Add to ORKGViewing the atomic-scale motion and energy dissipation pathways involved in forming a covalent bond is a longstanding challenge for chemistry. We performed scattering experiments of H atoms from graphene and observed a bimodal translational energy loss distribution. Using accurate first-principles dynamics simulations, we show that the quasi-elastic channel involves scattering through the physisorption well where collision sites are near the centers of the six-membered C-rings. The second channel results from transient C–H bond formation, where H atoms lose 1 to 2 electron volts of energy within a 10-femtosecond interaction time. This remarkably rapid form of intramolecular vibrational relaxation results from the C atom’s rehybridization du...
In single-atom catalysis, the atomic structure and local electronic states of single atoms on a supp...
Recent years have witnessed an ever increasing interest in studying the interaction of hydrogen atom...
"We study chemical reaction between a single hydrogen atom and a graphene, which is the elemental re...
Viewing the atomic-scale motion and energy dissipation pathways involved in forming a covalent bond ...
Viewing the atomic-scale motion and energy dissipation pathways involved in forming a covalent bond ...
When a hydrogen or a deuterium atom is interacting with a graphene surface during scattering events...
We present a first principles-quality potential energy surface (PES) describing the inter-atomic for...
This thesis contains experimental and theoretical fundamental studies of energy transfer processes o...
Following our recent system-bath modeling of the interaction between a hydrogen atom and a graphene ...
Pulsed molecular beams allow high-density gas samples to be cooled to low internal temperatures and ...
The electron beam induced functionalization of graphene through the formation of covalent bonds betw...
Graphane is formed by bonding hydrogen (and deuterium) atoms to carbon atoms in the graphene mesh, w...
Hydrogen atoms interactions with single crystal surfaces are the simplest processes in surface scien...
An accurate system-bath model to investigate the quantum dynamics of hydrogen atoms chemisorbed on g...
This work deals with simulations of atomic hydrogen beam scattering from various surfaces. The studi...
In single-atom catalysis, the atomic structure and local electronic states of single atoms on a supp...
Recent years have witnessed an ever increasing interest in studying the interaction of hydrogen atom...
"We study chemical reaction between a single hydrogen atom and a graphene, which is the elemental re...
Viewing the atomic-scale motion and energy dissipation pathways involved in forming a covalent bond ...
Viewing the atomic-scale motion and energy dissipation pathways involved in forming a covalent bond ...
When a hydrogen or a deuterium atom is interacting with a graphene surface during scattering events...
We present a first principles-quality potential energy surface (PES) describing the inter-atomic for...
This thesis contains experimental and theoretical fundamental studies of energy transfer processes o...
Following our recent system-bath modeling of the interaction between a hydrogen atom and a graphene ...
Pulsed molecular beams allow high-density gas samples to be cooled to low internal temperatures and ...
The electron beam induced functionalization of graphene through the formation of covalent bonds betw...
Graphane is formed by bonding hydrogen (and deuterium) atoms to carbon atoms in the graphene mesh, w...
Hydrogen atoms interactions with single crystal surfaces are the simplest processes in surface scien...
An accurate system-bath model to investigate the quantum dynamics of hydrogen atoms chemisorbed on g...
This work deals with simulations of atomic hydrogen beam scattering from various surfaces. The studi...
In single-atom catalysis, the atomic structure and local electronic states of single atoms on a supp...
Recent years have witnessed an ever increasing interest in studying the interaction of hydrogen atom...
"We study chemical reaction between a single hydrogen atom and a graphene, which is the elemental re...