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Literature DB >> 33017100

Synthesis, Electronic Properties and Reactivity of [B₁₂ X₁₁ (NO₂ )]^2- (X=F-I) Dianions.

Knut R Asmis¹, Björn B Beele², Carsten Jenne², Sebastian Kawa¹, Harald Knorke¹, Marc C Nierstenhöfer², Xue-Bin Wang³, Jonas Warneke^1,4, Ziyan Warneke¹, Qinqin Yuan³.

Abstract

Nitro-functionalized undecahalogenated closo-dodecaborates [B12 X11 (NO2 )]2- were synthesized in high purities and characterized by NMR, IR, and Raman spectroscopy, single crystal X-diffraction, mass spectrometry, and gas-phase ion vibrational spectroscopy. The NO2 substituent leads to an enhanced electronic and electrochemical stability compared to the parent perhalogenated [B12 X12 ]2- (X=F-I) dianions evidenced by photoelectron spectroscopy, cyclic voltammetry, and quantum-chemical calculations. The stabilizing effect decreases from X=F to X=I. Thermogravimetric measurements of the salts indicate the loss of the nitric oxide radical (NO. ). The homolytic NO. elimination from the dianion under very soft collisional excitation in gas-phase ion experiments results in the formation of the radical [B12 X11 O]2-. . Theoretical investigations suggest that the loss of NO. proceeds via the rearrangement product [B12 X11 (ONO)]2- . The O-bonded nitrosooxy structure is thermodynamically more stable than the N-bonded nitro structure and its formation by radical recombination of [B12 X11 O]2-. and NO. is demonstrated.

Entities: CellLine Chemical Disease Species

Keywords: boron clusters; electronic stability; gas-phase reactions; mass spectrometry; nitro group; radical ions

Year: 2020 PMID： 33017100 PMCID： PMC7756457 DOI： 10.1002/chem.202003537

Source DB: PubMed Journal: Chemistry ISSN： 0947-6539 Impact factor: 5.236

39 in total

Synthesis, Electronic Properties and Reactivity of [B₁₂ X₁₁ (NO₂ )]^2- (X=F-I) Dianions.

1. Three-dimensional aromaticity in polyhedral boranes and related molecules.

2. High-affinity host-guest chemistry of large-ring cyclodextrins.

3. First steps towards a stable neon compound: observation and bonding analysis of [B₁₂(CN)₁₁Ne]^.

4. Roaming-mediated isomerization in the photodissociation of nitrobenzene.

5. Improving the Solubility of Halogenated 1-Ammonio-closo-dodecaborate Anions.

6. Quantum-chemical and electrochemical investigation of the electrochemical windows of halogenated carborate anions.

7. Tuning the electrochemical potential of perfunctionalized dodecaborate clusters through vertex differentiation.

8. Alkali metal-sulfur dioxide complexes stabilized by halogenated closo-dodecaborate anions.

9. Hückel's Rule of Aromaticity Categorizes Aromatic closo Boron Hydride Clusters.

10. Superacidity of boron acids H2(B12X12) (X = Cl, Br).

1. Synthesis, Electronic Properties and Reactivity of [B₁₂ X₁₁ (NO₂ )]^2- (X=F-I) Dianions.