Two‐dimensional (2D) black phosphorus (BP) represents one of the most appealing 2D materials due to its electronic, optical, and chemical properties. Many strategies have been pursued to face its environmental instability, covalent functionalization being one of the most promising. However, the extremely low functionalization degrees and the limitations in proving the nature of the covalent functionalization still represent challenges in many of these sheet architectures reported to date. Here we shine light on the structural evolution of 2D‐BP upon the addition of electrophilic diazonium salts. We demonstrated the absence of covalent functionalization in both the neutral and the reductive routes, observing in the latter case an unexpected interface conversion of BP to red phosphorus (RP), as characterized by Raman, 31P‐MAS NMR, and X‐ray photoelectron spectroscopies (XPS). Furthermore, thermogravimetric analysis coupled to gas chromatography and mass spectrometry (TG‐GC‐MS), as well a...s electron paramagnetic resonance (EPR) gave insights into the potential underlying radical mechanism, suggesting a Sandmeyer‐like reaction.
TY - JOUR
AU - Mitrović, Aleksandra D.
AU - Wild, Stefan
AU - Lloret, Vicent
AU - Fickert, Michael
AU - Assebban, Mhamed
AU - Márkus, Bence G.
AU - Simon, Ferenc
AU - Hauke, Frank
AU - Abellan, Gonzalo
AU - Hirsch, Andreas
PY - 2020
UR - http://cherry.chem.bg.ac.rs/handle/123456789/5350
AB - Two‐dimensional (2D) black phosphorus (BP) represents one of the most appealing 2D materials due to its electronic, optical, and chemical properties. Many strategies have been pursued to face its environmental instability, covalent functionalization being one of the most promising. However, the extremely low functionalization degrees and the limitations in proving the nature of the covalent functionalization still represent challenges in many of these sheet architectures reported to date. Here we shine light on the structural evolution of 2D‐BP upon the addition of electrophilic diazonium salts. We demonstrated the absence of covalent functionalization in both the neutral and the reductive routes, observing in the latter case an unexpected interface conversion of BP to red phosphorus (RP), as characterized by Raman, 31P‐MAS NMR, and X‐ray photoelectron spectroscopies (XPS). Furthermore, thermogravimetric analysis coupled to gas chromatography and mass spectrometry (TG‐GC‐MS), as well as electron paramagnetic resonance (EPR) gave insights into the potential underlying radical mechanism, suggesting a Sandmeyer‐like reaction.
PB - Wiley
T2 - Chemistry - A European Journal
T1 - Interface Amorphization of Two‐Dimensional Black Phosphorus upon Treatment with Diazonium Salts
VL - 27
DO - 10.1002/chem.202003584
ER -
@article{
author = "Mitrović, Aleksandra D. and Wild, Stefan and Lloret, Vicent and Fickert, Michael and Assebban, Mhamed and Márkus, Bence G. and Simon, Ferenc and Hauke, Frank and Abellan, Gonzalo and Hirsch, Andreas",
year = "2020",
abstract = "Two‐dimensional (2D) black phosphorus (BP) represents one of the most appealing 2D materials due to its electronic, optical, and chemical properties. Many strategies have been pursued to face its environmental instability, covalent functionalization being one of the most promising. However, the extremely low functionalization degrees and the limitations in proving the nature of the covalent functionalization still represent challenges in many of these sheet architectures reported to date. Here we shine light on the structural evolution of 2D‐BP upon the addition of electrophilic diazonium salts. We demonstrated the absence of covalent functionalization in both the neutral and the reductive routes, observing in the latter case an unexpected interface conversion of BP to red phosphorus (RP), as characterized by Raman, 31P‐MAS NMR, and X‐ray photoelectron spectroscopies (XPS). Furthermore, thermogravimetric analysis coupled to gas chromatography and mass spectrometry (TG‐GC‐MS), as well as electron paramagnetic resonance (EPR) gave insights into the potential underlying radical mechanism, suggesting a Sandmeyer‐like reaction.",
publisher = "Wiley",
journal = "Chemistry - A European Journal",
title = "Interface Amorphization of Two‐Dimensional Black Phosphorus upon Treatment with Diazonium Salts",
volume = "27",
doi = "10.1002/chem.202003584"
}
Mitrović, A. D., Wild, S., Lloret, V., Fickert, M., Assebban, M., Márkus, B. G., Simon, F., Hauke, F., Abellan, G.,& Hirsch, A.. (2020). Interface Amorphization of Two‐Dimensional Black Phosphorus upon Treatment with Diazonium Salts. in Chemistry - A European Journal
Wiley., 27.
https://doi.org/10.1002/chem.202003584
Mitrović AD, Wild S, Lloret V, Fickert M, Assebban M, Márkus BG, Simon F, Hauke F, Abellan G, Hirsch A. Interface Amorphization of Two‐Dimensional Black Phosphorus upon Treatment with Diazonium Salts. in Chemistry - A European Journal. 2020;27.
doi:10.1002/chem.202003584 .
Mitrović, Aleksandra D., Wild, Stefan, Lloret, Vicent, Fickert, Michael, Assebban, Mhamed, Márkus, Bence G., Simon, Ferenc, Hauke, Frank, Abellan, Gonzalo, Hirsch, Andreas, "Interface Amorphization of Two‐Dimensional Black Phosphorus upon Treatment with Diazonium Salts" in Chemistry - A European Journal, 27 (2020),
https://doi.org/10.1002/chem.202003584 . .
