Publications

(12) Surface Wrinkling and Porosity of Polymer Particles toward Biological and Biomedical Applications

Nikunjkumar R. Visaveliya, Christopher W. Leishman, Kara Ng, Nicolas Yehya, Nelson Tobar, Dorthe M. Eisele and Johann Michael Köhler.
Advanced Materials Interfaces. (2017) DOI: 10.1002/admi.201700929.

(11) Room-Temperature Micron-Scale Exciton Migration in a Stabilized Emmisive Molecular Aggregate

Justin R. Caram, Sandra Doria, Dorthe M. Eisele, Francesca S. Freyria, Timothy S. Sinclair, Patrick Rebentrost, Seth Lloyd, and Moungi G. Bawendi.
Nano Lett. 16 (2016) 6808-6815.

(10) Quantum Effects in Biology
Edited by Mohesi, M., Omar, Y., Engel, G., Plenio, M.B.
“Structured Chromophoric Aggregates” in Chapter 16: Bio-inspired quantum materials”
Sarovar, M., Eisele, D.M., Mohseni, M., Whaley, B.
University Press, Cambridge, 2014.

(9)Robust Excitons in Soft Supramolecular Nanotubes

Eisele, D.M., Arias, D.H., Fu, X., Bloemsma, Steiner, C.P., Jensen, R., Rebentrost, P., Eisele, H., Llyod, S., Tokmakoff, A., Knoester, J., Nicastro, D., Nelson, K.A., & Bawendi, M.G.
PNAS 111 (2014) E3367-E3375.

(8) “Coherent exciton dynamics in supramolecular light-harvesting nanotubes revealed by ultrafast quantum process tomography

Yuen-Zhou, J., Arias, D.H., Eisele, D.M., Steiner, C.P., Krich, J.J., Bawendi, M.G., Nelson, K.A., and Aspuru-Guzik A.
ACS NANO 8 (2014) 5527-5534.

(7) “Utilizing Redox-Chemistry to Elucidate the Nature of Exciton Transitions in Supramolecular Dye Nanotubes

Eisele, D.M., Cone, C.W., Bloemsma, E.A., Vlaming, C.G.F. van der Kwaak, S.M., Silbey, R.J., Bawendi, M.G., Knoester, J., Rabe, J.P., and Vanden Bout, D.A.
Nature Chem. 4, (2012) 655–662.

=> Article highlighted in Nature Chemistry’s ‘News and Views’:
by Jürgen Köhler “Supramolecular dye aggregates: Nanotube knockout”,
Nature Chem. 4, 598–600 (2012)

(6)  “Singular Value Decomposition Analysis of Spectroelectrochemical Redox Chemistry in Supramolecular Dye Nanotubes

Cone, C.W., Cho, S., Lyon, J.L., Eisele, D.M., Rabe, J.P., Stevenson, K.J., Rossky, P.J., Vanden Bout, D.A.:
J. Phys. Chem. C 115, (2011) 14978-14987.

(5) “Photoinduced growth of sub-7 nm silver nanowires within a chemically active organic nanotibular template

Eisele, D.M., v. Berlepsch, H., Böttcher, C., Stevenson, K.J., Vanden Bout, D.A., Kirstein, S., and Rabe, J.P.:
JACS 132, (2010) 2104-2105.

(4) “Graphene-based optically transparent electrodes for spectroelectrochemistry in the UV-Vis Region

Weber, C.M., Eisele, D.M., Rabe, J.P., Liang, Y., Feng, X., Zhi, L, Müllen, K., Lyon, J.L., Williams, R., Vanden Bout, D.A., and Stevenson, K.J.:
Small 6, (2010) 184-189.

(3) “UV-vis Spectroscopy and cyclic voltammetry investigations of tubular J-aggregates of amphphilic cyanine dyes

Lyon, J.L., Eisele, D.M., Kirstein, S., Rabe, J.P., Vanden Bout, D.A., and Stevenson, K.J.:
ECS Transactions 16, (2009) 77-84.

(2) “Uniform exciton fluorescence from individual molecular nanotubes immobilized on solid Substrates

Eisele, D.M., Knoester, J., Kirstein, S., Rabe, J.P., and Vanden Bout, D.A.:
Nature Nanotech. 4, (2009) 658-663.

=> Cover Article on Nature Nanotechnology Journal

(1) “Spectroelectrochemical Investigation of Double-Walled Tubular J-Aggregates of Amphiphilic Cyanine Dyes

Lyon, J.L., Eisele, D.M., Kirstein, S., Rabe, J.P., Vanden Bout, D.A., and Stevenson, K.J.:
J. Phys. Chem. C 112, (2008) 1260-1268.