@misc{biener_macroscopic_3d_2012, 
author={Biener, J., Dasgupta, S., Shao, L., Wang, D., Worsley, M.A., Wittstock, A., Lee, J.R.I., Biener, M.M., Orme, C.A., Kucheyev, S.O., Wood, B.C., WilleyT.M., Hamza, A.V., Weissmueller, J., Hahn, H., Baumann, T.F.},
title={Macroscopic 3D Nanographene with Dynamically Tunable Bulk Properties},
year={2012},
howpublished = {journal article},
doi = {https://doi.org/10.1002/adma.201202289},
abstract = {Polymer-derived, monolithic three-dimensional nanographene (3D-NG) bulk material with tunable properties is produced by a simple and inexpensive approach. The material is mass-producible, and combines chemical inertness and mechanical strength with a hierarchical porous architecture and a graphene-like surface area. This provides an opportunity to dynamically control its electron transport and mechanical properties by means of electrochemical-induced interfacial electric fields.},
note = {Online available at: \url{https://doi.org/10.1002/adma.201202289} (DOI). Biener, J.; Dasgupta, S.; Shao, L.; Wang, D.; Worsley, M.; Wittstock, A.; Lee, J.; Biener, M.; Orme, C.; Kucheyev, S.; Wood, B.; WilleyT.M.; Hamza, A.; Weissmueller, J.; Hahn, H.; Baumann, T.: Macroscopic 3D Nanographene with Dynamically Tunable Bulk Properties. Advanced Materials. 2012. vol. 24, no. 37, 5083-5087. DOI: 10.1002/adma.201202289}}