This material is available as a download (3Mb).
Crystallographic data in cif format.
Includes additional structures not presented in the main text.
|
File |
Compound |
|
js0004 |
146 |
|
js0005 |
169·CH2Cl2 |
|
js0006 |
138 |
|
js0008 |
118·2CH3CN |
|
js0009 |
139·CH2Cl2 |
|
js0010 |
118 |
|
js0011 |
151·CH3OH |
|
js0013 |
132·0.5CHCl3 |
|
js0014 |
170·CH2Cl2 |
|
js0015 |
167·CH2Cl2 |
|
js0017 |
141 |
|
js0019 |
2,8,12,18-Tetrahexyl-5,15-bis(4-cyanophenyl)-3,7,13,17-tetramethyl porphyrin·2CHCl3 |
|
js9802 |
196 |
|
js9813 |
121·2CH2Cl2 |
|
js9815 |
197 |
|
js9822 |
117 |
|
js9901 |
117 |
|
js9824 |
124 |
|
js9906 |
123 |
|
js9909 |
118·CH3OH |
|
js9918 |
126·2CH2Cl2 |
|
js9920 |
172 |
|
js9921 |
2,8,12,18-Tetrahexyl-5,15-bis(3-methoxyphenyl)-3,7,13,17-tetramethyl porphyrin |
|
js9928 |
188·2H2O |
|
js9932 |
2,8,12,18-Tetrahexyl-3,7,13,17-tetramethyl-5,15-diphenyl-porphyrinato zinc(II) · pyridine |
|
js9933 |
2,8,12,18-Tetrahexyl-3,7,13,17-tetramethyl-5,15-diphenyl-porphyrinato nickel(II) |
|
js9934 |
4,4'-dimethyl-2,2'-bipyridine rhenium tricarbonyl chloride |
|
js9935 |
120·0.5CHCl3 |
|
js9936 |
231·pyridine |
|
js9938 |
181 |
|
js9939 |
2,8,12,18-Tetrahexyl-3,7,13,17-tetramethyl-5,15-diphenyl-porphyrinato rhodium(III) phenyl |
|
js9941 |
119 |
|
js9942 |
166 |
|
js9944 |
217 |
|
js9945 |
5,15-Diphenyl porphyrin·CH2Cl2 |
|
js9946 |
5,15-Diphenyl porphyrin |
UV/visible titration data.
ASCII text files of experimental and calculated absorbance for titrations of 118 with EtSH, Me2Se2, DMSO and Me2S2.
Software
A computer program (FscalcV1.exe) for automated calculation of adhesion forces from AFM force curve data. Written for analysing the results of chemical force microscopy experiments. For PC, running Windows 95 or later.
C ++ source code of a program (patgen) for designing patterns for AFM nanomanipulation experiments, and the output from this program. Requires the nrutil library from W. H. Press, S. A. Teukolsky, W. T. Vetterling, B. P. Flannery, Numerical Recipes in C, Cambridge University Press, 1992.
The patterns are represented as a binary code. The digits can be converted to any desired motif, which could be printed on a surface, for example by microcontact printing. They have the property that every 3 ´ 3 area is unrelated by translation and 90° rotations to every other 3 ´ 3 area. If the field of view is restricted, as in an AFM image, then provided that a 3 ´ 3 area is in view the portion of the surface which is being observed can unambiguously be identified, regardless of the orientation of the surface.