- AutorIn
- Zhiyong Wang Technische Universität Dresden, Center for Advancing Electronics Dresden#Technische Universität Dresden, Faculty of Chemistry and Food Chemistry
- Zhen ZhangTechnische Universität Dresden, Center for Advancing Electronics Dresden#Technische Universität Dresden, Faculty of Chemistry and Food Chemistry
- Haoyuan QiTechnische Universität Dresden, Center for Advancing Electronics Dresden#Technische Universität Dresden, Faculty of Chemistry and Food Chemistry
- Andres Ortega-Guerrero
- Lihuan Wang
- Kun Xu
- Mingchao Wang
- SangWook Park
- Felix Hennersdorf
- Arezoo Dianat
- Alexander Croy
- Hartmut
- Gianaurelio Cuniberti
- Jan J. Weigand
- Ute Kaiser
- Renhao Dong
- Xinliang Feng
- Titel
- On-water surface synthesis of charged two-dimensional polymer single crystals via the irreversible Katritzky reaction
- Zitierfähige Url:
- https://nbn-resolving.org/urn:nbn:de:bsz:14-qucosa2-830157
- Quellenangabe
- Nature Synthesis
Erscheinungsjahr: 2021
Jahrgang: 1
Seiten: 69-76
E-ISSN: 2731-0582 - Erstveröffentlichung
- 2021
- Abstract (EN)
- Two-dimensional polymers (2DPs) and their layer-stacked 2D covalent organic frameworks (2D COFs) are classes of structurally defined crystalline polymeric materials with exotic physical and chemical properties. Yet, synthesizing 2DP and 2D COF single crystals via irreversible reactions remains challenging. Here we report the synthesis of charged 2DP (C2DP) single crystals through an irreversible Katritzky reaction, under pH control, on a water surface. The periodically ordered 2DPs comprise aromatic pyridinium cations and counter BF4− anions. The C2DP crystals, which are composed of linked porphyrin and pyrylium monomers (C2DP-Por), have a tunable thickness of 2–30 nm and a lateral domain size up to 120 μm2. Single crystals with a square lattice (a = b = 30.5 Å) are resolved by imaging and diffraction methods with near-atomic precision. Furthermore, the integration of C2DP-Por crystals in an osmotic power generator device shows an excellent chloride ion selectivity with a coefficient value reaching ~0.9 and an output power density of 4 W m−2, superior to those of graphene and boron nitride.
- Andere Ausgabe
- Link zum Artikel der zuerst in der Zeitschrift 'Nature Synthesis' bei Springer Nature erschienen ist.
DOI: 10.1038/s44160-021-00001-4 - Freie Schlagwörter (DE)
- Synthetische zweidimensionale Polymere, Ionentransport, On-Water-Oberflächensynthese
- Freie Schlagwörter (EN)
- Synthetic two-dimensional polymers, Ion Transport, On-Water surface synthesis
- Klassifikation (DDC)
- 610
- Verlag
- Springer Nature, London
- Förder- / Projektangaben
- European Commission (EC)
H2020 | SGA-RIA
Graphene Flagship Core Project 3 (GrapheneCore3)
ID: 881603
European Research Council (ERC)
Starting Grant (FC2DMOF)
ID: 852909
European Research Council (ERC)
Consolidator GrantID: T2DCP
Deutsche Forschungsgemeinschaft (DFG)
Sachbeihilfen
Synthese von kristallinen, supramolekularen Polyanilinschichten/2D-Polyanilinen und deren Strukturbestimmung mittels Elektronenbeugung und TEM-BildgebungID: 426572620
Deutsche Forschungsgemeinschaft (DFG)
Schwerpunktprogramm
Koordinationsnetzwerke als Bausteine für Funktionssysteme (COORNET)
ID: 273920491
European Commission (EC)
H2020 | MSCA-ITN-ETN
Bottom-Up generation of atomicalLy precise syntheTIc 2D MATerials for high performance in energy and Electronic applications – A multi-site innovative training action (ULTIMATE)
ID: 813036
European Commission (EC)
H2020 | RIA
Proto-Opto-Electro-Mechanical Hybrid Systems for Generation-Next Bionic Devices (PROGENY)
ID: 899205
Deutsche Forschungsgemeinschaft - Version / Begutachtungsstatus
- angenommene Version / Postprint / Autorenversion
- URN Qucosa
- urn:nbn:de:bsz:14-qucosa2-830157
- Veröffentlichungsdatum Qucosa
- 23.01.2023
- Dokumenttyp
- Artikel
- Sprache des Dokumentes
- Englisch
- Lizenz / Rechtehinweis