Efficient Quantum Mechanical Calculations of Mode-Specific Tunneling Splittings upon Fundamental Excitation in the Dimer of Formic Acid

Abstract: The formic acid dimer (FAD) is an important benchmark system for understanding the double hydrogen transfer process. Most recently, Zhang et al. measured a few tunneling splittings upon fundamental excitation of FAD precisely (Zhang, Y. et al. J. Chem. Phys. 2017, 146, 244306); however, relevant theoretical studies are very limited. Here, we present a multidimensional quantum dynamics study on mode-specific tunneling splittings upon fundamental excitation in FAD with an efficient theoretical scheme developed … Show more

“…Later, Richardson performed calculations using this PES and obtained interesting results about ground-state tunneling splitting. Using the QB PES, Liu et al , studied tunneling splittings both for the ground state and upon fundamental excitation in FAD based upon a quantum dynamics (QD) scheme developed by them. An unprecedented overall agreement with experimental spectra was achieved by QD calculations on the QB PES.…”

An Ab Initio Neural Network Potential Energy Surface for the Dimer of Formic Acid and Further Quantum Tunneling Dynamics

“…Later, Richardson performed calculations using this PES and obtained interesting results about ground-state tunneling splitting. Using the QB PES, Liu et al , studied tunneling splittings both for the ground state and upon fundamental excitation in FAD based upon a quantum dynamics (QD) scheme developed by them. An unprecedented overall agreement with experimental spectra was achieved by QD calculations on the QB PES.…”

An Ab Initio Neural Network Potential Energy Surface for the Dimer of Formic Acid and Further Quantum Tunneling Dynamics

“…To gain fundamental insight, it is useful to investigate small model systems, as their small size and minimal complexity permits precision spectroscopy experiments as well as high-level quantum chemical calculations that can yield a better understanding of the hydrogen bond interactions. [15][16][17][18][19][20][21][22][23][24][25][26][27][28][29] Particularly interesting are carboxylic acid systems. Carboxylate or carboxylic acid groups play an important role for hydrogen bonding in biological systems and are decisive in determining, for example, the structures and properties of peptides and proteins.…”

“…To gain fundamental insight, it is useful to investigate small model systems, as their small size and minimal complexity permits precision spectroscopy experiments as well as high-level quantum chemical calculations that can yield a better understanding of the hydrogen bond interactions. 15–29…”

Infrared action spectroscopy of the deprotonated formic acid trimer, trapped in helium nanodroplets

“…10,11 FA has been used as prototype systems to understand proton tunneling in intermolecular hydrogen bonding and has therefore attracted wide attention from researchers in the field. 17–20…”

Study on depolymerization kinetics of formic acid dimers in binary mixture