L... Live views at the conference, P... post-conference views, T... total views, W ... weighted views (total/mean value of views for the day)
Speakers in bold - invited in sessions
| Speaker | Session | Title | L | P | T | W | |||
| 1 | S. Grudinin | Machine learning in biological and structural sciences | Deep learning entering the post-protein structure prediction era : new horizons for structural biology | 96 | 13 | 109 | 2.024 | ||
| 2 | G. M. Day | Machine learning in biological and structural sciences | Learning structure-energy relationships for the prediction of molecular crystal structures | 102 | 6 | 108 | 2.005 | ||
| 3 | A. Thorn | Machine learning in biological and structural sciences | How machine learning can supplement traditional quality indicators - and the human eye: A case study | 96 | 7 | 103 | 1.912 | ||
| 4 | M. Vollmar | Machine learning in biological and structural sciences | Predicting experimental phasing success for data triaging | 86 | 8 | 94 | 1.745 | ||
| 5 | J. Cumby | Machine learning in biological and structural sciences | New generalized crystallographic descriptors for structural machine learning | 90 | 4 | 94 | 1.745 | ||
| 6 | K. Keune | Science meets art: X-ray spectrometry and X-ray diffraction in art and archaeology | Operation Night Watch: macro- and microscale X-ray imaging studies on the Rembrandts’ masterpiece The Night Watch in the Rijksmuseum. | 63 | 27 | 90 | 1.671 | ||
| 7 | J. Susini | 4th generation SR and XFEL Facilities | The ultra-low emittance synchrotron storage rings: a new paradigm for matter characterization. | 78 | 8 | 86 | 1.597 | ||
| 8 | J.R. Helliwell | 4th generation SR and XFEL Facilities | Towards a structural biology at organism relevant temperature and chemical conditions | 77 | 3 | 80 | 1.485 | ||
| 9 | A. van der Lee | Science meets art: Crystallography and cultural heritage | Why is heptagonal symmetry so rare in art and architecture? | 68 | 12 | 80 | 1.485 | ||
| 10 | K. Nass | 4th generation SR and XFEL Facilities | Pink-beam serial femtosecond crystallography for accurate structure factor determination at an X-ray free electron laser | 70 | 6 | 76 | 1.411 | ||
| 11 | H.J. Bernstein | Handling of big data in crystallography | A Gold Standard for the archiving of macromolecular diffraction data | 70 | 5 | 75 | 1.392 | ||
| 12 | C. Berthold | Science meets art: X-ray spectrometry and X-ray diffraction in art and archaeology | X-ray Microdiffraction of Cultural Heritage: Potentials und Limitations | 67 | 7 | 74 | 1.374 | ||
| 13 | D. Ravnsbaek | Disordered materials: spectroscopic and scattering techniques II | Order-disorder transitions in battery electrodes studied by operando X-ray scattering | 65 | 8 | 73 | 1.355 | ||
| 14 | S. Bette | Science meets art: Crystallography and cultural heritage | The variety of calcium bearing efflorescence phases - An explanation by crystal chemistry | 66 | 7 | 73 | 1.355 | ||
| 15 | I. Inoue | 4th generation SR and XFEL Facilities | Ultrafast structural changes in matter induced by intense X-ray free-electron laser pulses | 68 | 3 | 71 | 1.318 | ||
| 16 | D. Pashkov | Machine learning in biological and structural sciences | Analysis of pre-edge XANES spectra of Fe:SiO4 system by using machine learning methods. | 67 | 2 | 69 | 1.281 | ||
| 17 | M.W. Terban | Disordered materials: spectroscopic and scattering techniques II | Developing more precise structural descriptions of layered covalent organic frameworks using total scattering data | 60 | 9 | 69 | 1.281 | ||
| 18 | G. Dmytriv | Science meets art: Crystallography and cultural heritage | Crystallography vs. human masterpiece: Li20Mg6Cu13Al42, Mg9Ni6Ga14 and Mg3Ni2Ga structures vs. ivory puzzle balls | 64 | 4 | 68 | 1.263 | ||
| 19 | S. Panjikar | Handling of big data in crystallography | Data evaluation on the fly: Auto-Rickshaw at the MX beamlines of the Australian Synchrotron | 63 | 5 | 68 | 1.263 | ||
| 20 | A. Rodriguez-Fernandez | 4th generation SR and XFEL Facilities | Ultrafast dynamical diffraction wavefronts in strained Si imagined with Tele-ptychography | 63 | 4 | 67 | 1.244 | ||
| 21 | T. Donath | 4th generation SR and XFEL Facilities | Advances with EIGER2 (CdTe) detectors for Synchrotron and Laboratory | 61 | 6 | 67 | 1.244 | ||
| 22 | N. Roth | Disordered materials: spectroscopic and scattering techniques II | Tuneable Local Structure in Thermoelectric Crystals | 55 | 10 | 65 | 1.207 | ||
| 23 | A. Bernasconi | Disordered materials: spectroscopic and scattering techniques II | Structure of complex aluminosilicate oxide-glasses: the role of zinc intermediate element. | 61 | 3 | 64 | 1.188 | ||
| 24 | S. Švarcová | Science meets art: X-ray spectrometry and X-ray diffraction in art and archaeology | XRPD as a tool for the study of pigment-binder interactions: from metal formates to long-chain carboxylates | 60 | 3 | 63 | 1.170 | ||
| 25 | K.H. Janssens | Science meets art: Crystallography and cultural heritage | Fingerprinting Natural Ultramarine in 15th-17th century Netherlandish paintings | 55 | 8 | 63 | 1.170 | ||
| 26 | M. Grabowski | Handling of big data in crystallography | IRRMC (https:// proteindiffraction.org): Impact on quality of structures in PDB | 59 | 3 | 62 | 1.151 | ||
| 27 | W. Minor | Handling of big data in crystallography | Rapid response to biomedical challenges and threats | 61 | 1 | 62 | 1.151 | ||
| 28 | P. Moeck | Science meets art: Crystallography and cultural heritage | Information theory based symmetry classifications of more or less 2D periodic patterns in Islamic building ornaments and Hans Hinterreiter’s graphic art | 57 | 4 | 61 | 1.133 | ||
| 29 | L.G.M. Peterson | Disordered materials: spectroscopic and scattering techniques II | SpecSwap-RMC: A Generalized RMC Approach to Structure, Combining Scattering and Spectroscopic Data | 54 | 6 | 60 | 1.114 | ||
| 30 | O.V. Magdysyuk | Crystal chemistry with emerging technology II | In situ study of chemical synthesis using high-energy X-ray diffraction on beamline I12 at Diamond Light Source | 54 | 3 | 57 | 1.058 | ||
| 31 | C. Stanii | Science meets art: X-ray spectrometry and X-ray diffraction in art and archaeology | A multidisciplinary study unveils the nature of a Roman ink of the I century AD | 52 | 5 | 57 | 1.058 | ||
| 32 | T. Nishiyama-Hiraki | Handling of big data in crystallography | Development of an on-the-fly data processing with information-lossless compression for CITIUS detectors at SPring-8 | 55 | 2 | 57 | 1.058 |