Andrey Turchanin
Andrey Turchanin
Professor of Physical Chemistry, Friedrich Schiller University Jena, Germany
Verified email at uni-jena.de - Homepage
Title
Cited by
Cited by
Year
Three‐dimensional nitrogen and boron co‐doped graphene for high‐performance all‐solid‐state supercapacitors
ZS Wu, A Winter, L Chen, Y Sun, A Turchanin, X Feng, K Müllen
Advanced Materials 24 (37), 5130-5135, 2012
11152012
Nitrogen-doped graphene and its iron-based composite as efficient electrocatalysts for oxygen reduction reaction
K Parvez, S Yang, Y Hernandez, A Winter, A Turchanin, X Feng, ...
ACS nano 6 (11), 9541-9550, 2012
5402012
Layer‐by‐layer assembled heteroatom‐doped graphene films with ultrahigh volumetric capacitance and rate capability for micro‐supercapacitors
ZS Wu, K Parvez, A Winter, H Vieker, X Liu, S Han, A Turchanin, X Feng, ...
Advanced Materials 26 (26), 4552-4558, 2014
2502014
One nanometer thin carbon nanosheets with tunable conductivity and stiffness
A Turchanin, A Beyer, CT Nottbohm, X Zhang, R Stosch, A Sologubenko, ...
Advanced Materials 21 (12), 1233-1237, 2009
2162009
Molecular mechanisms of electron-induced cross-linking in aromatic SAMs
A Turchanin, D Käfer, M El-Desawy, C Wöll, G Witte, A Gölzhäuser
Langmuir 25 (13), 7342-7352, 2009
1232009
A universal scheme to convert aromatic molecular monolayers into functional carbon nanomembranes
P Angelova, H Vieker, NE Weber, D Matei, O Reimer, I Meier, S Kurasch, ...
ACS nano 7 (8), 6489-6497, 2013
1212013
Conversion of self-assembled monolayers into nanocrystalline graphene: structure and electric transport
A Turchanin, D Weber, M Büenfeld, C Kisielowski, MV Fistul, KB Efetov, ...
ACS nano 5 (5), 3896-3904, 2011
1082011
Extreme ultraviolet interference lithography at the Paul Scherrer Institut
V Auzelyte, C Dais, P Farquet, DA Gruetzmacher, LJ Heyderman, F Luo, ...
Journal of Micro/Nanolithography, MEMS, and MOEMS 8 (2), 021204, 2009
1042009
Carbon nanomembranes from self-assembled monolayers: Functional surfaces without bulk
A Turchanin, A Gölzhäuser
Progress in surface science 87 (5-8), 108-162, 2012
1002012
On the Release of Hydrogen from the S− H groups in the Formation of Self-Assembled Monolayers of Thiols
L Kankate, A Turchanin, A Gölzhäuser
Langmuir 25 (18), 10435-10438, 2009
992009
Molecular self‐assembly, chemical lithography, and biochemical tweezers: a path for the fabrication of functional nanometer‐scale protein arrays
A Turchanin, A Tinazli, M El‐Desawy, H Großmann, M Schnietz, HH Solak, ...
Advanced Materials 20 (3), 471-477, 2008
972008
Fabrication of Molecular Nanotemplates in Self‐Assembled Monolayers by Extreme‐Ultraviolet‐Induced Chemical Lithography
A Turchanin, M Schnietz, M El‐Desawy, HH Solak, C David, A Gölzhäuser
Small 3 (12), 2114-2119, 2007
962007
Janus nanomembranes: a generic platform for chemistry in two dimensions
Z Zheng, CT Nottbohm, A Turchanin, H Muzik, A Beyer, M Heilemann, ...
Angewandte Chemie International Edition 49 (45), 8493-8497, 2010
822010
Carbon nanomembranes
A Turchanin, A Gölzhäuser
Advanced Materials 28 (29), 6075-6103, 2016
802016
High thermal stability of cross-linked aromatic self-assembled monolayers: Nanopatterning via selective thermal desorption
A Turchanin, M El-Desawy, A Gölzhäuser
Applied physics letters 90 (5), 053102, 2007
722007
Functional Single‐Layer Graphene Sheets from Aromatic Monolayers
DG Matei, NE Weber, S Kurasch, S Wundrack, M Woszczyna, M Grothe, ...
Advanced Materials 25 (30), 4146-4151, 2013
672013
Dry-cleaning of graphene
G Algara-Siller, O Lehtinen, A Turchanin, U Kaiser
Applied Physics Letters 104 (15), 153115, 2014
602014
Mechanically Stacked 1‐nm‐Thick Carbon Nanosheets: Ultrathin Layered Materials with Tunable Optical, Chemical, and Electrical Properties
CT Nottbohm, A Turchanin, A Beyer, R Stosch, A Gölzhäuser
Small 7 (7), 874-883, 2011
572011
Cooperative self-assembly of discoid dimers: hierarchical formation of nanostructures with a pH switch
MT Fenske, W Meyer-Zaika, HG Korth, H Vieker, A Turchanin, C Schmuck
Journal of the American Chemical Society 135 (22), 8342-8349, 2013
552013
Chemically Functionalized Carbon Nanosieves with 1‐nm Thickness
M Schnietz, A Turchanin, CT Nottbohm, A Beyer, HH Solak, P Hinze, ...
Small 5 (23), 2651-2655, 2009
482009
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