量子晶体学（或电子结构晶体学）系列讲座

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量子晶体学（或称电子结构晶体学，实验电荷分析）系列讲座
“https://www.youtube.com/watch?v= ... WKsnwvdegdYCs8raZoq”  


Lecture 1: Piero Macchi: "Quantum Crystallography at extreme conditions: necessities and pitfalls"
Lecture 2: Roger Johnson: "Charge density **ysis and the fundamentals of magnetic super-exchange"
Lecture 3: Dylan Jayatilaka: "Quantum Crystallography: Past, Present, and Future"
Lecture 4: Jacob Overgaard: "Quantum Crystallography in molecular magnetism"
Lecture 5: George Christou: "Molecular Nanoparticles: A Molecular Route to ... "
Lecture 6: Dietmar Stalke: " Reactivity and Bonding in Lithiumorganics from Charge Density "
Lecture 7: Ann-Christin Pöppler: " Molecular level structural information through NMR ... "
Lecture 8: Alessandro Genoni: "Development of Methods with a Strong Interplay between ..."
Lecture 9: Johannes Neugebauer: "Electron Densities from Subsystem Density-Functional Theory"
Lecture 10: Christian Jelsch: "Charge Density & Intermolecular Interactions"
Lecture 11: Thomas Barends: "Watching Molecules at Work with Free-Electron Lasers"
Lecture 12: Bo Brummstedt Iversen: "Chemical bonding and local order"
Lecture 13: Simon Billinge: "Do materials have a genome, and if they do, what can we do with it?"
Lecture 14: Parthapratim Munshi: "On the Potency of Polymorphic Bioactive Molecules: A Quantum ..."
Lecture 15: Marcus A. Neumann: "Detecting and avoiding disappearing polymorph cases by crystal ..."
Lecture 16: Paulina Dominiak: "Modelling electrostatic potential in electron diffraction studies."
Lecture 17: Richard Beanland: "Exploring dynamical scattering using 'digital' large-angle ...
Lecture 18: Lukas Palatinus: "3D electron diffraction for charge density **ysis: ...
Lecture 19: Jean-Michel Gillet: "Phase Space Quantum Crystallography: how about considering ..."
Lecture 20: Katarzyna Pernal: "Reduced Functions and Descriptors for Accurate Electronic ... "
Lecture 21: Saulius Gražulius: "Open databases: what do we have, where are we going?"
Lecture 22: Julian Henn: "Global data quality metrics and data quality filter systems"
Lecture 23: Ángel Martín Pendás: "Is the one-particle approximation biasing our interpretation ...
Lecture 24: Michele Ceriotti: "Physics-Based Machine Learning of the Electron Density"
Lecture 25: Anders Madsen: "Dynamic Quantum Crystallography: Thermal motion in crystallography ...."
Lecture 26: Rebecca Nicholls: "Phonon vibrations probed using the electron microscope."
Lecture 27: Enrique Espinosa: "Topological **ysis of the Electrostatic Potential in Molecular ..."
Lecture 29: Simon Grabowsky: “Quantum crystallography for chemical bonding **ysis”
Lecture 30: F. Matthias Bickelhaupt: “(Intermolecular) Covalent Interactions: A Quantitative ...
Lecture 31: Cherif Matta: “ATP Synthase: More than just a biocatalyst?"
Lecture 32: Ulf Ryde, K Lundgren, E. Oksanen: “Recent development in quantum refinement of ...
Lecture 33: Anna Krawczuk : " Dipolar group polarizability as a multipurpose tool for predicting...
Lecture 34: Krzysztof Szalewicz: "Reliable predictions of crystal structures entirely from ...
Lecture 35: Marek Żukowski: " Einstein-Podolsky-Rosen Paradox, Bell's Theorem, entanglement, GHZ...
Lecture 36 : Julia Contreras-Garcia: "Constructing New Models to Predict Superconductivity ...
Lecture 37: Eva Zurek : "Theoretical Design of Light-Element Superconductors"
Lecture 38 : Martin Rahm: "The Electron Density: a Fidelity Witness for Quantum Computation"
Lecture 39: Peter Baum: "Attosecond and femtosecond electron microscopy"
Lecture 40: Nicolas Claiser: "Joint refinement of diffraction data (but not only): a short story"
Lecture 41: Huibo Cao: "Chirality and magnetic symmetry"
Lecture 42: Sajesh Thomas: "Chemical Applications of X-ray Quantum Crystallography"
Lecture 43: Sarah Guerin : Rational Design of Complex Electromechanical Phenomena in ...
Lecture 44: Louis Massa: Energy formalism of an X-ray electron density of large biological molecules