Zobrazeno 1 - 1
of 1
pro vyhledávání: '"Freja K. Fjellerup"'
Autor:
Morten F. Gruber, Emilie L. Wolff‐Sneedorff, Dunya S. Aswad, Cecilie L. Nielsen, Malte Hee Zachariassen, Fatima Z. Abd Issa, Tobias V. Rostgaard, U. Laurens D. Holgaard, Idunn Prestholm, Lillian Marie Austin, Jonas H. Dalgaard, Julian S. Høhling, Jonas M. Christensen, Fatima Amini, Abdel H. El Bouyahyaoui, Iliriana Qoqaj, Søren Saxmose Nielsen, Nikolaj K. Brinkenfeldt, Henriette R. Frederiksen, Charlie B. B. Møller, Phillip W. K. Jensen, Bandula D. Paludan, Marco Santella, Alen Catovic, Vita Heidari, Emine Cakmak, Magnus F. Bøe, Helena Maria D. Danielsen, Mikkel Herzberg, Helene Ausar, Thomas Just Sørensen, Rasmus Kragh Jakobsen, Sarah E. H. El Dib, Ilkay Bora, Btihal El Khaiyat, Edmond A. Ziari, Benjamin L. Jensen, Freja K. Fjellerup, Gregers W. Frederiksen, Rasmus Truels Sørensen, Hadeel Moustafa, Henning Osholm Sørensen, David Gleerup, Markus J. Olsen, Mikkel Gold, Chung L. Le, Jens S. Svenningsen, Nicklas R. Jakobsen, Adam C. Hundahl, Christina B. Riel, Rune Hviid, Mark Standland, Hannibal M. Schultz, Mikkel Juelsholt, Kristian B. Andreasen, Nora Saleh, Jesper Visby, Zhiyu Liao, Mie Gylling, Iqra Farooq, Ida Marie Ingmer Boye, Marius Nielsen, Ivan F. Mayanja
Publikováno v:
ChemNanoMat. 1:253-258
Ionic self-assembly (ISA) is a proven method that exploits non-covalent interactions to generate supramolecular materials. Here, we have expanded the scope of this approach fabricating thin films with nanoscopic order maintained over centimeters. Cat