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Infrared and Electronic Spectroscopy of [C6H6(NH3)n]+ :

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1 Infrared and Electronic Spectroscopy of [C6H6(NH3)n]+ :
61st OHIO STATE UNIVERSITY INTERNATIONAL SYMPOSIUM ON MOLECULAR SPECTROSCOPY Infrared and Electronic Spectroscopy of [C6H6(NH3)n]+ : Identification of the Nucleophilic Substitution Intermediate Having a Newly Formed C-N Valence Bond Kenta Mizuse, Asuka Fujii, and Naohiko Mikami

2 Background

3 Background

4 This study The experimental determination of the structure of [C6H6(NH3)n]+ (n=1-5) , especially of the n=1 cluster “cyclohexadienyl” or not ? Method Infrared and electronic photodissociation spectroscopy of [C6H6(NH3)n]+ (n=1-5) Infrared; C-H and N-H stretch region cm-1 Electronic; visible region cm-1

5 Experiments ~Photodissociation Spectroscopy~

6 Mass spectrum of the cluster ion source

7 IR and Electronic Spectra of [C6H6(NH3)n]+ (n=1-5)

8 Spectra of [C6H6(NH3)1]+

9 Structure of [C6H6(NH3)1]+

10 [C6H6(NH3)2]+

11 [C6H6(NH3)n]+ (n=3-5)

12 ・Infrared and Electronic photodissociation spectroscopy
Summary ・Infrared and Electronic photodissociation spectroscopy was applied to [C6H6(NH3)n]+ (n=1-5) . ・For the n=1 cluster, both the observed spectra indicated that a new C-N valence bond is formed resulting in the cyclohexadienyl type structure. ・The cyclohexadienyl type cluster can be regarded as the prototype of intermediate in the nucleophilic substitution reactions. +

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