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Stereogenic Elements and Stereoisomerism  
  
3910   04:06 مساءً   date: 8-7-2018
Author : William Reusch
Book or Source : Virtual Textbook of Organic Chemistry
Page and Part : ............

Stereogenic Elements and Stereoisomerism

Recognition of the three dimensional shape of molecules and the resulting symmetry implications is fundamental to an understanding of organic chemistry, especially stereoisomerism.

In this section the treatment of chiral and achiral stereogenic elements will be extended to axes and planes.
The following diagram illustrates the structural relationship of a disubstituted tetrahedral carbon (Ca2b2) to an allene (top row), and a disubstituted alkene (abC=Cab) to an analogous 1,2,3-cummulene. In each case the structure is elongated by the insertion of two additional carbons. As a result of this elongation, the symmetry planes bisecting the a-C-a or b-C-b angles of the simple achiral tetrahedron are lost, and the allene is found to be chiral. Since no chiral center exists in this molecule, its chirality is due to the dissymmetric orientation of substituents about a chiral axis (the axis defined by the three carbon atoms of the double bonds). No dramatic change of this kind is observed for the alkene elongation shown at the bottom. The cis / trans diastereoisomerism observed in achiral compounds of this kind is due to the same axial stereogenic element present in the alkene itself. A general rule relating the spatial orientation of terminal substituents in cumulenes of varying size to the number of sp-hybridized carbon atoms is shown on the right in the diagram.
To assign a stereo chemical prefix, i.e. Ra or Sa (the subscript a refers to the axial chirality), to chiral configurations of this kind the structure must be viewed from one end of the stereogenic axis (it doesn't matter which). A Newman projection, like the one seen from the left shown here, is then used for the assignment. If the sequence order of substituents is a > b, then the two substituents nearest the viewer are assigned a ranking of 1 (a) and 2 (b), while the remote substituents are given rankings of 3 (a) and 4 (b). Applying the viewing rule then leads to a unique notation (Ra in this case). This procedure may be used even when the A & B substituents on one sp2 carbon are different from those on the other sp2 carbon.

By clicking on the above diagram, additional examples of axial chirality will be displayed. The substituted alkylidenecycloalkanes and spiro-bicyclic alkanes are analogous to the allene and cummulene systems if one considers the double bonds to be two-membered rings. Thus, depending on the number of such units linked together, the terminal substituents will either be orthogonal or coplanar. These configurations are relatively rigid. Converting one to the other requires breaking and making bonds.
Substituted biphenyls, on the other hand, exhibit a conformational enantiomorphism sometimes called atropisomerism. The configurational stability of such isomers depends on the energy barrier to rotation about the single bond connecting the rings, and this in turn is proportional to the size of the ortho-substituents on each ring.

A similar axial dissymmetry is found in helical molecules, such as hexahelicene. Two views of the enantiomers of this interesting molecule are displayed below. When the configuration is viewed from above (or below) the helical turn, as shown by the structures on the left, its handedness may be established by the direction in which it turns. Imagine the helix is part of a screw, the axis of which is represented by the pink dot. If a clockwise turn of the screw would move it away from the viewer it is considered to have a plus or P configuration, also termed Ra or Rh by some. In contrast, if a counterclockwise turn moves the helix away it has a minus or M configuration, sometimes called Sa or Sh. Interactive models of enantiomeric hexahelicenes will be shown by clicking on the diagram.

Molecules having a plane of chirality are also known. Three examples are shown in the following diagram, and it should be noted that there is no asymmetric carbon present in any of them. In order to provide such chiral structures with a configurational prefix, a viewing rule has been established. First, the atom of highest priority (according to the CIP rules) that is directly bound to an atom in the chirality plane must be found. This atom, known as the pilot atom (P), is the point from which the chiral plane is viewed. In the ansa compound, 13-bromo-1,10-dioxa[8]paracyclophane, the chiral plane is the aromatic ring. The pilot atom is the oxygen-bound methylene carbon atom closest to the bromine atom on the aromatic ring. Starting from the pilot atom, the next three consecutive atoms in the chirality plane are labelled ab, and c. In the case of branching options, the atom of highest CIP priority is selected. For the ansa compound, this leads to the aromatic carbon atom bound to bromine as c. Finally, the absolute configuration is called Sp or M if the atom sequence a–b–c, viewed from above the P–a bond, describes a counterclockwise arc. The configuration is termed Rp or P if this atom sequence describes a clockwise arc, as in its mirror image. The subscript p denotes that the configuration is established relative to a plane of chirality.


The chiral plane in trans-cyclooctene is roughly the plane of the double bond, and in [2.2]paracyclophanecarboxylic acid it is roughly the plane of the aromatic ring bearing the carboxyl group. Due to strain, neither of these groups is truly coplanar, as may be seen in the three-dimensional models available below. Each model will display the pilot atom (there are two equivalent pilot atoms in trans-cyclooctene) and the resulting configurational sequence of atoms.




هي أحد فروع علم الكيمياء. ويدرس بنية وخواص وتفاعلات المركبات والمواد العضوية، أي المواد التي تحتوي على عناصر الكربون والهيدروجين والاوكسجين والنتروجين واحيانا الكبريت (كل ما يحتويه تركيب جسم الكائن الحي مثلا البروتين يحوي تلك العناصر). وكذلك دراسة البنية تتضمن استخدام المطيافية (مثل رنين مغناطيسي نووي) ومطيافية الكتلة والطرق الفيزيائية والكيميائية الأخرى لتحديد التركيب الكيميائي والصيغة الكيميائية للمركبات العضوية. إلى عناصر أخرى و تشمل:- كيمياء عضوية فلزية و كيمياء عضوية لا فلزية.


إن هذا العلم متشعب و متفرع و له علاقة بعلوم أخرى كثيرة ويعرف بكيمياء الكائنات الحية على اختلاف أنواعها عن طريق دراسة المكونات الخلوية لهذه الكائنات من حيث التراكيب الكيميائية لهذه المكونات ومناطق تواجدها ووظائفها الحيوية فضلا عن دراسة التفاعلات الحيوية المختلفة التي تحدث داخل هذه الخلايا الحية من حيث البناء والتخليق، أو من حيث الهدم وإنتاج الطاقة .


علم يقوم على دراسة خواص وبناء مختلف المواد والجسيمات التي تتكون منها هذه المواد وذلك تبعا لتركيبها وبنائها الكيميائيين وللظروف التي توجد فيها وعلى دراسة التفاعلات الكيميائية والاشكال الأخرى من التأثير المتبادل بين المواد تبعا لتركيبها الكيميائي وبنائها ، وللظروف الفيزيائية التي تحدث فيها هذه التفاعلات. يعود نشوء الكيمياء الفيزيائية إلى منتصف القرن الثامن عشر . فقد أدت المعلومات التي تجمعت حتى تلك الفترة في فرعي الفيزياء والكيمياء إلى فصل الكيمياء الفيزيائية كمادة علمية مستقلة ، كما ساعدت على تطورها فيما بعد .