IUPAC Provisional Recommendations Preferred IUPAC names List of tables, September , 2004 v 4 3 Carboxylic and sulfonic acids suffixes generated for
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IUPAC Provisional Recommendations
iTABLE OF CONTENTS
CHAPTER P-1 NOMENCLATURE OF ORGANIC COMPOUNDS
P-10 Introduction
P-11 Scope of nomenclature of organic compoundsP-12 Preferred, preselected and retained names
P-13 Operations in nomenclature
P-14 General rules
P-15 Types of nomenclature
P-16 Name writing
CHAPTER P-2 PARENT HYDRIDES
P-20 Introduction
P-21 Mononuclear and polynuclear acyclic parent hydridesP-22 Monocyclic hydrides
P-23 Polyalicyclic (von Baeyer) systems
P-24 Spiro compounds
P-25 Fused and bridged fused systems
P-26 Phane nomenclature
P-27 Fullerenes
P-28 Ring assemblies
P-29 Prefixes denoting substituent groups derived from parent hydridesCHAPTER P-3 CHARACTERISTIC (FUNCTIONAL) GROUPS
P-30 Introduction
P-31 Modification of the degree of hydrogenation of parent hydrides P-32 Prefixes for substituent groups derived from parent hydrides with a modified degree of hydrogenationP-33 Suffixes
P-34 Parent structures other than parent hydrides and corresponding prefixes for substituent groupsP-35 Prefixes denoting characteristic groups
CHAPTER P-4 RULES FOR NAME CONSTRUCTION
P-40 Introduction
P-41 Seniority order of classes
P-42 Seniority order of acids Page 1 of 1306DRAFT 7 October 2004
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iiP-43 Seniority order of suffixes
P-44 Seniority order of parent structures
P-45 The principal chain in substituent groups
P-46 Substitution rules for parent structures with retained namesCHAPTER P-5 CONSTRUCTING PREFERRED IUPAC NAMES
P-50 Introduction
P-51 Selecting the preferred type of nomenclature P-52 Selecting preferred IUPAC names and preselected names (see P-12) for parent hydrides names P-53 Selecting the preferred method for modifying the degree of hydrogenation for parent hydrides P-54 Selecting the preferred suffix (principal group)P-55 Selecting preferred retained names
P-56 Selecting preferred substituent group names P-57 Selecting preferred names for tautomeric compoundsP-58 Name construction
CHAPTER P-6 APPLICATIONS TO SPECIFIC CLASSES OF COMPOUNDSP-60 Introduction
P-61 Substitutive nomenclature: prefix mode
P-62 Amines and imines
P-63 Hydroxy compounds, ethers, peroxols, peroxides and chalcogen analogues P-64 Ketones , pseudo ketones and heterones, and chalcogen analoguesP-65 Acids and derivatives
P-66 Amides, hydrazides, nitriles, aldehydes
P-67 Oxoacids used as parents for organic compounds P-68 Nomenclature of other classes of compoundsP-69 Organometallic compounds
CHAPTER P-7 RADICALS, IONS, AND RELATED SPECIES
P-70 General methodology
P-71 Radicals
P-72 Anions
P-73 Cations
P-74 Zwitterions
P-75 Radicals ions
P-76 Delocalized radicals and ions
P-77 Preferred names Page 2 of 1306
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iiiCHAPTER P-8 ISOTOPICALLY MODIFIED COMPOUNDS
P-80 Introduction
P-81 Symbols and definitions
P-82 Isotopically substituted compounds
P-83 Isotopically labelled compounds
P-84 Comparative examples of formulae and names of isotopically modified compoundsCHAPTER P-9 SPECIFICATION OF CONFIGURATION AND
CONFORMATION
P-90 Introduction
P-91 CIP Priority and sequence rules
P-92 Configurational stereodescriptors
P-93 Applications of stereodescriptors
P-94 Conformation and conformational stereodescriptors CHAPTER P-10 PARENT STRUCTURES FOR NATURAL PRODUCTSAND RELATED COMPOUNDS
P-100 Introduction
P-101 Nomenclature for natural products based on parent hydrides (alkaloids, steroids, terpenes, carotenes, corrinoids, tetrapyrroles, and similar co m poundsP-102 Carbohydrate nomenclature
P-103 Amino acids and peptides
P-104 Cyclitols
P-105 Nucleosides
P-106 Nucleotides
P-107 Lipids
Appendix 1 Seniority list of elements and 'a' terms used in replacement ('a') nomenclature in decreasing order of seniorityAppendix 2 Usual detachable pre
f ixes used in substitutive no m enclaturePage 3 of 1306
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List of tables, September , 2004
ivLIST OF TABLES
Chapter 1 General rules
1.1 Elements included in these recommendations, page 2
1.2 Nomenclature operations, page 6
1.3 Standard bonding numbers for the elements of Groups 13, 14, 15, 16, and 17,
page 241.4 Basic numerical terms (multiplying prefixes) , page 25
1.5 Skeletal replacement 'a' prefixes, page 64
1.6 Prefixes and infixes in functional replacement nomenclature, page 71
Chapter 2 Parent hydrides
2.1 Systematic names of mononuclear hydrides of Groups 13, 14, 15, 16, and 17 with
normal bonding numbers, page 22.2 Retained names of mancude heteromonocyclic parent hydrides, page 11
2.3 Retained names of saturated heteromonocyclic parent hydrides used as preferred
names and in general nomenclature, page 122.4 Hantzsch-Widman system prefixes (in decreasing order of seniority), page 13
2.5 Hantzsch-Widman system stems, page 14
2.6 Retained names for von Baeyer parent hydrides, page 41
2.7 Retained names of hydrocarbon parent components in descending order of
seniority, page 752.8 Retained names of heterocyclic parent components in descending order of
seniority, page 812.9 Names for nitrogeneous parent components modified by by P and As replacement
page 842.10 Retained names for substituent groups derived from parent hydrides, page 227
Chapter 3 Characteristic (functional) groups
3.1 Retained names of partially saturated heteromonocyclic parent hydrides, page 21
3.2 Retained names of prefixes for partially saturated polycyclic parent hydrides,
page 333.3 Basic suffixes, in decreasing order of seniority for citation as the principal
characteristic group, page 353.4 Affixes for radical and ionic centers in parent structures, page 38
Chapter 4 Rules for name construction
4.1 General compound classes listed in decreasing order of seniority for choosing and
naming the principal class (radicals and ions) or characteristic group in an organic compound, page 14.2 Prefixes and infixes, in decreasing order of seniority, used to generate suffixes in
preferred IUPAC names by functional replacement, page 8 Page 4 of 1306DRAFT 7 October 2004
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List of tables, September , 2004
v4.3 Carboxylic and sulfonic acids suffixes generated for IUPAC preferred names by
functional replacement, in decreasing order of seniority, page 94.4 Complete list of suffixes and functional replacement analogues for IUPAC
preferred names, in decreasing order of seniority, page 12Chapter 5 Constructing preferred IUPAC names
5.1 Retained heteromonocyclic names modified by 'hydro' prefixes, page 20
5.2 Characteristic groups always cited as prefixes in substitutive nomenclature, page
53Chapter 6 Application to specific classes of compounds
6.1 Suffixes to denote peroxols (hydroperoxides) modified by functional replacement
nomenclature (in decreasing order of seniority as principal group), page 586.2 Halides and pseudohalides, page 139
Chapter 7 Radical and ions, and related species
7.1 Retained names of mononuclear parent cations of Groups 15, 16 and 17, page 33
7.2 Suffixes for cationic characteristic groups, page 35
7.3 Retained names used as preferred names and in general nomenclature, page 80
7.4 Preferred IUPAC names for radicals and ions derived from functionalized and
functional parents, page 88Chapter 8 Isotopically modified compounds
8.1 Comparative examples of Formulas and names of isotopically modified
compounds, page 18 Chapter 10 Parent structures for natural products and related compounds10.1 List of recommended names of stereoparent structures, page 8
10.2 Retained names (with recommended three-letter abbreviations in parentheses) and
structures (in the aldehydic acyclic form) of the aldoses with three to six carbon atoms, page 5410.3 Structures, with systematic and trivial names, of the 2-ketoses with three to six
carbon atoms, page 5510.3 Retained names of .-amino acids, page 103
10.4 Amino acids with trivial names (other than those in Table 10.3), page 109
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Chapter 1, September, 2004
1CHAPTER P-1 NOMENCLATURE OF ORGANIC COMPOUNDS
P-10 Introduction
P-11 Scope of nomenclature of organic compounds
P-12 Preferred, preselected and retained names
P-13 Operations in nomenclature
P-14 General rules
P-15 Types of nomenclature
P-16 Name writing
P-10 Introduction
For nomenclature purposes, a structure containing at least one carbon atom is considered to be an organic compound. The formation of a systematic name for an organic compound requires selection and then naming of a parent structure. This basic name may then be modified by prefixes, infixes,and, in the case of a parent hydride, suffixes, which convey precisely the structural changes required
to generate the compound in question from the parent structure. In contrast to such systematic names,
there are traditional names which are widely used in industry and academic circles. Examples are acetic acid, benzene and pyridine. Therefore, when they meet the requirements of utility and when they fit into the general pattern of systematic nomenclature, these traditional names are retained. A major new principle is elaborated in these Recommendations. The concept of 'preferred IUPAC names' is developed and systematically applied. Up to now, the nomenclature developed and recommended by IUPAC has emphasized the generation of unambiguous names in accord with thehistorical development of the subject. In 1993, due to the explosion in the circulation of information
and the globalization of human activities, it was deemed necessary to have a common language that will prove important in legal situations, with manifestations in patents, export-import regulations, environmental and health and safety information, etc. However, rather than recommend only a single 'unique name' for each structure, we have developed rules for assigning 'preferred IUPAC names', while continuing to allow alternatives in order to preserve the diversity and adaptability of the nomenclature to daily activities in chemistry and in science in general. Thus, the existence of preferred IUPAC names does not prevent the use of other names to take into account a specific context or to emphasize structural features common to a series of compounds. Preferred IUPAC names belong to 'preferred IUPAC nomenclature' Any name other than a preferred IUPAC name, as long as it is unambiguous and follows the principles of the IUPAC recommendations herein, is acceptable as a 'general' IUPAC name, in the context of 'general'IUPAC nomenclature.
The concept of preferred IUPAC names is developed as a contribution to the continuing evolution of the IUPAC nomenclature of organic compounds. This book (Recommendations 2004) covers and extends the principles, rules and conventions described in two former publications: Nomenclature of Organic Chemistry, 1979 Edition (ref. 1) and A Guide to IUPAC Nomenclature of Organic Compounds, Recommendations 1993 (ref. 2). In a few instances, the 1979 rules and the1993 recommendations have been modified to achieve consistency within the entire system. In case of divergence among the various recommendations, Recommendations 2004 prevail.
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2 P-11 Scope of nomenclature for organic compounds For nomenclature purposes we consider all compounds containing carbon as organic compounds. Oxygen and nitrogen are two elements usually associated with carbon to form the system of functions or characteristic groups. Other elements, among them the halogens and sulfur, complete the basic core of elements found in organic compounds. Substitutive nomenclature was first applied to compounds containing this set of atoms. The success of this type of nomenclature was such that it was extended to all elements of Groups 14, 15, 16, 17 and, in Group 13, to boron; it is now fully extended to all elements of Group 13. Table 1.1 Elements included in these recommendationsGroups 13 14 15 16 17
B boron C carbon N nitrogen O oxygen F fluorine Al aluminium Si silicon P phosphorus S sulfur Cl chlorine Ga gallium Ge germanium As arsenic Se selenium Br bromine In indium Sn tin Sb antimony Te tellurium I iodine Tl thallium Pb lead Bi bismuth Po polonium As astatine The ending 'ane', characteristic of alkanes, was borrowed from methane, ethane, etc., and glued to terms forming the roots of the names of the various elements, for example sulfane, H 2S; phosphane,
PH 3 ; silane, SiH 4 ; alumane, AlH 3 . The resulting names constitute the basis of substitutive nomenclature; this treatment of parent hydrides is called generalized 'ane' nomenclature because allthe rules applicable to alkanes are applicable to all hydrides of the elements of Groups 13, 14, 15, 16
and 17. The nomenclature of hydrides of carbon may be conveniently termed 'carbane nomenclature'; whereas the term 'heterane nomenclature' covers the hydrides of elements other than carbon. Names of mononuclear parent hydrides are listed in Table 2.1 in Chapter 2. Organometallic compounds, i.e., compounds in which one or more carbon atom(s) is (are) directly attached to a metal atom, were always regarded as organic compounds for nomenclature purposes. This association is maintained in these recommendations (see P-69), for the metals, semimetals, and nonmetals included in Groups 13, 14, 15, 16, and 17. The nomenclature for other organic derivatives of the elements in Groups 1 through 12 is considered as part of the nomenclature of inorganic compounds. The construction of systematic names is based on general nomenclature operations and rules, andon operations and rules specific to different types of nomenclature. These aspects are discussed in the
following sections.Page 7 of 1306
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3 P-12 Preferred, preselected and retained IUPAC names P-12.1 'Preferred IUPAC names' are names that are preferred among two or more names for the same structure generated from two or more recommended IUPAC rules or the many synonyms that have been coined and used over the years. Preferred IUPAC names, or PINs, for short, are names selected according to the set of principles,conventions, and rules given herein. They originate from the strict application of the rules; in this
sense, they can be referred to as 'single names'. All preferred IUPAC names are identified by the parenthetical abbreviation '(PIN)' following the name. Names used in the past, but now discarded or no longer recommended, are sometimes mentioned as a link to past rules and recommendations and are identified by words such as 'not' or 'formerly' or phrases like 'no longer recommended'. It is necessary to select a preferred alternative in many instances in the construction of the names of organic compounds. Preferred IUPAC names are given to parent structures and to characteristic groups denoted by prefixes and suffixes. They also result from the choice to be made among the different types of nomenclature, for example, substitutive nomenclature, functional class nomenclature and multiplicative nomenclature; and among the different types of operations, for example substitutive, additive and subtractive. Most commonly, a parent structure is a parent hydride, i.e., a structure containing, in addition to one or more hydrogen atoms, a single atom of an element, for example, methane; or a number of atoms (alike or different) linked together to form an unbranched chain, for example, pentane; or a monocyclic or polycyclic ring system, for example, cyclohexane and quinoline. Methane is a retained name (see P-12.3) that is preferred to the systematic name 'carbane', a name never recommended to replace methane, but used to derive the names 'carbene' and carbyne for the radicals :CH 2 and :CH·,respectively. The name 'pentane' is formed by application of P-21.2.1 and is marked as the preferred
IUPAC name, or PIN, even though no rule has been cited giving an alternative name. The same reasoning applies to cyclohexane, a IUPAC name resulting from the application of P-22.1.1. The name 'quinoline' is a retained name that is preferred to the systematic alternative fusion names '1-benzopyridine' and 'benzo[b]pyridine'.Examples:
CH 4 methane (preferred IUPAC name or PIN, a retained name) carbane CH 3 -CH 2 -CH 2 -CH 2 -CH 3 pentane (preferred IUPAC name or PIN) N cyclohexane (PIN) quinoline (PIN, a retained name)1-benzopyridine (a systematic fusion name)
benzo[b]pyridine (a systematic fusion name)Page 8 of 1306
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Chapter 1, September, 2004
4 It is sometimes convenient to employ parent hydrides of more complex structure, such as ring or ring-chain assemblies, for example biphenyl and styrene. The name '1,1-biphenyl' results from theapplication of Rule P-28.2.1; it is the preferred IUPAC name and the locants 1,1 are compulsory; the
name 'biphenyl', without locants, can be used in general IUPAC nomenclature. The name 'styrene' is a retained name and is preferred to the systematic substitutive names 'vinylbenzene', 'ethenylbenzene', 'phenylethene' and 'phenylethylene', that are acceptable in general IUPAC nomenclature as being clear and unambiguous. CH=CH 2