Callophrys rubi GE Schröder-Turk, S Wickham, H Averdunk, F Brink, JDF Gerald, ... Journal of structural biology 174 (2), 290-295, 2011 | 181 | 2011 |
Iridescence from photonic crystals and its suppression in butterfly scales L Poladian, S Wickham, K Lee, MCJ Large Journal of the Royal Society Interface 6 (suppl_2), S233-S242, 2009 | 99 | 2009 |
A programmable DNA origami nanospring that reveals force-induced adjacent binding of myosin VI heads M Iwaki, SF Wickham, K Ikezaki, T Yanagida, WM Shih Nature communications 7 (1), 13715, 2016 | 96 | 2016 |
Exaggeration and suppression of iridescence: the evolution of two-dimensional butterfly structural colours S Wickham, MCJ Large, L Poladian, LS Jermiin Journal of the Royal Society Interface 3 (6), 99-109, 2006 | 72 | 2006 |
Switchable DNA-origami nanostructures that respond to their environment and their applications JK Daljit Singh, MT Luu, A Abbas, SFJ Wickham Biophysical reviews 10 (5), 1283-1293, 2018 | 41 | 2018 |
Complex multicomponent patterns rendered on a 3D DNA-barrel pegboard SFJ Wickham, A Auer, J Min, N Ponnuswamy, JB Woehrstein, F Schueder, ... Nature communications 11 (1), 5768, 2020 | 40 | 2020 |
The fusion of lipid and DNA nanotechnology E Darley, JKD Singh, NA Surace, SFJ Wickham, MAB Baker Genes 10 (12), 1001, 2019 | 28 | 2019 |
Binding of DNA origami to lipids: maximizing yield and switching via strand displacement JKD Singh, E Darley, P Ridone, JP Gaston, A Abbas, SFJ Wickham, ... Nucleic acids research 49 (19), 10835-10850, 2021 | 24 | 2021 |
Insights from nature: Optical biomimetics MCJ Large, S Wickham, J Hayes, L Poladian Physica B: Condensed Matter 394 (2), 229-232, 2007 | 19 | 2007 |
Minimizing cholesterol-induced aggregation of membrane-interacting DNA origami nanostructures JK Daljit Singh, MT Luu, JF Berengut, A Abbas, MAB Baker, SFJ Wickham Membranes 11 (12), 950, 2021 | 10 | 2021 |
Iridescence from photonic crystals and its suppression in butterfly scales. JR Soc. Interface 6 L Poladian, S Wickham, K Lee, MCJ Large S233–S242.(doi: 10.1098/rsif. 2008.0353. focus). Link, ISI, 2009 | 6 | 2009 |
DNA origami: a substrate for the study of molecular motors S Wickham University of Oxford, 2011 | 4 | 2011 |
Control of iridescence in natural photonic structures: The case of butterfly scales S Wickham, L Poladian, MCJ Large, P Vukusic Optical Biomimetics, 147-176e, 2012 | 3 | 2012 |
Exploring Artificial Nucleic Acid Mimicking Peptide Nanofibers SIS Hendrikse, N Todorova, H Soleimaninejad, P Charchar, MA Sani, ... Chemistry of Materials 35 (11), 4355-4365, 2023 | 2 | 2023 |
Plasma Activation of Microplates Optimized for One-Step Reagent-Free Immobilization of DNA and Protein K Coffi Dit Gleize, CTH Tran, A Waterhouse, MMM Bilek, SFJ Wickham Langmuir 39 (1), 343-356, 2022 | 2 | 2022 |
ACS Nano 2014, 8, 8765–8775 J Hahn, SFJ Wickham, WM Shih, SD Perrault of 15, 12, 0 | 2 | |