Publications 2019
Representation of the molecular packing of the synthesised molecules.
Image: MDPI: MoleculesOPEN ACCESS
A. Winter, P. Endres, E. Schröter, M. Jäger, H. Görls, C. Neumann, A. Turchanin, U.S. Schubert
Towards covalent photosensitizer-polyoxometalate dyads – bipyridyl-functionalized polyoxometalates and their transition metal complexes.
MOLECULES 2019 24, 4446
DOI: 10.3390/molecules24244446External link
Graphene-protected Cu SPR biosensor with its ellipsometric parameters shown in c) and d).
Image: Springer Nature: Scientific ReportsOPEN ACCESS
F. Wu, P. A. Thomas, V. G. Kravets, H. O. Arola, M. Soikkeli, K. Iljin, G. Kim, M. Kim, H. S. Shin, D. V. Andreeva, C. Neumann, M. Küllmer, A. Turchanin, D. de Fazio, O. Balci, V. Babenko, B. Luo, I. Goykhman, S. Hofmann, A. C. Ferrari, K. S. Novoselov, A. N. Grigorenko
Layered material platform for surface plasmon resonance biosensing.
SCIENTIFIC REPORTS 2019 9, 20286
DOI: 10.1038/s41598-019-56105-7External link
Schematic representation showing the excitation of the patterned MoS2, as well as the procedure of nanopattering of the devices
Image: The Optical Society: Optics ExpressOPEN ACCESS
F. J. F. Löchner, R. Mupparapu, M. Steinert, A. George, Z. Tang, A. Turchanin, T. Pertsch, I. Staude, F. Setzpfandt
Controlling second-harmonic diffraction by nano-patterning MoS2 monolayers.
OPTICS EXPRESS 2019 27, 35475-35484
DOI: 10.1364/OE.27.035475External link
Schematic procedure used to fabricate free-standing BPT-CNM
Image: ACS Publications: ACS Applied Materials & InterfacesP. van Deursen, Z. Tang, A. Winter, M. Mohn, U. Kaiser, A. Turchanin, G. Schneider
Selective ion sieving through arrays of sub-nanometer nanopores in chemically tunable 2D carbon membranes.
NANOSCALE 2019 11, 20785
DOI: 10.1039/C9NR05537AExternal link
Schematic fabrication route of the CNMs prepared from SAMs
Image: ACS Publications: ACS Applied Materials & InterfacesC. Neumann, M. Szwed, M. Frey, Z. Tang, K. Koziel, P. Cyganik, A. Turchanin
Preparation of carbon nanomembranes without chemically active groups.
ACS APPLIED MATERIALS & INTERFACES 2019 11, 31176-31181
DOI: 10.1021/acsami.9b09603External link
Picture of the flood gun used in this working group.
Image: Ingenta: ChimiaOPEN ACCESS
A. Turchanin
Synthesis of molecular 2D materials via low-energy electron induced chemical reactions.
CHIMIA 2019 73, 473-479
DOI: 10.2533/chimia.2019.473External link
Morphology and chemical structure of conjugated acetylenic polymers on commercial Cu foam.
Image: Wiley-VCH: Angewandte Chemie International EditionH. Sun, I. H. Öner, T. Wang, T. Zhang, O. Selyshchev, C. Neumann, Y. Fu, Z. Liao, S. Xu, Y. Hou, C. Michel, A. Turchanin, D.R.T. Zahn, E. Zschech, I. M. Weidinger, J. Zhang, X. Feng
Molecular Engineering of Conjugated Acetylenic Polymers for Efficient Cocatalyst-free Photoelectrochemical Water Reduction
ANGEWANDTE CHEMIE INTERNATIONAL EDITION 2019 58, 10368-10374
DOI: 10.1002/anie.201904978External link
Quantitative analysis of nanopores Graphene.
Image: ACS Publications: ACS NanoC. Neumann, D. Kaiser, M. J. Mohn, M. Füser, N.-E. Weber, O. Reimer, A. Gölzhäuser, T. Weimann, A. Terfort, U. Kaiser, A. Turchanin
Bottom up synthesis of graphene monolayers with tunable crystallinity and porosity.
ACS NANO 2019 13, 7310-7322
DOI: 10.1021/acsnano.9b03475External link
Summary of application fields for functional materials
Image: Royal Society of Chemistry: Physical Chemistry Chemical PhysicsM. Wächtler, L. González, B. Dietzek, A. Turchanin, C. Roth
Functional materials: making the world go round.
PHYSICAL CHEMISTRY CHEMICAL PHYSICS 2019 21, 8988-8991
DOI: 10.1039/c9cp90120eExternal link
Schematic representation of the gradient homojunction for photoelectrical water reduction.
Image: Wiley-VCH: Advanced MaterialsH. Sun, C. Neumann, T. Zhang, M. Löffler, A. Wolf, Y. Hou, A. Turchanin, J. Zhang, X. Feng
Poly(1,4-diethynylbenzene) Gradient Homojunctions with Enhanced Carrier Separation for Photo-electrochemical Water Reduction.
ADVANCED MATERIALS 2019 31, 1900961
DOI: 10.1002/adma.201900961External link
Cover feature showing polymer brushes on hBN
Image: Wiley-VCH
W. Sheng, I. Amin, C. Neumann, R. Dong, T. Zhang, E. Wegener, W.-L. Chen, P. Förster, H. Quang Tran, M. Löffler, A. Winter, R. D. Rodriguez, C. K. Ober, X. Feng, A. Turchanin, R. Jordan
Polymer brushes on hexagonal boron nitride.
SMALL 2019 15, 1805228
DOI: 10.1002/smll.201805228External link
Spatial PL mapping of 1L-MoS2 on silicon nanocylinder metasurface
Image: ACS Publications: ACS PhotonicsT. Bucher, A. Vaskin, R. Mupparapu, F. Löchner, A. George, K. Chong, S. Fasold, C. Neumann, D.-Y. Choi, F. Eilenberger, F. Setzpfandt, Y.S. Kivshar, T. Pertsch, A. Turchanin, I. Staude
Tailoring photoluminescence from MoS2 monolayers by Mie-resonant metasurfaces.
ACS PHOTONICS 2019 6, 1002-1009
DOI: 10.1021/acsphotonics.8b01771External link
Cover of ACS Photonics Volume 6, Issue 5
Image: ACS Publications
R. Meyer, S. Trautmann, A. George, A. Turchanin, V. Deckert
Synergy of photoinduced force microscopy and tip-enhanced Raman spectroscopy - a correlative study on MoS2.
ACS PHOTONICS 2019 6, 1191-1198
DOI: 10.1021/acsphotonics.8b01716External link
Schematic Representation of a CNM on a TEM grid next to actual experimental results
Image: IOP Publishing: 2D MaterialsOPEN ACCESS
A. Winter, Y. Ekinci, A. Gölzhäuser, A. Turchanin
Freestanding carbon nanomembranes and graphene monolayers nanopatterned via EUV interference lithography.
2D MATERIALS 2019 6, 021002
DOI: 10.1088/2053-1583/ab0014External link
Setup for the controlled growth of TMDs
Image: IOP Publishing: Journal of Physics: MaterialsOPEN ACCESS
A. George, C. Neumann, D. Kaiser, R. Mupparapu, T. Lenert, U. Hübner, Z. Tang, A. Winter, U. Kaiser, I. Staude, A. Turchanin
Controlled growth of transition metal dichalcogenide monolayers using Knudsen-type effusion cells for the precursors
JOURNAL OF PHYSICS: MATERIALS 2019 2, 016001
DOI: 10.1088/2515-7639/aaf982External link