ORCA Users' meeting Day 2, 16th of December :
Dec 16, 2021 02:00 PM Amsterdam, Berlin, Rome, Stockholm, Vienna
Please click the link below to join the webinar:
https://us02web.zoom.us/j/84888004154?p ... 9BK0tyUT09
Passcode: 866009
Or One tap mobile :
US: +16699006833,,84888004154#,,,,*866009# or +19294362866,,84888004154#,,,,*866009#
Or Telephone:
Dial(for higher quality, dial a number based on your current location):
US: +1 669 900 6833 or +1 929 436 2866 or +1 253 215 8782 or +1 301 715 8592 or +1 312 626 6799 or +1 346 248 7799
Webinar ID: 848 8800 4154
Passcode: 866009
International numbers available: https://us02web.zoom.us/u/kcp9UIII5B
Dec 16, 2021 02:00 PM Amsterdam, Berlin, Rome, Stockholm, Vienna
Please click the link below to join the webinar:
https://us02web.zoom.us/j/84888004154?p ... 9BK0tyUT09
Passcode: 866009
Or One tap mobile :
US: +16699006833,,84888004154#,,,,*866009# or +19294362866,,84888004154#,,,,*866009#
Or Telephone:
Dial(for higher quality, dial a number based on your current location):
US: +1 669 900 6833 or +1 929 436 2866 or +1 253 215 8782 or +1 301 715 8592 or +1 312 626 6799 or +1 346 248 7799
Webinar ID: 848 8800 4154
Passcode: 866009
International numbers available: https://us02web.zoom.us/u/kcp9UIII5B
Zoom Video
Join our Cloud HD Video Meeting
Zoom is the leader in modern enterprise video communications, with an easy, reliable cloud platform for video and audio conferencing, chat, and webinars across mobile, desktop, and room systems. Zoom Rooms is the original software-based conference room solution…
Day 2 16.12.2021
* 15.00-15.30 ORCA goes Industry: some recent applications at Bayer, division Crop Science, M. E. Beck, D. Yepes Tejada
Chair: E. Schiavo
* 15.40-16.00 Ab-initio methods for solids, A. Dittmer
* 16.00-16.20 Crystal structure refinement with charge density from ORCA 5.0 calculation using NoSphereA2 in OLEX2 1.5, M. Patzer
* 16.20-16.40 Important role of open metal sites in adsorption of various molecules in Basolite F300 and Basolite C300 metal-organic frameworks, I. Mikulska
* 16.40-17.00 Infrared Sequence Alignment Enables Stereochemical Assignment of Complex Natural Products, F. Pultar
Chair: A. Auer
* 17.30-17.50 Co(II) Single Ion Magnets with imino-pyrrolyl ligands: Analysis and Design strategies. N. A. G. Bandeira
* 17.50-18.10 Applications of conventional configuration interaction techniques to antiferromagnetically coupled systems: the case of iron-sulfur clusters, A. Kubas
* 18.10-18.30 Apical ligand effects on the electronic structure of Co(III) corroles, N. I. Neuman * 18.30-18.50 Zero-field splitting in an Ni4 complex: Multiconfigurational and relativistic calculations with up to four active nickel(II) sites, R. Maurice
* 19.00 Concluding remarks, ORCA developer team
* 15.00-15.30 ORCA goes Industry: some recent applications at Bayer, division Crop Science, M. E. Beck, D. Yepes Tejada
Chair: E. Schiavo
* 15.40-16.00 Ab-initio methods for solids, A. Dittmer
* 16.00-16.20 Crystal structure refinement with charge density from ORCA 5.0 calculation using NoSphereA2 in OLEX2 1.5, M. Patzer
* 16.20-16.40 Important role of open metal sites in adsorption of various molecules in Basolite F300 and Basolite C300 metal-organic frameworks, I. Mikulska
* 16.40-17.00 Infrared Sequence Alignment Enables Stereochemical Assignment of Complex Natural Products, F. Pultar
Chair: A. Auer
* 17.30-17.50 Co(II) Single Ion Magnets with imino-pyrrolyl ligands: Analysis and Design strategies. N. A. G. Bandeira
* 17.50-18.10 Applications of conventional configuration interaction techniques to antiferromagnetically coupled systems: the case of iron-sulfur clusters, A. Kubas
* 18.10-18.30 Apical ligand effects on the electronic structure of Co(III) corroles, N. I. Neuman * 18.30-18.50 Zero-field splitting in an Ni4 complex: Multiconfigurational and relativistic calculations with up to four active nickel(II) sites, R. Maurice
* 19.00 Concluding remarks, ORCA developer team
Scientists unveil drug discovery tool to screen more than 11 billion compounds
https://phys.org/news/2021-12-scientists-unveil-drug-discovery-tool.html
https://phys.org/news/2021-12-scientists-unveil-drug-discovery-tool.html
phys.org
Scientists unveil drug discovery tool to screen more than 11 billion compounds
On the surface of our cells are docking stations called receptors. All kinds of compounds from caffeine and dopamine to heroin, THC and LSD bind to these receptors. In fact, G protein-coupled receptors ...
Registrations are now open for the 8th Virtual Winter School for Computational Chemistry which will take place 21-25th February 2022.
Full information and the registration page can be found here: www.winterschool.cc Registration is free for all participants.
The Virtual Winter School for Computational Chemistry covers a broad range of topics in computational and theoretical chemistry. The extended lecture format allows ample time to cover both introductory material on topics as well as the latest research developments.
There will also be two ‘hands on’ workshops on how to use quantum chemical programs, including Gaussian and ADF this year.
Confirmed speakers for the 2022 edition include:
* Professor Roald Hoffman (Cornell University)
* Dr Joaquin Barroso (National Autonomous University of Mexico)
* Dr Stephane Irle (Oak Ridge National Laboratory)
* Professor Satoshi Maeda (Hokkaido University)
* Professor Dan Crawford (Virginia Tech)
* Professor Anastasia V. Bochenkova (Lomonosov Moscow State University)
* Dr Nicole Holzmann (Riverlane)
* Professor György M Keserű (Research Center for Natural Sciences)
* Professor Takeshi Yanai (Nagoya University)
* Professor Jeremy Harvey (KU Leuven)
* Professor Samer Gozem (Georgia State University)
* Professor Carla de Figuria (University College London)
We look forward to welcoming you at the 2022 event.
Virtual Winter School for Computational Chemistry Organising Committee
Full information and the registration page can be found here: www.winterschool.cc Registration is free for all participants.
The Virtual Winter School for Computational Chemistry covers a broad range of topics in computational and theoretical chemistry. The extended lecture format allows ample time to cover both introductory material on topics as well as the latest research developments.
There will also be two ‘hands on’ workshops on how to use quantum chemical programs, including Gaussian and ADF this year.
Confirmed speakers for the 2022 edition include:
* Professor Roald Hoffman (Cornell University)
* Dr Joaquin Barroso (National Autonomous University of Mexico)
* Dr Stephane Irle (Oak Ridge National Laboratory)
* Professor Satoshi Maeda (Hokkaido University)
* Professor Dan Crawford (Virginia Tech)
* Professor Anastasia V. Bochenkova (Lomonosov Moscow State University)
* Dr Nicole Holzmann (Riverlane)
* Professor György M Keserű (Research Center for Natural Sciences)
* Professor Takeshi Yanai (Nagoya University)
* Professor Jeremy Harvey (KU Leuven)
* Professor Samer Gozem (Georgia State University)
* Professor Carla de Figuria (University College London)
We look forward to welcoming you at the 2022 event.
Virtual Winter School for Computational Chemistry Organising Committee
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Conceptual_density_functional_theory_and_its_application_in_the.pdf
43.9 MB
Conceptual density functional theory and its application in the chemical domain
'CatGym' algorithm predicts better catalysts – Physics World
https://physicsworld.com/a/catgym-algorithm-predicts-better-catalysts/
https://physicsworld.com/a/catgym-algorithm-predicts-better-catalysts/
Physics World
‘CatGym’ algorithm predicts better catalysts
Deep reinforcement learning technique finds the best surface atom configurations for a given chemical reaction
Computational Chemis... by Errol G. Lewars.pdf
17.5 MB
Computational Chemis... by Errol G. Lewars
MOKIT offers various utilities and modules to transfer MOs among various quantum chemistry software packages. Besides, the automr program in MOKIT can set up and run common multi-reference calculations in a black-box way.
https://gitlab.com/jxzou/mokit
https://gitlab.com/jxzou/mokit
GitLab
Jingxiang Zou / MOKIT · GitLab
Molecular Orbital KIT
Happy new year to all the friends and colleagues on the Computational Chemistry Group. May 2022 bring great achievements to all of you!
CP2K 9.1 was just released
https://github.com/cp2k/cp2k/releases/tag/v9.1.0
------------------------------
Released December 31, 2021
* Fix MacOS build (#1316)
* Add NEWTONX interface (#1794)
* Add Gromacs QM/MM support (see also)
* Add experimental support for HIP and OpenCL to DBCSR
* Adopt BSD3 license for new performance critical code (#1632)
* Add GAL21 forcefield (#1579)
* Upgrade to MPI_THREAD_SERIALIZED (#1564)
* Add new pseudopotentials and basis sets (#1547, #1551)
* Add analytical derivatives of the MO coefficients wrt nuclear coordinates (#1706)
* Add forces for RI-HFX (#1688)
* Add forces for TDDFT (#1670, #1759)
* Regularized RI for periodic GW (#1776)
* Add beadwise constraints to PINT (#1734)
* Add analytical stress tensor for NNP (#1783)
* Add ghost particles and tip scan for xTB (#1578)
* Add forces and stress tensor for MP2-based double-hybrids (#1647)
* Rewrite regtesting noscript in Python, arguments changed slightly (#1548)
https://github.com/cp2k/cp2k/releases/tag/v9.1.0
------------------------------
Released December 31, 2021
* Fix MacOS build (#1316)
* Add NEWTONX interface (#1794)
* Add Gromacs QM/MM support (see also)
* Add experimental support for HIP and OpenCL to DBCSR
* Adopt BSD3 license for new performance critical code (#1632)
* Add GAL21 forcefield (#1579)
* Upgrade to MPI_THREAD_SERIALIZED (#1564)
* Add new pseudopotentials and basis sets (#1547, #1551)
* Add analytical derivatives of the MO coefficients wrt nuclear coordinates (#1706)
* Add forces for RI-HFX (#1688)
* Add forces for TDDFT (#1670, #1759)
* Regularized RI for periodic GW (#1776)
* Add beadwise constraints to PINT (#1734)
* Add analytical stress tensor for NNP (#1783)
* Add ghost particles and tip scan for xTB (#1578)
* Add forces and stress tensor for MP2-based double-hybrids (#1647)
* Rewrite regtesting noscript in Python, arguments changed slightly (#1548)
GitHub
Release CP2K v9.1 · cp2k/cp2k
Fix MacOS build (#1316)
Add NEWTONX interface (#1794)
Add Gromacs QM/MM support (see also)
Add experimental support for HIP and OpenCL to DBCSR
Adopt BSD3 license for new performance critical code ...
Add NEWTONX interface (#1794)
Add Gromacs QM/MM support (see also)
Add experimental support for HIP and OpenCL to DBCSR
Adopt BSD3 license for new performance critical code ...
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Quantum Chemistry of Electronically Excited and Open Shell Species
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From Orbitals to Observables and Back
Special Issue focused on DFT - OPEN ACCESS
https://www.mdpi.com/journal/materials/special_issues/density_functional_theory
https://www.mdpi.com/journal/materials/special_issues/density_functional_theory
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Koopmans' theorem - Part 1
Quantum Breakthrough: How To Transform Vacancies Into Quantum Information
https://scitechdaily.com/quantum-breakthrough-how-to-transform-vacancies-into-quantum-information/
https://scitechdaily.com/quantum-breakthrough-how-to-transform-vacancies-into-quantum-information/
SciTechDaily
Quantum Breakthrough: How To Transform Vacancies Into Quantum Information
Team’s findings could help the design of industrially relevant quantum materials for sensing, computing, and communication. “Vacancy” is a sign you want to see when searching for a hotel room on a road trip. When it comes to quantum materials, vacancies are…
There is a new IboView release available!
IboView is a program for analyzing molecular electronic structure, based on Intrinsic Atomic Orbitals (IAOs). IboView's main features include:
* Visualization of electronic structure from first-principles DFT, in terms of intuitive concepts (partial charges, bond orders, bond orbitals)---even in systems with complex or unusual bonding.
* Publication quality graphics, very fast visualizations, and a simple user interface
* Import of wave functions from Molpro, Orca, Molcas, and Turbomole. IboView can also compute simple Kohn-Sham wave functions by itself, using the embedded MicroScf program. Additionally, IboView can be used as a plain orbital viewer if advanced analysis features are not required.
* Visualization of electronic structure changes along reaction paths. Using the techniques described Electron flow in reaction echanisms---revealed from first principles and implemented in IboView, curly arrow reaction mechanisms can be determined directly rom first principles!
IboView is developed by the Gerald Knizia group (initially at Universität Stuttgart, now at the Pennsylvania State University).
http://www.iboview.org/index.html
IboView is a program for analyzing molecular electronic structure, based on Intrinsic Atomic Orbitals (IAOs). IboView's main features include:
* Visualization of electronic structure from first-principles DFT, in terms of intuitive concepts (partial charges, bond orders, bond orbitals)---even in systems with complex or unusual bonding.
* Publication quality graphics, very fast visualizations, and a simple user interface
* Import of wave functions from Molpro, Orca, Molcas, and Turbomole. IboView can also compute simple Kohn-Sham wave functions by itself, using the embedded MicroScf program. Additionally, IboView can be used as a plain orbital viewer if advanced analysis features are not required.
* Visualization of electronic structure changes along reaction paths. Using the techniques described Electron flow in reaction echanisms---revealed from first principles and implemented in IboView, curly arrow reaction mechanisms can be determined directly rom first principles!
IboView is developed by the Gerald Knizia group (initially at Universität Stuttgart, now at the Pennsylvania State University).
http://www.iboview.org/index.html