Diffraction from the individual molecules of a molecular beam, aligned parallel to a single axis by a strong electric field or other means, has been proposed as a means of structure determination of individual molecules. As in fiber diffraction, all the information extractable is contained in a diffraction pattern from incidence of the diffracting beam normal to the molecular alignment axis. We present two methods of structure solution for this case. One is based on the iterative projection algorithms for phase retrieval applied to the coefficients of the cylindrical harmonic expansion of the molecular electron density. Another is the holographic approach utilizing presence of the strongly scattering reference atom for a specific molecule
It is now established that the 3D structure of homogeneous nanocrystals can be recovered from in-lin...
Single-molecule imaging methods are of importance in structural biology, and specifically in the ima...
Citation: Yu, C., Wei, H., Wang, X., Le, A. T., Lu, R. F., & Lin, C. D. (2015). Reconstruction of tw...
We investigate the molecular structure information contained in the x-ray diffraction patterns of an...
The current state of the art in structural biology is led by NMR, X-ray crystallography and TEM inve...
Based on the visionary experiments in femtochemistry and ultrafast electron diffraction many details...
Ubiquitous to most molecular scattering methods is the challenge to retrieve bond distance and angle...
Diffraction from laser-aligned molecules has been proposed as a method for determining 3-D molecular...
Diffraction from laser-aligned molecules has been proposed as a method for determining 3-D molecular...
Ubiquitous to most molecular scattering methods is the challenge to retrieve bond distance and angl...
Reconstruction from a single diffraction pattern of azimuthally projected electron density of molecu...
Diffraction from laser-aligned molecules has been proposed as a method for determining 3-D molecular...
Free-electron lasers now have the ability to collect X-ray diffraction patterns from individual mole...
3D electron diffraction allows data collection on nanocrystalline domains, which can be used as kine...
A global optimization strategy, based upon application of a genetic algorithm (GA), is demonstrated ...
It is now established that the 3D structure of homogeneous nanocrystals can be recovered from in-lin...
Single-molecule imaging methods are of importance in structural biology, and specifically in the ima...
Citation: Yu, C., Wei, H., Wang, X., Le, A. T., Lu, R. F., & Lin, C. D. (2015). Reconstruction of tw...
We investigate the molecular structure information contained in the x-ray diffraction patterns of an...
The current state of the art in structural biology is led by NMR, X-ray crystallography and TEM inve...
Based on the visionary experiments in femtochemistry and ultrafast electron diffraction many details...
Ubiquitous to most molecular scattering methods is the challenge to retrieve bond distance and angle...
Diffraction from laser-aligned molecules has been proposed as a method for determining 3-D molecular...
Diffraction from laser-aligned molecules has been proposed as a method for determining 3-D molecular...
Ubiquitous to most molecular scattering methods is the challenge to retrieve bond distance and angl...
Reconstruction from a single diffraction pattern of azimuthally projected electron density of molecu...
Diffraction from laser-aligned molecules has been proposed as a method for determining 3-D molecular...
Free-electron lasers now have the ability to collect X-ray diffraction patterns from individual mole...
3D electron diffraction allows data collection on nanocrystalline domains, which can be used as kine...
A global optimization strategy, based upon application of a genetic algorithm (GA), is demonstrated ...
It is now established that the 3D structure of homogeneous nanocrystals can be recovered from in-lin...
Single-molecule imaging methods are of importance in structural biology, and specifically in the ima...
Citation: Yu, C., Wei, H., Wang, X., Le, A. T., Lu, R. F., & Lin, C. D. (2015). Reconstruction of tw...