Template‐Guided Ionic Self‐Assembled Molecular Materials and Thin Films with Nanoscopic Order

Template‐Guided Ionic Self‐Assembled Molecular Materials and Thin Films with Nanoscopic Order

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. Cationic layers of benzalkonium surfactants form a la...

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Veröffentlicht in:ChemNanoMat : chemistry of nanomaterials for energy, biology and more biology and more, 2015-08, Vol.1 (4), p.253-258
Hauptverfasser: Santella, Marco, Amini, Fatima, Andreasen, Kristian B., Aswad, Dunya S., Ausar, Helene, Austin, Lillian Marie, Bora, Ilkay, Boye, Ida M. I., Brinkenfeldt, Nikolaj K., Bøe, Magnus F., Cakmak, Emine, Catovic, Alen, Christensen, Jonas M., Dalgaard, Jonas H., Danielsen, Helena Maria D., Bouyahyaoui, Abdel H. El, Dib, Sarah E. H. El, Khaiyat, Btihal El, Farooq, Iqra, Fjellerup, Freja K., Frederiksen, Gregers W., Frederiksen, Henriette R. S., Gleerup, David, Gold, Mikkel, Gruber, Morten F., Gylling, Mie, Heidari, Vita, Herzberg, Mikkel, Holgaard, U. Laurens D., Hundahl, Adam C., Hviid, Rune, Høhling, Julian S., Abd Issa, Fatima Z., Jakobsen, Nicklas R., Jakobsen, Rasmus K., Jensen, Benjamin L., Jensen, Phillip W. K., Juelsholt, Mikkel, Liao, Zhiyu, Le, Chung L., Mayanja, Ivan F., Moustafa, Hadeel, Møller, Charlie B. B., Nielsen, Cecilie L., Nielsen, Marius R. J. E. H., Nielsen, Søren S.‐R., Olsen, Markus J., Paludan, Bandula D., Prestholm, Idunn, Qoqaj, Iliriana, Riel, Christina B., Rostgaard, Tobias V., Saleh, Nora, Schultz, Hannibal M., Standland, Mark, Svenningsen, Jens S., Sørensen, Rasmus Truels, Visby, Jesper, Wolff‐Sneedorff, Emilie L., Zachariassen, Malte Hee, Ziari, Edmond A., Sørensen, Henning O., Sørensen, Thomas Just
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Sprache:eng
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ionic self-assembly
nanostructures
nanotechnology
non-covalent interactions
thin films
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container_end_page 258
container_issue 4
container_start_page 253
container_title ChemNanoMat : chemistry of nanomaterials for energy, biology and more
container_volume 1
creator Santella, Marco
Amini, Fatima
Andreasen, Kristian B.
Aswad, Dunya S.
Ausar, Helene
Austin, Lillian Marie
Bora, Ilkay
Boye, Ida M. I.
Brinkenfeldt, Nikolaj K.
Bøe, Magnus F.
Cakmak, Emine
Catovic, Alen
Christensen, Jonas M.
Dalgaard, Jonas H.
Danielsen, Helena Maria D.
Bouyahyaoui, Abdel H. El
Dib, Sarah E. H. El
Khaiyat, Btihal El
Farooq, Iqra
Fjellerup, Freja K.
Frederiksen, Gregers W.
Frederiksen, Henriette R. S.
Gleerup, David
Gold, Mikkel
Gruber, Morten F.
Gylling, Mie
Heidari, Vita
Herzberg, Mikkel
Holgaard, U. Laurens D.
Hundahl, Adam C.
Hviid, Rune
Høhling, Julian S.
Abd Issa, Fatima Z.
Jakobsen, Nicklas R.
Jakobsen, Rasmus K.
Jensen, Benjamin L.
Jensen, Phillip W. K.
Juelsholt, Mikkel
Liao, Zhiyu
Le, Chung L.
Mayanja, Ivan F.
Moustafa, Hadeel
Møller, Charlie B. B.
Nielsen, Cecilie L.
Nielsen, Marius R. J. E. H.
Nielsen, Søren S.‐R.
Olsen, Markus J.
Paludan, Bandula D.
Prestholm, Idunn
Qoqaj, Iliriana
Riel, Christina B.
Rostgaard, Tobias V.
Saleh, Nora
Schultz, Hannibal M.
Standland, Mark
Svenningsen, Jens S.
Sørensen, Rasmus Truels
Visby, Jesper
Wolff‐Sneedorff, Emilie L.
Zachariassen, Malte Hee
Ziari, Edmond A.
Sørensen, Henning O.
Sørensen, Thomas Just
description 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. Cationic layers of benzalkonium surfactants form a lamellar template. The template is able to host layers of negatively charged polyaromatic functional units, here demonstrated with β‐naphthol‐derived azo‐dyes. We show that a variety of these functional building blocks can be incorporated in the lamellar template through ISA. Sixteen different materials were produced, characterized, and processed into thin films, with lamellar order perpendicular to the substrate. Thus, a design concept is demonstrated in which diverse functional motifs can be isolated and ordered in a 2D lattice between layers of alkyl chains in bulk and in thin films, in which the molecular order is maintained and aligned to the substrate. Come together: A general approach to make thin films with high molecular order is presented. Materials made by ionic self‐assembly between anionic functional units and cationic surfactant form highly ordered thin films upon spin‐casting.
doi_str_mv 10.1002/cnma.201500064
format Article
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Materials made by ionic self‐assembly between anionic functional units and cationic surfactant form highly ordered thin films upon spin‐casting.</description><subject>ionic self-assembly</subject><subject>nanostructures</subject><subject>nanotechnology</subject><subject>non-covalent interactions</subject><subject>thin films</subject><issn>2199-692X</issn><issn>2199-692X</issn><fulltext>true</fulltext><rsrctype>article</rsrctype><creationdate>2015</creationdate><recordtype>article</recordtype><recordid>eNqFkE1OwzAQhS0EElXplrUvkDJ24jReVhUtlfqzIEjsIteeqEZOUtmtqu44AmfkJLgqAnZsZkZvvvcWj5B7BkMGwB9026ghByYAIM-uSI8zKZNc8tfrP_ctGYTwFhFWZIJB2iOqxGbn1B4_3z9mB2vQ0HnXWk2f0dVRG4eAzcZFedk51AenPF1G3FvlAlWtoeXWtnRqXRPo0e63dKXaLuhuFzPW3qC_Izd1ZHHwvfvkZfpYTp6SxXo2n4wXieaFzJKNqE1R40grZkBsgGc1oFYyT6XALKvjwAI1ZzASEnieSwRpeIpZEd_CpH0yvORq34Xgsa523jbKnyoG1bmj6txR9dNRNMiL4Wgdnv6hq8lqOf71fgGIsG2z</recordid><startdate>201508</startdate><enddate>201508</enddate><creator>Santella, Marco</creator><creator>Amini, Fatima</creator><creator>Andreasen, Kristian B.</creator><creator>Aswad, Dunya S.</creator><creator>Ausar, Helene</creator><creator>Austin, Lillian Marie</creator><creator>Bora, Ilkay</creator><creator>Boye, Ida M. 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H.</creatorcontrib><creatorcontrib>Nielsen, Søren S.‐R.</creatorcontrib><creatorcontrib>Olsen, Markus J.</creatorcontrib><creatorcontrib>Paludan, Bandula D.</creatorcontrib><creatorcontrib>Prestholm, Idunn</creatorcontrib><creatorcontrib>Qoqaj, Iliriana</creatorcontrib><creatorcontrib>Riel, Christina B.</creatorcontrib><creatorcontrib>Rostgaard, Tobias V.</creatorcontrib><creatorcontrib>Saleh, Nora</creatorcontrib><creatorcontrib>Schultz, Hannibal M.</creatorcontrib><creatorcontrib>Standland, Mark</creatorcontrib><creatorcontrib>Svenningsen, Jens S.</creatorcontrib><creatorcontrib>Sørensen, Rasmus Truels</creatorcontrib><creatorcontrib>Visby, Jesper</creatorcontrib><creatorcontrib>Wolff‐Sneedorff, Emilie L.</creatorcontrib><creatorcontrib>Zachariassen, Malte Hee</creatorcontrib><creatorcontrib>Ziari, Edmond A.</creatorcontrib><creatorcontrib>Sørensen, Henning O.</creatorcontrib><creatorcontrib>Sørensen, Thomas Just</creatorcontrib><collection>CrossRef</collection><jtitle>ChemNanoMat : chemistry of nanomaterials for energy, biology and more</jtitle></facets><delivery><delcategory>Remote Search Resource</delcategory><fulltext>fulltext</fulltext></delivery><addata><au>Santella, Marco</au><au>Amini, Fatima</au><au>Andreasen, Kristian B.</au><au>Aswad, Dunya S.</au><au>Ausar, Helene</au><au>Austin, Lillian Marie</au><au>Bora, Ilkay</au><au>Boye, Ida M. I.</au><au>Brinkenfeldt, Nikolaj K.</au><au>Bøe, Magnus F.</au><au>Cakmak, Emine</au><au>Catovic, Alen</au><au>Christensen, Jonas M.</au><au>Dalgaard, Jonas H.</au><au>Danielsen, Helena Maria D.</au><au>Bouyahyaoui, Abdel H. El</au><au>Dib, Sarah E. H. El</au><au>Khaiyat, Btihal El</au><au>Farooq, Iqra</au><au>Fjellerup, Freja K.</au><au>Frederiksen, Gregers W.</au><au>Frederiksen, Henriette R. S.</au><au>Gleerup, David</au><au>Gold, Mikkel</au><au>Gruber, Morten F.</au><au>Gylling, Mie</au><au>Heidari, Vita</au><au>Herzberg, Mikkel</au><au>Holgaard, U. Laurens D.</au><au>Hundahl, Adam C.</au><au>Hviid, Rune</au><au>Høhling, Julian S.</au><au>Abd Issa, Fatima Z.</au><au>Jakobsen, Nicklas R.</au><au>Jakobsen, Rasmus K.</au><au>Jensen, Benjamin L.</au><au>Jensen, Phillip W. K.</au><au>Juelsholt, Mikkel</au><au>Liao, Zhiyu</au><au>Le, Chung L.</au><au>Mayanja, Ivan F.</au><au>Moustafa, Hadeel</au><au>Møller, Charlie B. B.</au><au>Nielsen, Cecilie L.</au><au>Nielsen, Marius R. J. E. H.</au><au>Nielsen, Søren S.‐R.</au><au>Olsen, Markus J.</au><au>Paludan, Bandula D.</au><au>Prestholm, Idunn</au><au>Qoqaj, Iliriana</au><au>Riel, Christina B.</au><au>Rostgaard, Tobias V.</au><au>Saleh, Nora</au><au>Schultz, Hannibal M.</au><au>Standland, Mark</au><au>Svenningsen, Jens S.</au><au>Sørensen, Rasmus Truels</au><au>Visby, Jesper</au><au>Wolff‐Sneedorff, Emilie L.</au><au>Zachariassen, Malte Hee</au><au>Ziari, Edmond A.</au><au>Sørensen, Henning O.</au><au>Sørensen, Thomas Just</au><format>journal</format><genre>article</genre><ristype>JOUR</ristype><atitle>Template‐Guided Ionic Self‐Assembled Molecular Materials and Thin Films with Nanoscopic Order</atitle><jtitle>ChemNanoMat : chemistry of nanomaterials for energy, biology and more</jtitle><date>2015-08</date><risdate>2015</risdate><volume>1</volume><issue>4</issue><spage>253</spage><epage>258</epage><pages>253-258</pages><issn>2199-692X</issn><eissn>2199-692X</eissn><abstract>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. Cationic layers of benzalkonium surfactants form a lamellar template. The template is able to host layers of negatively charged polyaromatic functional units, here demonstrated with β‐naphthol‐derived azo‐dyes. We show that a variety of these functional building blocks can be incorporated in the lamellar template through ISA. Sixteen different materials were produced, characterized, and processed into thin films, with lamellar order perpendicular to the substrate. Thus, a design concept is demonstrated in which diverse functional motifs can be isolated and ordered in a 2D lattice between layers of alkyl chains in bulk and in thin films, in which the molecular order is maintained and aligned to the substrate. Come together: A general approach to make thin films with high molecular order is presented. Materials made by ionic self‐assembly between anionic functional units and cationic surfactant form highly ordered thin films upon spin‐casting.</abstract><doi>10.1002/cnma.201500064</doi><tpages>6</tpages><orcidid>https://orcid.org/0000-0002-7004-547X</orcidid><orcidid>https://orcid.org/0000-0003-1491-5116</orcidid></addata></record>
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2199-692X
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recordid cdi_crossref_primary_10_1002_cnma_201500064
source Wiley Online Library Journals Frontfile Complete
subjects ionic self-assembly
nanostructures
nanotechnology
non-covalent interactions
thin films
title Template‐Guided Ionic Self‐Assembled Molecular Materials and Thin Films with Nanoscopic Order
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