Absorption edges; Atomic bonds; Atomic positions; Crystalline packing; Diffraction anisotropy; Energy dependent; Position-orientation; Unit cells; X -ray scattering; X- ray diffractions; Organic Chemistry; Polymers and Plastics; Inorganic Chemistry; Materials Chemistry
Abstract :
[en] Resonant X-ray diffraction exploits energy-dependent changes in X-ray scattering across an elemental absorption edge to provide additional information about the organization of atoms within the unit cell. Here, we demonstrate the utility of performing resonant X-ray diffraction at multiple absorption edges to provide complementary information about atomic positions and bond orientation. These experiments are achieved through the chlorination of a well-studied naphthalene diimide bithiophene copolymer, P(NDI2OD-T2), to produce P(NDI2OD-T2Cl2), enabling measurements at sulfur and chlorine K-edges. Strong modulation of the diffraction intensity is observed at both edges but with significant differences in the observed diffraction anisotropy. These differences in diffraction anisotropy arise due to differences in the orientation of sulfur and chlorine bonds within the unit cell. Simulations of the supramolecular organization of P(NDI2OD-T2Cl2) have also been performed, with P(NDI2OD-T2Cl2) showing a similar lowest energy packing geometry to unchlorinated P(NDI2OD-T2). Comparing the simulated unit cells with the experimental results, we find that the experimental results are best explained by a mixture of anti and syn conformers in thin film samples of P(NDI2OD-T2Cl2). This observation is in line with the smaller energy barrier computed at the quantum chemical level between the two conformers providing a higher flexibility of the conjugated backbones.
Disciplines :
Chemistry
Author, co-author :
Freychet, Guillaume; NSLS-II, Brookhaven National Laboratory, Upton, United States
Lemaur, Vincent ; Université de Mons - UMONS > Facult?des Sciences > Service de Chimie des mat?iaux nouveaux
Jevric, Martyn; Flinders Institute for Nanoscale Science and Technology, Flinders University, Adelaide, Australia
Vu, Doan ; Department of Materials Science and Engineering, Monash University, Clayton, Australia
Olivier, Yoann ; Université de Mons - UMONS > Faculté des Sciences > Service de Chimie des matériaux nouveaux ; Laboratory for Computational Modeling of Functional Materials, Namur Institute of Structured Matter, Université de Namur, Namur, Belgium
Zhernenkov, Mikhail ; NSLS-II, Brookhaven National Laboratory, Upton, United States
Andersson, Mats R. ; Flinders Institute for Nanoscale Science and Technology, Flinders University, Adelaide, Australia
McNeill, Christopher R. ; Department of Materials Science and Engineering, Monash University, Clayton, Australia
Language :
English
Title :
Multi-Edge Resonant Tender X-ray Diffraction for Probing the Crystalline Packing of Conjugated Polymers
R400 - Institut de Recherche en Science et Ingénierie des Matériaux
Funders :
Australian Renewable Energy Agency H2020 European Research Council
Funding text :
This research used the Soft Matter Interfaces (SMI, Beamline 12-ID) of the National Synchrotron Light Source II, a U.S. Department of Energy (DOE) Office of Science User Facility operated for the DOE Office of Science by the Brookhaven National Laboratory under contract no. DE-SC0012704. This activity received funding from ARENA as part of ARENA’s Research and Development Program─Solar PV Research. The views expressed herein are not necessarily the views of the Australian Government, and the Australian Government does not accept responsibility for any information or advice contained herein. This work has received funding from the European Union’s Horizon 2020 research and innovation programme under grant agreement no. 964677. This work was also performed in part at the SAXS/WAXS beamline at the Australian Synchrotron, part of ANSTO.
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