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Notes for authors
Acta Crystallographica Section E: Structure Reports Online is the IUCr's first electronic-only structural journal. It provides a fast, simple and easily accessible publication mechanism for the growing number of valuable inorganic, metal-organic and organic determinations. The electronic submission, validation, refereeing and publication facilities of the journal ensure rapid and high-quality publication, whilst key indicator flags are used to provide measures of structural reliability. The journal encourages the publication of routine as well as interesting and difficult structures, and promotes the inclusion of illustrations and multimedia supplements.
1. Submission requirements
1.1. Manuscript checking and preparation
All papers must be submitted in Crystallographic Information File (CIF) format. The use of this format is being enhanced by the availability of an easy-to-use editor. Details about CIFs are given in Hall et al. [Acta Cryst. (1991), A47, 655–685]. Guidelines for the preparation and editing of a the data items required therein, standard data codes and keywords, templates, example CIFs, and data-validation criteria and procedures, together with the free editor [enCIFer, developed by the Cambridge Crystallographic Data Centre (CCDC)], are available via the online author help page (see §7![[link]](../../../../../../logos/arrows/e_arr.gif)
). The Section Editors, Co-editors and Chester staff are also available to assist any author.
Authors are required to pre-check their submission using the checkCIF service at https://journals.iucr.org/services/cif/checkcif.html . Any reported problems with the submitted data should normally be corrected before submission. If the report contains validation alerts about the consistency, adequacy or quality of the data, these will need to be addressed, or, if the authors consider there are specific valid or unavoidable reasons for these alerts, the validation response form (VRF) supplied by checkCIF can be completed and included in the submitted perhaps with addition of appropriate explanatory text in the experimental section of the CIF.
The text and tables of a paper may be previewed by sending the (after completing the pre-check) to the printCIF service at https://journals.iucr.org/services/cif/printcif.html . A PostScript or PDF file of the paper will be returned for local viewing or printing. We encourage authors to make use of this facility. Note that use of these automatic checking and printing facilities does not constitute a submission to Section E.
1.2. Categories of submission
Section E publishes two categories of papers. The requested category must be specified in the submitted as _publ_requested_category, using one of the codes listed below.
(a) Full papers describe the determination of a single structure. The submitted is validated using checkCIF and database checks are applied by the Inorganic Database (ICSD) or CCDC. The the checking results and associated files are then passed to a Co-editor for peer review. Once accepted, the paper and associated graphics, together with the and structure factors, will be accessible electronically from the Crystallography Journals Online service at https://journals.iucr.org. The category codes used to identify these papers are EI for inorganic, EM for metal–organic, and EO for organic structures.
(b) Addenda and Errata are short papers describing additions to, comments on, or errata to existing Section E publications and are not intended for interim reports of work in progress. The text should not exceed 1000 words. Addenda and Errata are peer reviewed. The category code for these papers is AD.
1.3. Method of submission
CIFs must be submitted via the web at https://journals.iucr.org/services/submit.html . All submitted CIFs must have been pre-checked using the facilities described in §1.1.
As part of the submission process, authors will be prompted to provide the additional material required for submission. This includes the chemical scheme (see §2.9), crystallographic diagrams (see §2.10) and structure factors (see §2.12). During the web submission process, authors will also be asked to agree to transfer the copyright of their paper to the IUCr (see §1.6).
On completion of the web submission process, authors will be sent an e-mail that formally acknowledges receipt of the submission, together with the Chester refcode. The Chester refcode has two letters and four digits (e.g. fg1795), with the two letters identifying the assigned Co-editor; the refcode should be used in all subsequent communications with the Chester office and Co-editor.
Contact details for the IUCr Editorial Office are as follows:
The Managing Editor
International Union of Crystallography
5 Abbey Square
Chester CH1 2HU
England
Telephone: +44 1244 342878
Fax: +44 1244 314888
All e-mail communications concerning a particular paper should be sent to refcode@iucr.org, where refcode is the Chester assigned code as described above.
1.5. Author's warranty
The submission of a paper is taken as an implicit guarantee that the work is original, that it is the author(s) own work, that all authors concur with and are aware of the submission, that all workers involved in the study are listed as authors or given proper credit in the acknowledgements, that the results have not already been published (in any language or medium) or deposited in a public access database, and that the paper is not being considered and will not be offered elsewhere while under consideration for an IUCr journal.
1.6. Copyright
Except as required otherwise by national laws, an author will be required to agree to the transfer of copyright before a manuscript can be accepted.
1.7. Handling of manuscripts
Each submitted is checked for completeness and data integrity. If incomplete it will be returned to the contact author for correction. Some of the specific data standards are summarized in §3, while full details of the required data items and the data-validation criteria are available via the online help page (see §7). For papers failing to meet these criteria, a completed validation response form (VRF) giving reasons for the failure should be included in the If a VRF is present, the and validation report are e-mailed to the Co-editor who will assess the validity of the explanation.
The Co-editor is responsible for the review steps and future communications with the authors up to the acceptance stage. If nothing untoward is noted, the paper will be prepared for immediate electronic publication. If problems are perceived, the authors will be contacted directly and asked to rectify these before acceptance of the submission.
Failure to respond to a communication from either a Co-editor or the Chester editorial staff within one month (for minor revisions) or within two months (for major revisions) will result in the automatic withdrawal of the paper. If major revisions (i.e. revisions involving a complete new CIF) are made to the submission, the journal reserves the right to reset the date of receipt of the paper to the date of resubmission.
Once a paper is accepted, it is the responsibility of the Managing Editor to prepare the paper for publication and to correspond with the authors and/or the Co-editor to resolve publication ambiguities or inadequacies. The Section Editors review all accepted papers and reserve the right to make minor changes to ensure conformity with Section E standards; in the unlikely event of a serious problem being detected at this stage, the authors will be contacted promptly.
1.8. Author grievance procedure
An author who believes that a paper has been unjustifiably treated by the Co-editor may appeal initially to a Section Editor, and then to the Editor-in-Chief if still aggrieved by the decision.
1.9. File transfer
All files should be transferred via the web interface at https://journals.iucr.org/services/submit.html . Submission of files by email or ftp is not allowed.
2. Publication requirements
The publication requirements for the text, tabular and graphical material are described in this section. The standards for numerical and codified data are summarized in §3, and a list of all items required for submission is available via the online help page (see §7). Note that a Comment section (§2.3) is optional, as are crystallographic diagrams (§2.10).
2.1. Title and authors
The Title should be short and informative; in many cases just the name of the compound studied will be perfectly adequate. However, the use of titles consisting of only the chemical formula is discouraged. Avoid complicated IUPAC names and redundant phrases such as `Crystal structure of…'. For papers describing powder, neutron or synchrotron diffraction studies, the title should typically consist of the name of the compound followed by `(powder study)', `(neutron study)' or `(synchrotron study)', respectively. The full first name of each author is preferred. Note that the data items _publ_section_title_footnote and _publ_author_footnote are available, if required, for inserting footnotes to the title and to individual authors.
2.2. Abstract
The Abstract must be written in English, be informative, and should summarize only the most important aspects of the study. It should be capable of being understood on its own without access to the text or figures. It should not contain the crystal data. The systematic IUPAC name and the chemical formula should be given here, if they are not included in the Title. The Abstract should include mention of any crystallographically required symmetry. Principal molecular or ion dimensions can be given here. Literature references should be avoided if possible; if required, they must be given in full, e.g. [Bürgi (1989). Acta Cryst. B45, 383–390].
2.3. Comment
Papers in Section E should normally include a short Comment section; however, this is not mandatory. When present, the Comment is expected to be an informative but concise discussion of the novel aspects of the study, and to cover the following key aspects:
(a) The reasons for the study.
(b) The origin of the material studied, including background material and references to related structural studies. [Note that details of the chemical extraction, synthesis and crystallization processes should be given in the Experimental section (see §2.4).]
(c) Information supporting the reported structure based on other chemical or physical techniques.
(d) Novel or unusual aspects of the coordination, geometry, conformation, crystal packing, hydrogen bonding etc. A useful commentary on hydrogen bonds is available at the online help page (see §7). A discussion of geometry values that agree with established values (see International Tables for Crystallography, Volume C, §§9.4–9.6) is not warranted.
2.4. Experimental data
Experimental data are tabulated under the sub-headings Crystal data, Data collection and Refinement. The descriptive text item _publ_section_exptl_prep is the appropriate place to give information on the chemical and crystal preparation, and identification (e.g. on melting points and densities), the inclusion of which is encouraged. Additional details [e.g. lengthy synthetic descriptions and long lists of spectroscopic (NMR, IR etc.) data] supporting the crystallographic study should be placed in the _exptl_special_details section of the which is available to readers but does not appear in the formatted HTML and PDF versions. A reference should be given rather than full details of the preparation if these have already been published elsewhere. The item _publ_section_exptl_refinement should be used to provide details of any unusual aspects of the data collection, space-group identification, data processing, and H-atom treatment; routine material should be placed in _refine_special_details and will not appear in the HTML and PDF versions.
2.5. Acknowledgements
Acknowledgement should be given for any assistance provided to the study (see §1.5).
2.6. References
References to published work must be cited in the format detailed in §6. If reference is made to unpublished work, prior consent must be first obtained from the authors of that work. Identification of individual structures in the paper by use of database reference (identification) codes should be accompanied by a full citation of the original literature in the reference list. However, in tables containing more than ten such reference codes, citation in the reference list is not required.
2.7. Atomic sites
The _atom_site_ coordinate and displacement parameters must be supplied with values (see §2.14). The parameter constraints and restraints applied to the process, and the anisotropic atomic displacement parameters (as Uij) must also be supplied. Note that only U or Uij values are acceptable for atomic displacement parameters. The atom numbering should follow some recognized scheme (see §5.1) and the atom list should be in some sensible (not random) order.
2.8. Selected geometrical data
Full details of molecular dimensions, including those involving H atoms, should be supplied; only values that are of special interest should be flagged for publication by setting the _geom_..._flag value to yes. The data to be published in the HTML/PDF versions of the paper will be reviewed by the Co-editor and a Section Editor. All submitted geometry data are available to readers from Crystallography Journals Online .
2.9. Chemical structural diagram
A chemical structural diagram (a typical example is shown below) must be included for a molecular compound. Authors are required to submit such diagrams electronically in ISIS/Draw, ChemDraw or ChemWindow formats, or in one of the formats listed in §4.
![[Scheme 1]](me0104scheme1.gif)
2.10. Crystallographic diagram
Diagram requirements are given in §4. A labelled displacement ellipsoid diagram is recommended for each structure either for publication or to be used in the review process. Authors are also encouraged to supply additional figures e.g. packing diagrams.
2.11. Powder diffraction data
Authors of powder diffraction papers should consult the notes provided at the online help page (see §7). For papers that present the results of powder diffraction profile fitting or (Rietveld) methods, the primary diffraction data, i.e. the numerical intensity of each measured point on the profile as a function of scattering angle, will be deposited. Papers reporting Rietveld refinements should include a figure showing the diffraction profile and the difference between the measured and calculated profiles.
2.12. Structure factors
The reflection data h, k, l, Ymeas, σYmeas, Ycalc (where Y is I, F2 or F) must be supplied as an electronic file in format using the web submission interface at https://journals.iucr.org/services/submit.html .
2.13. Submission of related structures
To allow handling of papers to be automated, all submissions should report single structures only. Series of single structure papers on closely related materials should not be merged.
2.14. Standard uncertainties
The (abbreviated s.u. and replacing the traditional term estimated standard deviation) should be expressed as a number in parentheses following the numerical result and should be on the scale of the least significant digits of the result. The s.u. value should be in the range 2–19. Note that s.u. values should not be appended to parameters which are fixed by symmetry, geometry or other constraints.
3. Data requirements
A list of all data required for submission is available from the online help page (see §7). If the submitted data are incomplete, inadequate or incorrect, the author will be informed promptly. Authors are required to pre-check each (see §1.1) prior to submission. A more complete description of the data-validation checks applied to submitted CIFs is available from the online help page (see §7).
Data-precision indicators will be published for all papers. Details of these can be found at https://journals.iucr.org/services/cif/dataprecision.html .
The most important data requirements are summarized below.
_chemical_formula_moiety
_chemical_formula_sum
The chemical formula must be consistent with the atomic content specified by the _atom_site_ information, and match the _chemical_formula_weight.
_symmetry_space_group_name_H-M
The must encompass the highest symmetry permitted by the diffraction intensities, and be consistent with the _cell_length_ and _cell_angle_ values.
_cell_formula_units_Z
The number of formula units in the must comply with that expected from the chemical formula, the and the _atom_site_ data.
_exptl_crystal_colour
The crystal colour should comply with the codes listed in the online author help page (see §7).
_exptl_absorpt_correction_type
Permitted absorption-type codes are listed in the online help page (see §7). A type code must be accompanied by a reference to the method or the software used; this should be given in the field _exptl_absorpt_process_details. The need for absorption corrections, and the appropriate type of correction, is dependent on the μ value _exptl_absorpt_coefficient_mu and the crystal size values _exptl_crystal_size_min, _mid and _max. If x is the medial size _mid, the product μx provides an indication of the type of correction needed. Analytical or numerical corrections are strongly recommended if μx exceeds 1.0. If μx is below 0.1 corrections are usually unnecessary, otherwise ψ-scan or empirical methods are acceptable. Refined absorption methods are discouraged except in special circumstances. The transmission-factor limits _exptl_absorpt_correction_T_min and _max should agree with those expected for the crystal shape and size, and μ.
_reflns_number_total
The number of symmetry-independent reflections excludes the systematically extinct intensities. Authors are encouraged to use all symmetry-independent reflections in the of the structure parameters.
_reflns_threshold_expression
This threshold, which is based on multiples of σI, σF2 or σF, serves to identify the significantly intense reflections, the number of which is given by _reflns_number_gt. These reflections are used in the calculation of _refine_ls_R_factor_gt. The multiplier in the threshold expression should be as small as possible, typically 2 or less.
_diffrn_reflns_theta_max
The θmax of measured reflections should be such that sin θmax/λ exceeds 0.6 Å−1 (i.e. θmax > 25° for Mo Kα; θmax > 67° for Cu Kα). It is assumed that all unique reflections out to the specified θmax are measured. This provides the minimum number of reflections recommended for an average structural study. If intensities are consistently weak at the recommended θmax, low-temperature measurements may be needed unless a study at a specific temperature (or pressure) is being reported.
_diffrn_measured_fraction_theta_max
This is intended for area-detector data, but is also useful as a general measure of data completeness. It is the fraction of unique (symmetry-independent) reflections measured out to _diffrn_reflns_theta_max. Ideally, this should be as close to 1.0 as possible.
_diffrn_reflns_theta_full
This is intended for area-detector data. θfull is the diffractometer angle at which the measured reflection count is close to complete. The fraction of unique reflections measured out to this angle is given by _diffrn_measured_fraction_theta_full. Alternatively, a breakdown of data completeness and merging statistics as a function of θ may be requested if deemed necessary.
_diffrn_reflns_av_R_equivalents
Sufficient symmetry-equivalent reflections must be measured to provide a good estimate of the intensity repeatability. This is particularly important when absorption corrections are applied (this value is calculated after the corrections are applied to the intensities).
_refine_ls_R_factor_gt
Note that this value is not intended as a reliable gauge of structure precision, which is better determined from the standard uncertainties of the parameters (these depend on the number and reliability of the measured structure factors used in the process).
_refine_ls_number_reflns
The number of reflections used in the should be as large as possible, and should, if possible, be greater than the number of refined parameters _refine_ls_number_parameters by at least a factor of 10 if the structure is centrosymmetric, or by a factor of 8 if it is not.
_refine_ls_number_parameters
This is the number of coordinate, atomic displacement, scale, occupancy, constraint, restraint, extinction and other parameters refined independently in the least-squares process. It is possible, and sometimes desirable, to reduce this number by the appropriate application of geometric constraints.
_refine_ls_hydrogen_treatment
The codes which identify the treatment of H-atom parameters are listed in the online help page (see §7). Detailed text about the treatment of H-atom sites should be placed in _publ_section_exptl_refinement. Authors should note the advice on H-atom treatment given in the SHELXL97 manual, §4.6: `For most purposes it is preferable to calculate the hydrogen positions according to well-established geometrical criteria and then adopt a refinement procedure which ensures that a sensible geometry is retained'. Authors should note that H-atom sites which have been fixed or constrained by geometry will not have s.u. values associated with them.
_refine_ls_weighting_scheme
Weighting schemes for refinements should be based on the standard uncertainties in the measured reflection data.
_refine_ls_shift/su_max
This is the largest ratio of the shift to after the final round of and is typically within ±0.01 if sufficient least-squares cycles have been employed. A value above ±0.05 is considered unusual and values beyond ±0.1 are a sign of incomplete unaccounted-for disorder or high correlation between parameters that should be constrained. Authors should explain the reasons for a high value in _publ_section_exptl_refinement.
_refine_diff_density_min
_refine_diff_density_max
These values are expected to be small, especially for light-atom structures. If their magnitudes exceed 1 e Å−3, the label and the distance of the closest atom site should be reported in _publ_section_exptl_refinement.
_geom_
All geometry values must originate from the submitted _atom_site_fract_ values. Only geometry values of significance to the structure will be published. These must be identified with a _geom_..._flag value of yes in the submitted Note that dimensions involving H-atom sites which have been fixed or constrained by geometry will not have s.u. values associated with them.
_atom_site_
Atomic coordinates for molecular structures should be supplied as connected sets. Whenever structure geometry permits, it is normally expected that the set of connected coordinates which specify the will lie within the basic Values of _atom_site_occupancy should be 1.0 except for disordered or non-stoichiometric atom sites. Atom sites constrained to model disorder must be indicated by _atom_site_disorder_group. The overall packing in the structure will be checked for significant vacant regions (i.e. voids) indicating omitted solvent molecules. Note that s.u. values should not be appended to parameters which are fixed by symmetry, geometry or other constraints.
_atom_site_aniso_U_
Checks will be made for non-positive-definite anisotropic atomic displacement parameters. The ratio of maximum to minimum eigenvalues should not, except in special circumstances (e.g. disorder), exceed 5.
_refine_ls_abs_structure_details
This item should describe the method applied, and the number of Friedel-related reflections used, in the measurement of the parameter (e.g. _refine_ls_abs_structure_Flack or _refine_ls_abs_structure_Rogers). If the structure is non- centrosymmetric, and atoms heavier than Si are present, an parameter is expected. The reliability of this parameter increases with the number of Friedel-related intensities, and use of a complete set of Friedel pairs in the is strongly recommended. With Mo radiation, if no atoms heavier than Si are present, the f′′ terms in the scattering-factor expression are very small. In such cases, if no useful parameter can be refined (i.e. the value of the parameter is meaningless because of its large s.u. value), authors should consider merging Friedel-pair reflections before final They should then report in the _publ_section_exptl_refinement section of the that they have merged Friedel pairs for the final and quote the parameter value (with its s.u. value) obtained from any with Friedel pairs as justification for this merging. Authors are strongly advised to consult papers by Flack & Bernardinelli which discuss the use and meaning of the and its s.u. value [J. Appl. Cryst. (2000), 33, 1143–1148 ; Acta Cryst. (1999), A55, 908–915 ].
4. Diagram requirements
Figures should be prepared in HPGL, PostScript, encapsulated PostScript or TIFF format. The resolution of bitmap graphics should be a minimum of 300 d.p.i.
The use of ISIS/Draw, ChemDraw or ChemWindow formats for preparing chemical structure diagrams (see §2.9 for a typical example) is encouraged.
Authors are also encouraged to provide crystallographic and other diagrams (e.g. packing diagrams).
4.1. Publication
For molecular compounds, a clear, well-presented ellipsoid plot is recommended to show the stereochemistry and any unusual atomic displacements or disorder. Otherwise a packing or polyhedron diagram is recommended. All non-H unique atom sites should be identified with labels consistent with those for the supplied atomic coordinates. Distances and angles should not be shown in the crystallographic diagram. The orientation of crystallographic figures and chemical structural diagrams should correspond as closely as possible.
4.2. Submission
Diagrams should be submitted electronically via the web submission interface. All diagrams must be submitted in this way.
4.3. Lettering and symbols
Atom site labels in crystallographic diagrams should not contain parentheses and should match labels used in the atom site lists and text. The labels should not overlap or touch ellipsoids or bonds. Descriptive matter should be placed in the legend. Packing diagrams must show the cell-axis directions (labelled a, b, c) and the cell origin (labelled O), but should normally exclude H-atom sites, unless these are involved in hydrogen bonding.
4.4. Numbering and legends
Diagrams should be numbered in a single series in the order in which they are referred to in the text. A list of the legends (`figure captions') should be included in _publ_section_figure_captions. Legends of labelled displacement ellipsoid plots must state the probability limit used. If H atoms are shown by small spheres of an arbitrary size, this need not be stated in the caption.
5. Nomenclature
5.1. Crystallographic nomenclature
Authors should follow the general recommendations produced by the IUCr Commision on Crystallographic Nomenclature (see reports at https://www.iucr.org/iucr-top/comm/cnom/).
Atom sites not related by space-group symmetry should be identified by unique labels composed of a number appended to the IUPAC chemical symbol (e.g. C5, C7 etc.). Label numbers should not be placed in parentheses. Chemical and crystallographic numbering should be in agreement wherever possible. Crystallographically equivalent atoms in different asymmetric units should be identified in diagrams and text with lower-case Roman numeral superscripts appended to the original atom labels and the symmetry operators defined [e.g. C5i; symmetry code: (i) 1−x, −y, 1−z].
Space groups should be designated by the Hermann–Mauguin symbols. Standard cell settings, as listed in Volume A of International Tables for Crystallography, should be used unless objective reasons to the contrary are stated. A list of equivalent positions should also be supplied. Hermann–Mauguin symbols should be used for designating point groups and molecular symmetry. If there is a choice of origin, this should be stated in _publ_section_exptl_refinement. The choice of axes should normally follow the recommendations of the Commission on Crystallographic Data [Kennard et al. (1967). Acta Cryst. 22, 445–449].
5.2. Nomenclature of chemical compounds
Names of chemical compounds and minerals should conform to the nomenclature rules of the International Union of Pure and Applied Chemistry (IUPAC), the International Union of Biochemistry and Molecular Biology (IUBMB), the International Mineralogical Association and other appropriate bodies. Any accepted trivial or non-systematic name may be retained, but the corresponding systematic (IUPAC) name should also be given. Configurations should be indicated by the R,S-nomenclature where appropriate.
Authors may find nomenclature programs such as Autonom (https://www.beilstein.com/products/autonom) and ACD (https://www.acdlabs.com/products/name_lab) to be useful resources when naming compounds.
6. References
References to published work must be indicated by giving the authors' names followed immediately by the year of publication, e.g. Neder & Schulz (1999) or (Neder & Schulz, 1999). Where there are three or more authors the reference in the text should be indicated in the form Smith et al. (1989) or (Smith et al., 1989) etc. (all authors should be included in the full list).
In the reference list, entries for journals [abbreviated in the style of Chemical Abstracts (the abbreviations Acta Cryst., J. Appl. Cryst. and J. Synchrotron Rad. are exceptions)], books, multi-author books, computer programs, personal communications and undated documents should be arranged alphabetically and conform with the following style:
Brown, A. R. J. (2001). Acta Cryst. E57, o57–o59.
Bruker (1998). SMART and SAINT. Bruker AXS Inc., Madison, Wisconsin, USA.
Bürgi, H.-B. (1989). Acta Cryst. B45, 383–390.
Hervieu, M. & Raveau, B. (1983a). Chem. Scr. 22, 117–122.
Hervieu, M. & Raveau, B. (1983b). Chem. Scr. 22, 123–128.
Hummel, W., Hauser, J. & Bürgi, H.-B. (2001). In preparation.
International Union of Crystallography (2001). (IUCr) Structure Reports Online, https://journals.iucr.org/e/journalhomepage.html
Jones, P. T. (1987). Personal communication.
Kooijman, H. & Spek, A.L. (2000). Acta Cryst. C56, e295–e296.
McCrone, W. C. (1965). Physics and Chemistry of the Organic Solid State, Vol. 2, edited by D. Fox, M. M. Labes & A. Weissberger, pp. 725–767. New York: Interscience.
Nonius (1997). KappaCCD Server Software. Windows 3.11 version. Nonius BV, Delft, The Netherlands.
Perkins, P. (undated). PhD thesis, University of London, England.
Robinson, P. D. (2001). Acta Cryst. C57. In the press. [Paper reference fg1795].
Sheldrick, G. M. (1997). SHELXL97. University of Göttingen, Germany.
Smith, J. V. (1988). Chem. Rev. 88, 149–182.
Smith, J. V. & Bennett, J. M. (1981). Am. Mineral. 66, 777–788.
Vogel, A. (1978). Textbook of Practical Organic Chemistry, 4th ed. London: Longman.
Note that inclusive page numbers must be given and that all computer programs given in the relevant _computing_..._ entries must be referenced and included in the reference list.
7. Crystallography Journals Online
All IUCr journals are available on the web via Crystallography Journals Online ; https://journals.iucr.org/. Full details of guidelines for the preparation and editing of a the data items required therein, standard data codes and keywords, templates, example CIFs, and data-validation criteria and procedures, together with a free Editor, can be found via the online author help page at https://journals.iucr.org/e/services/helpsubmit.html
7.1. Electronic status information
Authors may obtain information about the current status of their paper at https://journals.iucr.org/services/status.html
