20:3120:31, 4 December 2007diffhist+344
N
File:Fe3O4-CdS Nano Heterojunction.JPG
Image of a nanoscale heterojunction between iron oxide Fe3O4 (sphere) and CdS (rod) with a
TEM. This staggered gap (type II) offset junction was synthesized by Hunter McDaniel and Dr. Moonsub Shim at the University of Illinois in Urbana-Champaign in
22:2122:21, 23 October 2007diffhist+482
N
File:DWCNT CDI Reconstruction.png
A simulated double wall nanotube (n1,m1)(n2,m2) can be used to test a CDI algorithm. First, a simulated nanotube is created (left) given the chiral numbers, (26,24)(35,25) in this case. Then a diffraction pattern is created by using the power spectrum f
22:1822:18, 23 October 2007diffhist+481
N
File:CNT CDI Reconstruction.png
A simulated single wall nanotube (n,m) can be used to test a CDI algorithm. First, a simulated nanotube is created (left) given the chiral numbers, (2,10) (top) and (3,10) (bottom). Then a diffraction pattern is created by using the power spectrum funct
07:3707:37, 19 October 2007diffhist+248
N
File:Lrec 17-1.png
This reciprocal space diffraction image was taken by Ian Robinson's Group to be used in the reconstruction of a real space coherent x-ray diffraction image in 2007.
20:3120:31, 4 December 2007diffhist+344
N
File:Fe3O4-CdS Nano Heterojunction.JPG
Image of a nanoscale heterojunction between iron oxide Fe3O4 (sphere) and CdS (rod) with a
TEM. This staggered gap (type II) offset junction was synthesized by Hunter McDaniel and Dr. Moonsub Shim at the University of Illinois in Urbana-Champaign in
22:2122:21, 23 October 2007diffhist+482
N
File:DWCNT CDI Reconstruction.png
A simulated double wall nanotube (n1,m1)(n2,m2) can be used to test a CDI algorithm. First, a simulated nanotube is created (left) given the chiral numbers, (26,24)(35,25) in this case. Then a diffraction pattern is created by using the power spectrum f
22:1822:18, 23 October 2007diffhist+481
N
File:CNT CDI Reconstruction.png
A simulated single wall nanotube (n,m) can be used to test a CDI algorithm. First, a simulated nanotube is created (left) given the chiral numbers, (2,10) (top) and (3,10) (bottom). Then a diffraction pattern is created by using the power spectrum funct
07:3707:37, 19 October 2007diffhist+248
N
File:Lrec 17-1.png
This reciprocal space diffraction image was taken by Ian Robinson's Group to be used in the reconstruction of a real space coherent x-ray diffraction image in 2007.