|Simulation-Guided 3D Nanomanufacturing via Focused Electron Beam Induced Deposition|
JD Fowlkes, R Winkler, BB Lewis, MG Stanford, H Plank, PD Rack
ACS nano 10 (6), 6163-6172, 2016
|Direct-write 3D nanoprinting of plasmonic structures|
R Winkler, FP Schmidt, U Haselmann, JD Fowlkes, BB Lewis, ...
ACS applied materials & interfaces 9 (9), 8233-8240, 2017
|Rapid and Highly Compact Purification for Focused Electron Beam Induced Deposits: A Low Temperature Approach Using Electron Stimulated H2O Reactions|
B Geier, C Gspan, R Winkler, R Schmied, JD Fowlkes, H Fitzek, S Rauch, ...
The Journal of Physical Chemistry C 118 (25), 14009-14016, 2014
|Direct-write of free-form building blocks for artificial magnetic 3D lattices|
L Keller, MKI Al Mamoori, J Pieper, C Gspan, I Stockem, C Schröder, ...
Scientific Reports 8 (1), 1-13, 2018
|3D nanoprinting via focused electron beams|
R Winkler, JD Fowlkes, PD Rack, H Plank
Journal of Applied Physics 125 (21), 210901, 2019
|Focused electron beam-based 3D nanoprinting for scanning probe microscopy: A review|
H Plank, R Winkler, CH Schwalb, J Hütner, JD Fowlkes, PD Rack, I Utke, ...
Micromachines 11 (1), 48, 2019
|High-Fidelity 3D-Nanoprinting via Focused Electron Beams: Computer-Aided Design (3BID)|
JD Fowlkes, R Winkler, BB Lewis, A Fernandez-Pacheco, L Skoric, ...
ACS Applied Nano Materials 1 (3), 1028-1041, 2018
|The nanoscale implications of a molecular gas beam during electron beam induced deposition|
R Winkler, J Fowlkes, A Szkudlarek, I Utke, PD Rack, H Plank
ACS applied materials & interfaces 6 (4), 2987-2995, 2014
|High-Fidelity 3D-Nanoprinting via Focused Electron Beams: Growth Fundamentals|
R Winkler, BB Lewis, JD Fowlkes, PD Rack, H Plank
ACS Applied Nano Materials 1 (3), 1014-1027, 2018
|Impact of electron-beam heating during 3D nanoprinting|
E Mutunga, R Winkler, J Sattelkow, PD Rack, H Plank, JD Fowlkes
ACS nano 13 (5), 5198-5213, 2019
|Magnetic characterization of direct-write free-form building blocks for artificial magnetic 3D lattices|
MKI Al Mamoori, L Keller, J Pieper, S Barth, R Winkler, H Plank, J Müller, ...
Materials 11 (2), 289, 2018
|Tunable 3D nanoresonators for gas‐sensing applications|
G Arnold, R Winkler, M Stermitz, A Orthacker, JH Noh, JD Fowlkes, ...
Advanced Functional Materials 28 (19), 1707387, 2018
|Toward ultraflat surface morphologies during focused electron beam induced nanosynthesis: disruption origins and compensation|
R Winkler, A Szkudlarek, JD Fowlkes, PD Rack, I Utke, H Plank
ACS applied materials & interfaces 7 (5), 3289-3297, 2015
|Focused electron beam induced deposition as a tool to create electron vortices|
A Béché, R Winkler, H Plank, F Hofer, J Verbeeck
Micron 80, 34-38, 2016
|Fundamental edge broadening effects during focused electron beam induced nanosynthesis|
R Schmied, JD Fowlkes, R Winkler, PD Rack, H Plank
Beilstein journal of nanotechnology 6 (1), 462-471, 2015
|Mechanical properties of 3D nanostructures obtained by focused electron/ion beam-induced deposition: A review|
I Utke, J Michler, R Winkler, H Plank
Micromachines 11 (4), 397, 2020
|3D Nanoprinting via laser-assisted electron beam induced deposition: growth kinetics, enhanced purity, and electrical resistivity|
BB Lewis, R Winkler, X Sang, PR Pudasaini, MG Stanford, H Plank, ...
Beilstein journal of nanotechnology 8 (1), 801-812, 2017
|Chemical degradation and morphological instabilities during focused ion beam prototyping of polymers|
A Orthacker, R Schmied, B Chernev, JE Fröch, R Winkler, J Hobisch, ...
Physical Chemistry Chemical Physics 16 (4), 1658-1666, 2014
|Comparing postdeposition reactions of electrons and radicals with Pt nanostructures created by focused electron beam induced deposition|
JA Spencer, M Barclay, MJ Gallagher, R Winkler, I Unlu, YC Wu, H Plank, ...
Beilstein journal of nanotechnology 8 (1), 2410-2424, 2017
|Probing the morphology and evolving dynamics of 3D printed nanostructures using high-speed atomic force microscopy|
C Yang, R Winkler, M Dukic, J Zhao, H Plank, GE Fantner
ACS applied materials & interfaces 9 (29), 24456-24461, 2017