Journal ArticleDOI
Reconsideration of the excited-state double proton transfer (ESDPT) in 2-aminopyridine/acid systems: role of the intermolecular hydrogen bonding in excited states.
Shuo Chai,Shuo Chai,Guangjiu Zhao,Peng Song,Peng Song,Songqiu Yang,Songqiu Yang,Jianyong Liu,Ke-Li Han +8 more
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TLDR
It is demonstrated for the first time that the ESDPT reaction can take place between 2AP and all of these acids due to the formation of the intermolecular double hydrogen bonds.Abstract:
In the present work, the excited-state double proton transfer (ESDPT) in 2-aminopyridine (2AP)/acid systems has been reconsidered using the combined experimental and theoretical methods. The steady-state absorption and fluorescence spectra of 2AP in different acids, such as formic acid, acetic acid, propionic acid, etc. have been measured. We demonstrated for the first time that the ESDPT reaction can take place between 2AP and all of these acids due to the formation of the intermolecular double hydrogen bonds. Furthermore, the vitally important role of the intermolecular double hydrogen bonds between 2AP and acids for ESDPT reaction has also been confirmed by the disappearance of ESDPT when we add the polar acetonitrile to the 2AP/acids systems. This may be due to that the respective polar solvation of 2AP and acids by the acetonitrile solvent disrupts the formation of intermolecular double hydrogen bonds between 2AP and acids. Moreover, the intermolecular double hydrogen bonds are demonstrated to be significantly strengthened in the electronic excited state of 2AP/acid systems using the time-dependent density functional theory (TDDFT) method. The ESDPT reaction is facilitated by the electronic excited-state hydrogen bond strengthening. In addition, potential energy curves of the electronic excited state along the proton transfer coordinate are also calculated by the TDDFT method. The stepwise mechanism of the ESDPT reaction in the 2AP/acid systems is theoretically reconfirmed, and the concerted mechanism is theoretically excluded. At the same time, the sequence of the double proton transfers is theoretically clarified for the first time using the potential energy curves calculated by TDDFT method.read more
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Unraveling the Detailed Mechanism of Excited-State Proton Transfer
Panwang Zhou,Ke-Li Han +1 more
TL;DR: The proposed new and inspirational mechanisms based on theoretical studies can successfully explain the previous experimental results; some of the mechanisms have been further confirmed by experimental studies and provided guidance for researchers to design new ESPT chemosensors.
Journal ArticleDOI
A questionable excited-state double-proton transfer mechanism for 3-hydroxyisoquinoline
Jinfeng Zhao,Jinfeng Zhao,Junsheng Chen,Yanling Cui,Jing Wang,Lixin Xia,Yumei Dai,Peng Song,Fengcai Ma +8 more
TL;DR: Two excited state proton transfer mechanisms of 3-hydroxyisoquinoline in cyclohexane and acetic acid (ACID) were investigated based on the time-dependent density functional theory (TDDFT), suggesting a different double-proton transfer mechanism from the one proposed previously.
Journal ArticleDOI
Competitive excited-state single or double proton transfer mechanisms for bis-2,5-(2-benzoxazolyl)-hydroquinone and its derivatives
TL;DR: Based on the new ESIPT mechanism, the observed fluorescence quenching can be satisfactorily explained and the potential barrier heights among the local minima on the S1 surface imply competitive single and double proton transfer branches in the mechanism.
Journal ArticleDOI
Role of Intramolecular and Intermolecular Hydrogen Bonding in Both Singlet and Triplet Excited States of Aminofluorenones on Internal Conversion, Intersystem Crossing, and Twisted Intramolecular Charge Transfer†
Guangjiu Zhao,Ke-Li Han +1 more
TL;DR: Time-dependent density functional theory method was performed to investigate the intramolecular and intermolecular hydrogen bonding in both the singlet and triplet electronic excited states of amin ofluorenones AF, MAF, and DMAF in alcoholic solutions as well as their important roles on the excited-state photophysical processes of these aminoflu Lorenones.
Journal ArticleDOI
The Effect of Intermolecular Hydrogen Bonding on the Fluorescence of a Bimetallic Platinum Complex
TL;DR: It is demonstrated that the fluorescent state of compound 3 can be assigned as a metal-to-ligand charge transfer (MLCT) state and a new fluorescence modulation mechanism by hydrogen bonding is proposed to explain different fluorescence emissions of 3 in hydrogen-bonding solvents and nonhydrogen-b Bonding Solvents.
References
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Journal ArticleDOI
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