Combined quantum mechanical and molecular mechanical (QM/MM) methods are the most powerful available methods for high-level treatments of subsystems of very large systems. The treatment of the QM−MM boundary strongly affects the accuracy of QM/MM calculations. For QM/MM calculations having covalent bonds cut by the QM−MM boundary, it has been proposed previously to use a scheme with system-specific tuned fluorine link atoms. Here, we propose a broadly parametrized scheme where the parameters of the tuned F link atoms depend only on the type of bond being cut. In the proposed new scheme, the F link atom is tuned for systems with a certain type of cut bond at the QM−MM boundary instead of for a specific target system, and the resulting link a...
Motivated by recent work in density matrix embedding theory, we define exact link orbitals that capt...
The QM/MM method, short for quantum mechanical/molecular mechanical, is a highly versatile approach ...
We present an extension of our semiempirical floating occupation MO-CI approach for the determinatio...
Connection atoms are proposed as an alternative to link atoms in semiempirical hybrid calculations t...
The division of a system under study in a quantum mechanical (QM) and a classical system in QM/MM mo...
The division of a system under study in a quantum mechanical (QM) and a classical system in QM/MM mo...
The combined quantum mechanical (QM) and molecular mechanical (MM) approach (QM/MM) is a popular met...
The combined quantum mechanical (QM) and molecular mechanical (MM) approach (QM/MM) is a popular met...
This work optimizes the link bond description of the quantum mechanical/molecular mechanical separat...
Methodologies that combine quantum and classical mechanics (QM/MM) are now widely used to study chem...
The QM/MM method, which couples a quantum mechanical (QM) description of bonding in a localized regi...
Hybrid quantum mechanical/molecular mechanical (QM/MM) simulations fuel discoveries in many fields o...
In this chapter, I discuss combined quantum mechanics (QM) and molecular mechanics (MM; QM/MM) calcu...
Motivated by recent work in density matrix embedding theory, we define exact link orbitals that capt...
Parametrization of the bonded part of molecular mechanics (MM) force fields (FFs) is typically done ...
Motivated by recent work in density matrix embedding theory, we define exact link orbitals that capt...
The QM/MM method, short for quantum mechanical/molecular mechanical, is a highly versatile approach ...
We present an extension of our semiempirical floating occupation MO-CI approach for the determinatio...
Connection atoms are proposed as an alternative to link atoms in semiempirical hybrid calculations t...
The division of a system under study in a quantum mechanical (QM) and a classical system in QM/MM mo...
The division of a system under study in a quantum mechanical (QM) and a classical system in QM/MM mo...
The combined quantum mechanical (QM) and molecular mechanical (MM) approach (QM/MM) is a popular met...
The combined quantum mechanical (QM) and molecular mechanical (MM) approach (QM/MM) is a popular met...
This work optimizes the link bond description of the quantum mechanical/molecular mechanical separat...
Methodologies that combine quantum and classical mechanics (QM/MM) are now widely used to study chem...
The QM/MM method, which couples a quantum mechanical (QM) description of bonding in a localized regi...
Hybrid quantum mechanical/molecular mechanical (QM/MM) simulations fuel discoveries in many fields o...
In this chapter, I discuss combined quantum mechanics (QM) and molecular mechanics (MM; QM/MM) calcu...
Motivated by recent work in density matrix embedding theory, we define exact link orbitals that capt...
Parametrization of the bonded part of molecular mechanics (MM) force fields (FFs) is typically done ...
Motivated by recent work in density matrix embedding theory, we define exact link orbitals that capt...
The QM/MM method, short for quantum mechanical/molecular mechanical, is a highly versatile approach ...
We present an extension of our semiempirical floating occupation MO-CI approach for the determinatio...