single crystal structure determination of organic and organometallic compounds a.l. (ton) spek...
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Single Crystal Structure Determination of Organic and Organometallic Compounds
A.L. (Ton) Spek
National Single Crystal
Service Facility
Utrecht University
Amsterdam, 23-10-2007
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Single Crystal X-Ray Structure Determination
BLACKBOX
Single Crystals 3D-Structure
X-Ray Diffraction Experiment
Nowadays: THE technique in support of synthetic chemistryeither to confirm a proposed structure or to solve a puzzle.
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Some History
• The first X-ray structure determination was carried out around 1913 (Bragg).
• In the sixties, 40 years ago, a small molecule crystal structure determination still took in the order of half a year.
• Main problems were the time consuming data collection, the solution of the ‘Phase Problem’ and the the scarce and slow university main frame computing facilities.
• We received in the late 70th an interesting request from a synthetic chemist interested in the 3D structure of a new compound: ‘.. Can you inject this sample in your diffractometer ..’, a request that looked naïve at the time.
• In hindsight he was visionary, since …
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Announced Aug 2007: Tabletop ‘Black Box’ – Smart X2S
Crystal
Structure ?
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Current Status
• Data collection and evaluation procedures have now evolved to a level that a subset of the routine samples can indeed be analyzed automatically in a matter of hours.
• The problem is that many real world samples still turn out to be non-routine.
• Thus still a working knowledge is needed of what is in the box … in order to get a reliable structure.
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Black Box => Gray Box
X-RayDiffractionExperiment
Computation
-Unitcell info-H K L, I, (I)
-Solution of the phase problem-3D model x,y,z
Two sub-boxes
Crystal
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X-Ray Diffraction Experiment
X-Ray Sources
• Sealed Tube (CuKa, MoKa) 1-3kW
• Rotating Anode (CuKa, MoKa) ~ 10kW
• Rotating Anode + Focussing Mirrors
• New: Microsource ~30W
Low Temperature Unit for the best data
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X-Ray Diffraction Experiment
Reflection RegistrationTechniques• 2D-X-Ray Film (Weissenberg Camera etc.)• 1D-Point Detector (Scientilation counter – CAD4
- Automation• 2D-Image Plate • CCD 2D Detector (KappaCCD, APEX)• Future? Real time 2D low noise, shutterless
detectors
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X-Ray source, Goniometer & Serial Detector
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X-ray source, goniometer + crystal, N2-cooling and CCD Detector
Crystal
CCD - Detector
LNT
X-ray
Goniometer
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One of the several hundreds of CCD images with diffraction spots
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Data Collection
• Diffraction Condition (determines the position of the diffracted beams on the detector):
2 dhkl sin( = n Bragg Equation)• Result: - Cell Dimensions, a,b,c, - Reflection intensities by planes (hkl) in
the crystal: I(hkl) (many thousands)
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Computation
• Data Reduction to hkl I and (I)• Correction for absorption effects• Determination of the Space Group• Solution of the Phase Problem• Abstraction of a Parameter Model from 3D-density map• Refinement of the Structural Model• Analysis of the geometry, intermolecular interactions• Structure Validation
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Data Reduction
• Integration and scaling of the diffraction intensities
• E.g. with programs
(Generally comes with the hardware)
DENZO, EVAL-CCD, SAINT
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Correction for Absorption
• Numerical correction based on the description of the crystal in terms of its bounding faces.
• Correction based on Phi-scans (Serial Det.)• Fitted ‘Absorption Surface’ based on
multiple measured reflections with different setting angles (SADABS, TWINABS, MULABS etc.)
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Determination of the Space Group
Based on:
• Cell Dimensions
• Laue Symmetry
• Intensity Statistics (Centro/Non-Centro)
• Systematic Extinctions
• Space Group Frequency in the CSD
Note: Not always a unique proposal
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Structure Determination
• Experiment Ihkl |Fhkl| = Sqrt(Ihkl)
• Needed for 3D structure (approximate) Phases: hkl
|Fhkl| + hkl = Fhkl 3D-Fourier Synthesis (x,y,z) = [ hkl Fhkl exp{-2(hx + ky + lz)}] / V
x,y,z are fractional coordinates (range 0 1) Example next slide
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Contoured 2D-Section Through the 3D Structure
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Solution of the Phase Problem
• Direct Methods e.g. SHELXS, SHELXD, SIR, CRUNCH
• Patterson Methods DIRDIF
• Fourier Difference Maps (Structure Completion)
• New: Charge Flipping
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Abstracted and Interpreted Structure
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3D Parameter Model
• Extract the 3D Coordinates (x, y, z) of the atoms.• Assign Atom Types (Scattering type C, O etc.)• Assign Additional Parameters to Model the
Thermal Motion (T) of the Atoms.• Other Parameters: Extinction, Twinning, Flack x • Model: Fhkl = j=1,n fj T exp{2i(hx + ky + lz)}• Non-linear Least-squares Parameter Refinement
until Convergence.• Minimize: hkl w [(Fhkl
obs)2 – (Fhklcalc)2]2
• Agreement Factor: R = |Fobs – Fcalc| / |Fobs|
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Refinement of the Structural Model
Refinement Steps (Programs SHELXL, Crystals, XTAL etc)
1. Refine positional parameters + isotropic U2. Refine positional + anisotropic parameters3. Introduce H-atoms4. Refine H-atoms with x,y,z,U(iso) or riding on
their carrier atoms5. Refine weighting scheme6. ORTEP presentation
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Analysis of the Geometry and Intermolecular Interactions
Programs: PLATON, PARST etc
• Bond distances, angles, torsion angles, ring (puckering) geometry etc.
• Intermolecular Contacts
Hydrogen Bonds (O-H..O, N-H..O, O-H..)
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Structure Validation
• Refinement results in CIF File format.
• Final Fobs/Fcalc data in FCF File Format
• IUCr CHECKCIF tool
• PLATON Validation Tool
• Check in Cambridge Crystallographic Database for similar structures.
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Technical Issues and Problems
• Poor crystal quality (e.g. fine needle bundles)• Determination of the correct Space Group Symmetry• Pseudo-Symmetry• Absolute Structure of light atom structures• Twinning• Positional and substitutional disorder of part (or even the
whole) molecule• Disordered Solvent• Incommensurate structures• Diffuse scattering, streaks, diffuse layers
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Tools offered by PLATON
• The program PLATON offers multiple tools that can be used to analyse and solve problems encountered in a single crystal structure determination
Next slide Main Feature Menu PLATON
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Selected Tools
• ADDSYM – Detection and Handling of Missed (Pseudo)Symmetry
• TwinRotMat – Detection of Twinning• SOLV – Report of Solvent Accessible Voids• SQUEEZE – Handling of Disordered Solvents in
Least Squares Refinement (Easy to use Alternative for Clever Disorder Modelling)
• BijvoetPair – Post-refinement Absolute Structure Determination (Alternative for Flack x)
• VALIDATION – PART of IUCr CHECKCIF
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ADDSYM
• About 1% of the 2006 & 2007 entries in the CSD need a change of space group.
• Often, a structure solves only in a space group with lower symmetry than the correct space group. The structure should subsequently be checked for higher symmetry.
• Next slides: Recent examples of missed symmetry
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WRONG SPACEGROUP
J.A.C.S. (2000),122,3413 – P1, Z = 2
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P-1, Z=2
CORRECTLY REFINED STRUCTURE
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Organic Letters (2006) 8, 3175
P1, Z’ = 8 CCo
Correct Symmetry ?
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Correct Space Group
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After Transformation to P212121, Z’ = 2
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Organometallics (2004) 23,2310
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Change of Space Group ALERT
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(Pseudo)Merohedral Twinning
• Options to handle twinning in L.S. refinement available in SHELXL, CRYSTALS etc.
• Problem: Determination of the Twin Law that is in effect.• Partial solution: coset decomposition, try all possibilities (I.e. all symmetry operations of the lattice but not of the
structure)• ROTAX (S.Parson et al. (2002) J. Appl. Cryst., 35, 168. (Based on the analysis of poorly fitting reflections of the type
F(obs) >> F(calc) )• TwinRotMat Automatic Twinning Analysis as implemented in
PLATON (Based on a similar analysis but implemented differently)
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TwinRotMat Example
• Originally published as disordered in P3.• Solution and Refinement in the trigonal
space group P-3 R= 20%.• Run PLATON/TwinRotMat on CIF/FCF• Result: Twin law with an the estimate of the
twinning fraction and the estimated drop in R-value
• Example of a Merohedral Twin
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Ideas behind the Algorithm
• Reflections effected by twinning show-up in the least-squares refinement with F(obs) >> F(calc)
• Overlapping reflections necessarily have the same Theta value within a tolerance.
• Generate a list of implied possible twin axes based on the above observations.
• Test each proposed twin law for its effect on the R-value.
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Possible Twin Axis
H H’
H” = H + H’
Strong reflection H’ with theta close to theta of reflection H
Candidate twinning axis(Normalize !)
Reflection withF(obs) >> F(calc)
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Solvent Accessible Voids
• A typical crystal structure has only in the order of 65% of the available space filled.
• The remainder volume is in voids (cusps) in-between atoms (too small to accommodate an H-atom)
• Solvent accessible voids can be defined as regions in the structure that can accommodate at least a sphere with radius 1.2 Angstrom without intersecting with any of the van der Waals spheres assigned to each atom in the structure.
• Next Slide: Void Algorithm: Cartoon Style
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STEP #1 – EXCLUDE VOLUME INSIDE THE VAN DER WAALS SPHERE
DEFINE SOLVENT ACCESSIBLE VOID
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DEFINE SOLVENT ACCESSIBLE VOID
STEP # 2 – EXCLUDE AN ACCESS RADIAL VOLUMETO FIND THE LOCATION OF ATOMS WITH THEIR
CENTRE AT LEAST 1.2 ANGSTROM AWAY
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DEFINE SOLVENT ACCESSIBLE VOID
STEP # 3 – EXTEND INNER VOLUME WITH POINTS WITHIN1.2 ANGSTROM FROM ITS OUTER BOUNDS
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CgListing of all voids in the triclinic unit cell
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VOID APPLICATIONS
• Calculation of Kitaigorodskii Packing Index• As part of the SQUEEZE routine to handle
the contribution of disordered solvents in crystal structure refinement
• Determination of the available space in solid state reactions (Ohashi)
• Determination of pore volumes, pore shapes and migration paths in microporous crystals
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SQUEEZE
• Takes the contribution of disordered solvents to the calculated structure factors into account by back-Fourier transformation of density found in the ‘solvent accessible volume’ outside the ordered part of the structure (iterated).
• Filter: Input shelxl.res & shelxl.hkl Output: ‘solvent free’ shelxl.hkl• Refine with SHELXL or Crystals• Note:SHELXL lacks option for fixed contribution
to Structure Factor Calculation.
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SQUEEZE Algorithm
1. Calculate difference map (FFT)
2. Use the VOID-map as a mask on the FFT-map to set all density outside the VOID’s to zero.
3. FFT-1 this masked Difference map -> contribution of the disordered solvent to the structure factors
4. Calculate an improved difference map with F(obs) phases based on F(calc) including the recovered solvent contribution and F(calc) without the solvent contribution.
5. Recycle to 2 until convergence.
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SQUEEZE In the Complex Plane
Fc(model)
Fc(solvent)Fc(total)
Fobs
Solvent Free Fobs
Black: Split Fc into a discrete and solvent contributionRed: For SHELX refinement, temporarily substract recovered solvent contribution from Fobs.
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Comment
• The Void-map can also be used to count the number of electrons in the masked volume.
• A complete dataset is required for this feature.• Ideally, the solvent contribution is taken into
account as a fixed contribution in the Structure Factor calculation (CRYSTALS) otherwise it is subtracted temporarily from Fobs
2 (SHELXL) and re-instated afterwards with info saved beyond column 80 for the final Fo/Fc list.
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Publication Note
• Always give the details of the use of SQUEEZE in the comment section
• Append the small CIF file produced by PLATON to the main CIF
• Use essentially complete data sets with sufficient resolution only.
• Make sure that there is no unresolved charge balance problem.
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Absolute Structure DeterminationComplex Scattering Factors
• Scattering factor: f = f0 + f ’ + if ’’ Where: f0 = a function of diffraction angle and equal to the
number of electrons in the atom at 0.f ‘and f ’’ atom type and dependent i = sqrt(-1)• Note: A phase shift is often represented mathematically as
a complex number.
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Breakdown of Friedels Law
• It can be derived from the expression for the calculated structure factor that for non-centrosymmetric crystal structures:
|Fhkl| not necessarily equal to |F-h-k-l| for f “ > 0, thus breaking the earlier assumed
Friedel Law: |Fhkl| = |F-h-k-l| (The Friedel Law still holds for centro-symmetric
structures containing racemic mixtures of chiral compounds).
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H,K,L
-H,-K,-L
Friedel Pair of Reflections
Friedel Pairs
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Selected f” - values
f”(CuKα) f”(MoKα)
Se 1.14 2.23
Cl 0.70 0.16
S 0.56 0.12
O 0.032 0.006
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Flack Parameter
• The current official method to establish the absolute configuration of a chiral molecule calls for the determination of the Flack x parameter.
Flack, H.D. (1983). Acta Cryst. A39, 876-881.• Twinning Model (mixture model and image): Ihklcalc = (1 – x) |Fhkl|2 + x |F-h-k-l|2
• Result of the least-squares refinement: x(u) Where x has physically a value between 0 and 1 and u the standard uncertainty (‘esd’)
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Interpretation of the Flack x
• H.D.Flack & G. Bernardinelli (2000)
J. Appl. Cryst. 33, 1143-1148.
• For a statistically valid determination of the absolute structure:
u should be < 0.04 and |x| < 2u
• For a compound with known enantiopurity:
u should be < 0.1 and |x| < 2u
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Post-Refinement Absolute Structure Determination
• Unfortunately, many pharmaceuticals contain in their native form only light atoms that at best have only weak anomalous scattering power and thus fail the strict Flack conditions.
• Alternative approaches are offered by PLATON with scatter plots and the determination of the Hooft y parameter
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Scatter Plot of Bijvoet Differences
• Plot of the Observed Bijvoet (Friedel) Differences against the Calculated Differences.
• A Least-Squares line is calculated• The Green least squares line should run from the
lower left to the upper right corner for the correct absolute structure.
• Vertical bars on data points indicate the su
on the Bijvoet Difference. Example
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Excellent Correlation
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Example: Ammonium Bitartrate Test
MoKa, P212121
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Ammonium BiTartrate (MoK
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Bayesian Approach
• Rob Hooft (Bruker) has developed an alternative approach for the analyses of Bijvoet differences that is based on Bayesian statistics. (Paper under review)
• Under the assumption that the material is enantiopure, the probability that the assumed absolute structure is correct, given the set of observed Bijvoet Pair Differences, is calculated.
• An extension of the method also offers the Fleq y (Hooft y) parameter to be compared with the Flack x.
• Example: Ascorbic Acid, P21, MoKa data
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Natural Vitamin C, L-(+)Ascorbic Acid
MoKa
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L-(+) Ascorbic Acid
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Hooft y Proper Procedure
• Collect data with an essentially complete set of Bijvoet Pairs
• Refine in the usual way (preferably) with BASF and TWIN instructions (SHELXL)
• Structure Factors to be used in the analysis are recalculated in PLATON from the parameters in the CIF (No Flack x contribution).
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Do we need Validation ?Some Statistics
• Validation CSD Entries 2006 + 2007
• Number of entries: 35760
• # of likely Space Group Changes: 384
• # of structures with voids: 3354
• Numerous problems with H, O, OH, H2O etc.
• Example
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Organometallics (2006) 25, 1511-1516
Next Slide: This is why the reported density is low and the R and Rw high
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Solvent Accessible
Void of
235 Ang3
out of
1123 Ang3
Not Accounted for in the
Refinement Model
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SOLUTION
A solution for the structure validation problem was pioneered by the International Union of Crystallography
- Provide and archive crystallographic data in the computer readable CIF standard format.
- Offer Automated validation, with a computer generated report for authors and referees.
- Have journals enforce a structure validation protocol.- The IUCr journals and most major journals now indeed
implement some form of validation procedure.
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THE CIF DATA STANDARD
- Driving Force: Syd Hall (IUCr/ Acta Cryst C)- Early Adopted by XTAL & SHELX(T)L.- Currently: WinGX,Crystals,Texsan, Maxus etc.- Acta Cryst. C/E – Electronic Submission- Acta Cryst.:Automatic Validation at the Gate- CIF data available for referees for detailed
inspection (and optional calculations).- Data retrieval from the WEB for published papers- CCDC – Deposition in CIF-FORMAT.
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VALIDATION QUESTIONS
Single crystal validation addresses three
simple but important questions:
1 – Is the reported information complete?
2 – What is the quality of the analysis?
3 – Is the Structure Correct?
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IUCr CHECKCIF WEB-Service
http://checkcif.iucr.org reports the outcome of:• IUCr standard tests
Consistency, Missing Data, Proper Procedure, Quality etc.
• + Additional PLATON based tests
Missed Symmetry, Twinning, Voids, Geometry, Displacement Parameters, Absolute Structure etc.
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ALERT LEVELS
• ALERT A – Serious Problem
• ALERT B – Potentially Serious Problem
• ALERT C – Check & Explain
• ALERT G – Verify or Take Notice
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ALERT TYPES
1 - CIF Construction/Syntax errors,
Missing or Inconsistent Data.
2 - Indicators that the Structure Model
may be Wrong or Deficient.
3 - Indicators that the quality of the results
may be low.
4 - Cosmetic Improvements, Queries and
Suggestions.
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EXAMPLE OF PLATON GENERATED
ALERTS FOR A RECENTPAPER PUBLISHED INJ.Amer.Chem.Soc. (2007)
Attracted special attention in Chemical and
Engineering News
Properly Validated ?
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Problems Addressed by PLATON/CIF-CHECK
- Missed Higher Space Group Symmetry- Solvent Accessible Voids in the Structure- Unusual Displacement Parameters- Hirshfeld Rigid Bond test- Misassigned Atom Type - Population/Occupancy Parameters- Mono Coordinated/Bonded Metals- Isolated Atoms (e.g. O, H, Transition Metals)
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More Problems Addressed by PLATON
- Too Many Hydrogen Atoms on an Atom- Missing Hydrogen Atoms- Valence & Hybridization- Short Intra/Inter-Molecular Contacts- O-H without Acceptor- Unusual Bond Length/Angle- CH3 Moiety Geometry- To be extended with tests for new problems
‘invented’ by authors.
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Additional Problems Addressed byPLATON/FCF-CHECK
• Information from .cif and .fcf files• Report on the resolution of the data• Report about randomly missing data• Check the completeness of the data (e.g. for
missing cusps of data• Report on Missed (Pseudo) Merohedral Twinning• Report on Friedel Pairs and Absolute Structure• Next Slide: ASYM VIEW Display for the
inspection of the data completeness
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Missing cusp of data
Section in reciprocal space
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Incorrectly Oriented O-H
• The O-H moiety is generally, with very few exceptions, part of a D-H..A system.
• An investigation of structures in the CSD brings up many ‘exceptions’.
• Closer analysis shows that misplacement of the O-H hydrogen atom is in general the cause.
• Molecules have an environment in the crystal !• Example
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Example of a PLATON/Check Validation Report: Two ALERTS related to the misplaced Hydrogen Atom
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Difference Electron Density Map
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Unsatisfactory Hydrogen Bond Network
Satisfactory Hydrogen Bond Network with new H-position
Example of Misplaced Hydrogen AtomValidation Looks at
inter-molecular contacts
ALERT !
Correct !
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QUATERNION FIT
• In many cases, an automatic molecule fit can be performed
• A) Identical atom numbering
• B) Sufficient number of Unique Atoms
• C) By manual picking of a few atom pairs
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QUATERNION FIT
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Simulated Powder Patterns
• It is not always apparent that two crystal structures are identical. The assigned unit cell or space group can differ.
• Comparison of the associated calculated powder patterns should solve the issue.
• Example for the CSD:
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“Orthorhombic”
Tetragonal
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THE MESSAGE
- Validation should not be postponed to the publication phase. All validation issues should be taken care of during the analysis.
- Everything unusual in a structure is suspect, mostly incorrect (artifact) and should be investigated and discussed in great detail and supported by additional independent evidence.
- The CSD can be very helpful when looking for possible precedents.
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CONCLUSION
Validation Procedures are excellent Tools to:- Set Quality Standards (Not just on R-Value)- Save a lot of Time in Checking, both by the
Investigators and the Journals (referees)- Point at Interesting Features (Pseudo-Symmetry,
short Interactions etc.) to be discussed.- Surface a problem that only an experienced
Crystallographer might be able to Address- Proof of a GOOD structure.
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Additional Info
http://www.cryst.chem.uu.nl (including a copy of this powerpoint presentation)
Thanks
for your attention !!
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