Twenty-First Congress and General Assembly of the IUCr

PL 1: Carbon nanotubes. Audience.

PL 1: Carbon nanotubes. Philip Coppens.

L. D. Marks, Chair of Commission on Electron Crystallography.

L. D. Marks, Jon Gjønnes.

The Gjønnes Medal in Electron Crystallography recognizes an outstanding contribution to the field of electron crystallography. The award is accompanied by a certificate and funding to present an invited Keynote Lecture at the triennial International Congress of Crystallography. The award is named in honour of its first recipient, Professor Jon Gjønnes of the University of Oslo.

PL 1: Carbon nanotubes.

PL 1: Carbon nanotubes.

PL 1: Carbon nanotubes.

PL 2: NMR in solution and X-ray diffraction in crystals for postgenomic biology. Session Chair Eddy Arnold.

PL 2: NMR in solution and X-ray diffraction in crystals for postgenomic biology. Kurt Wüthrich.

PL 2: NMR in solution and X-ray diffraction in crystals for postgenomic biology. Kurt Wüthrich.

PL 2: NMR in solution and X-ray diffraction in crystals for postgenomic biology. Kurt Wüthrich.

PL 2: NMR in solution and X-ray diffraction in crystals for postgenomic biology. Audience.

PL 2: NMR in solution and X-ray diffraction in crystals for postgenomic biology. Audience.

KN 1: What Protein Data Bank tells us about the past, present and future of structural biology. Session Chair: Stephen Burley.

KN 1: What Protein Data Bank tells us about the past, present and future of structural biology. David Sayre.

KN 1: What Protein Data Bank tells us about the past, present and future of structural biology. Helen Berman.

KN 1: What Protein Data Bank tells us about the past, present and future of structural biology. Helen Berman.

KN 2: Ab initio powder diffraction studies of organometallics and coordination polymers. Angelo Sironi.

KN 2: Ab initio powder diffraction studies of organometallics and coordination polymers. Angelo Sironi. Question session.

KN 2: Ab initio powder diffraction studies of organometallics and coordination polymers. Angelo Sironi.

KN 3: Growth of silica biomorphs: Self-assembled crystal aggregates with non-crystallographic morphologies. Juan Manuel M Garcia-Ruiz.

KN 3: Growth of silica biomorphs: Self-assembled crystal aggregates with non-crystallographic morphologies. Audience.

KN 3: Growth of silica biomorphs: Self-assembled crystal aggregates with non-crystallographic morphologies. Audience.

KN 3: Growth of silica biomorphs: Self-assembled crystal aggregates with non-crystallographic morphologies. Juan Manuel M Garcia-Ruiz.

KN 4:The role of micrometer sized synchrotron radiation beams in the development of structural biology. Session Chair Soichi Wakatsuki.

KN 4:The role of micrometer sized synchrotron radiation beams in the development of structural biology. Sine Larsen.

KN 4:The role of micrometer sized synchrotron radiation beams in the development of structural biology. Sine Larsen.

KN 4:The role of micrometer sized synchrotron radiation beams in the development of structural biology. Audience.

KN 5: Photochromism of diarylethene single crystals - reversible color and shape changes on photoirradiation. Masahiro Irie.

KN 5: Photochromism of diarylethene single crystals - reversible color and shape changes on photoirradiation. Masahiro Irie.

KN 5: Photochromism of diarylethene single crystals - reversible color and shape changes on photoirradiation. Session Chair K. Ogawa.

KN 5: Photochromism of diarylethene single crystals - reversible color and shape changes on photoirradiation. Masahiro Irie.

KN 5: Photochromism of diarylethene single crystals-reversible color and shape changes on photoirradiation.

KN 5: Photochromism of diarylethene single crystals-reversible color and shape changes on photoirradiation. Elena Boldyreva.

KN 5: Photochromism of diarylethene single crystals-reversible color and shape changes on photoirradiation. Masahiro Irie on right.

KN 5: Photochromism of diarylethene single crystals-reversible color and shape changes on photoirradiation. G. Desiraju, M. Kaftory, Masahiro Irie.

KN 6: Quantum simulations of liquids and solids under pressure: Synergy between theory and experiment. Giula A. Galli.

KN 6: Quantum simulations of liquids and solids under pressure: Synergy between theory and experiment. Session Chair Artem R. Oganov.

KN 6: Quantum simulations of liquids and solids under pressure: Synergy between theory and experiment. Giula A. Galli.

KN 6: Quantum simulations of liquids and solids under pressure: Synergy between theory and experiment. Audience.

KN 7: Cryoelectron tomography: From molecules to systems. Session Chair Keiichi Namba.

KN 7: Cryoelectron tomography: From molecules to systems. Wolfgang Baumeister.

KN 7: Cryoelectron tomography: From molecules to systems. Wolfgang Baumeister.

KN 7: Cryoelectron tomography: From molecules to systems. Question session.

KN 8: Advances in direct-space structure determination of molecular materials from powder diffraction data.

KN 8: Advances in direct-space structure determination of molecular materials from powder diffraction data. Kenneth D. M. Harris.

KN 8: Advances in direct-space structure determination of molecular materials from powder diffraction data. Front row: Peter S. White, David Watkin, Carol Brock.

KN 8: Advances in direct-space structure determination of molecular materials from powder diffraction data. Sven Lidin.

KN 9: Powder diffraction studies of proteins. Session Chair Robert Von Dreele.

KN 9: Powder diffraction studies of proteins. Irene Margiolski.

KN 9: Powder diffraction studies of proteins. Irene Margiolski.

KN 9: Powder diffraction studies of proteins. Irene Margiolski.

KN 10: Structural biology studies of the avian influenza H5N1 virus. Session Chair Jack Johnson.

KN 10: Structural biology studies of the avian influenza H5N1 virus. Zihe Rao.

KN 10: Structural biology studies of the avian influenza H5N1 virus. Zihe Rao.

KN 10: Structural biology studies of the avian influenza H5N1 virus. Rolf Hilgenfeld, Zihe Rao, Jack Johnson, Eddy Arnold.

KN 11: The crystallochemical basis of synthetic mineral immobilisation technologies. Tim White.

KN 11: The crystallochemical basis of synthetic mineral immobilisation technologies.

KN 12: Imaging of nanostructures at diffraction-limited resolution from electron diffraction patterns. Jian-Min Zuo.