Synthetic Nanoarchitectonics of Functional Organic-Inorganic 2D Germanane Heterostructures via Click Chemistry

MUNOZ, Jose, Mario PALACIOS-CORELLA, Inmaculada Jennifer GOMEZ PEREZ, Lenka ZAJÍČKOVÁ and Martin PUMERA. Synthetic Nanoarchitectonics of Functional Organic-Inorganic 2D Germanane Heterostructures via Click Chemistry. Advanced Materials. Wiley-VCH Verlag GmbH, 2022, vol. 34, No 45, p. 1-8. ISSN 0935-9648. Available from: https://dx.doi.org/10.1002/adma.202206382.

Basic information

• Original name: Synthetic Nanoarchitectonics of Functional Organic-Inorganic 2D Germanane Heterostructures via Click Chemistry
• Authors: MUNOZ, Jose, Mario PALACIOS-CORELLA, Inmaculada Jennifer GOMEZ PEREZ (724 Spain, belonging to the institution), Lenka ZAJÍČKOVÁ (203 Czech Republic, belonging to the institution) and Martin PUMERA (guarantor).
• Edition: Advanced Materials, Wiley-VCH Verlag GmbH, 2022, 0935-9648.

Other information

• Original language: English
• Type of outcome: Article in a journal
• Field of Study: 10405 Electrochemistry
• Country of publisher: Germany
• Confidentiality degree: is not subject to a state or trade secret
• WWW: URL
• Impact factor: Impact factor: 29.400
• RIV identification code: RIV/00216224:14310/22:00128051
• Organization unit: Faculty of Science
• Doi: http://dx.doi.org/10.1002/adma.202206382
• UT WoS: 000865568200001
• Keywords in English: 2D materials; carbon dots; fluorescence resonance energy transfer; optoelectronics; thiol-ene
• Tags: rivok
• Tags: International impact, Reviewed

Abstract

ucceeding graphene, 2D inorganic materials made of reactive van der Waals layers, like 2D germanane (2D-Ge) derivatives, have attracted great attention because their physicochemical characteristics can be entirely tuned by modulating the nature of the surface substituent. Although very interesting from a scientific point of view, almost all the reported works involving 2D-Ge derivatives are focused on computational studies. Herein, a first prototype of organic–inorganic 2D-Ge heterostructure has been synthesized by covalently anchoring thiol-rich carbon dots (CD–SH) onto 2D allyl germanane (2D-aGe) via a simple and green “one-pot” click chemistry approach. Remarkably, the implanted characteristics of the carbon nanomaterial provide new physicochemical features to the resulting 0D/2D heterostructure, making possible its implementation in yet unexplored optoelectronic tasks—e.g., as a fluorescence resonance energy transfer (FRET) sensing system triggered by supramolecular π–π interactions—that are inaccessible for the pristine 2D-aGe counterpart. Consequently, this work builds a foundation toward the robust achievement of functional organic–inorganic 2D-Ge nanoarchitectonics through covalently assembling thiol-rich carbon nanoallotropes on commercially available 2D-aGe.

Links

• EF20_079/0017045, research and development project: Name: MSCAfellow4@MUNI
• 90110, large research infrastructures: Name: CzechNanoLab