Hybrid silica-organic nanohelices are used to organize a large variety of nonchiral small organic molecules or inorganic anions to nanometer-sized assemblies. Such chiral organization of achiral molecules induces chiroptical properties as detected by vibrational or electronic circular dichroism (CD), as well as from circularly polarized luminescence (CPL).
Chirality induction to achiral molecules by silica-coated chiral molecular assemblies / Scalabre, A.; Okazaki, Y.; Kuppan, B.; Buffeteau, T.; Caroleo, F.; Magna, G.; Monti, D.; Paolesse, R.; Stefanelli, M.; Nlate, S.; Pouget, E.; Ihara, H.; Bassani, D. M.; Oda, R.. - In: CHIRALITY. - ISSN 0899-0042. - 33:9(2021), pp. 494-505. [10.1002/chir.23339]
Chirality induction to achiral molecules by silica-coated chiral molecular assemblies
Monti D.;
2021
Abstract
Hybrid silica-organic nanohelices are used to organize a large variety of nonchiral small organic molecules or inorganic anions to nanometer-sized assemblies. Such chiral organization of achiral molecules induces chiroptical properties as detected by vibrational or electronic circular dichroism (CD), as well as from circularly polarized luminescence (CPL).| File | Dimensione | Formato | |
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