ORGANIC CHEMISTRY I
At the end of the course, the student is expected to acquire and strengthen learning and knowledge of basic organic chemistry.
In particular, the student should be capable of:
1. Knowledge and understanding of the main functional groups and applying them to the classification of simple organic molecules;
2. Knowledge, understanding and applying the structural representation of simple organic molecules and their visualization in the three-dimensional space;
3. Knowledge and understanding of basic physical-chemistry principles (chemical equilibria, structural theory, thermodynamics and kinetics of organic reactions, acids and bases, nucleophiles and electrophiles);
4. Knowledge, understanding and prevision of the relationship between the structure of simple organic molecules and their physical properties, in particular their solubility in aqueous or non-aqueous solvents;
5. Knowledge, understanding and prevision of the relationship between the structure of simple organic molecules and their reactivity;
6. Knowledge and understanding of the methods for the functional group interconversion within simple organic molecules and applying these methods for the synthesis and manipulation of unknown organic molecules, also solving simple exercises;
7. Knowledge the international rules for the nomenclature of simple organic molecules and applying them to unknown molecules, also solving simple exercises;
8. Communication skills of the course contents to specialized and non-specialized audience;
9. Understanding the importance of organic chemistry in the study of drugs and living organisms.
To fully appreciate the content of the course, it is necessary to acquire knowledge of general and inorganic chemistry in a previous course. To access the Organic Chemistry I test, it is mandatory to pass the “General and Inorganic Chemistry” exam.
The first part of the course will be devoted to present the fundamentals of organic chemistry emphasizing the key connections between the molecular structure of organic compounds and their physical and chemical properties, as well as their reactivity. Attention will be paid to basic principles of organic chemistry including hybridization and molecular geometry, the nature of chemical bond and the polarity of the molecules, acidity and basicity, nucleophilicity and electrophilicity, resonance, isomerism and chirality. The second part of the course will be devoted to the systematic description of reactivity, physical properties, synthetic methods and and the rules of naming for the main classes of organic compounds according to their functional group (alkanes, cycloalkanes, alkenes, alkynes, halo-alkanes, alcohols and diols, aldehydes, ketones, etc.). In this context, particular emphasis will be given to the description of reaction mechanisms, highlighting similarities and featuring aspects of different reaction pathways.
General aspects. Origin and development of organic chemistry as a science. Carbon as the focal element in organic chemistry. Functional groups featuring the main organic compound families. Relationships between molecular structure and physical- chemical behavior. Three-dimensional shape of molecules: conformation and configuration of stereogenic centers. Conformational analysis of linear and cyclic alkanes. Constitutional isomerism and stereoisomerism. Chirality, enantiomers, diastereoisomers, meso compounds, geometrical isomers. Thermodynamic and kinetic control of organic reactions. Reaction kinetics, activation energy, catalysis. Reaction mechanisms. Resonance in organic compounds. Radical and ionic reactions. Oxidation and reduction of organic compounds. Nucleophilic and electrophilic species. Acidity and basicity in organic chemistry. Monomolecular and bimolecular nucleophilic substitution reactions at saturated carbons. Monomolecular and bimolecular elimination reactions. Solubility and solvents used in organic chemistry. Electrophilic additions to alkenes. Regioselective, stereospecific, and stereoselective organic reactions. Nucleophilic addition to carbon-oxygen double bond. Organometallic compounds. Nucleophilic substitution at the carbonyl group (acyl nucleophilic substitution). Enols and enolates. Aromaticity: basic concepts.
Structure, nomenclature, natural occurrence, physical properties, reactivity and synthesis of the following organic compound families: alkanes, cycloalkanes, alkyl halides, alkenes, alkynes, alcohols, diols, ethers, thiols, epoxides, aldehydes, ketones, carboxylic acids, acyl halides, anhydrides, esters, lactones, amides, lactams, imides, nitriles, amines, alpha,beta-unsaturated compounds.
RECOMMENDED TEXTBOOKS (choose one of the following):
1. W.H. Brown, B.L. Iverson, E.V. Anslyn, C.S. Foote, “Chimica Organica”, VI Ed., EdiSES, Napoli, 2019.
2. J. McMurry, “Chimica Organica”, IX Edizione, Piccin, Padova, 2017.
3. P. Yurkanis Bruice, "Chimica Organica", III Edizione, EdiSES, Napoli, 2017.
4. Autori vari, “Chimica Organica”, II edizione (a cura di B. Botta), Edi.Ermes, Milano, 2016.
WORKBOOKS (choose one of the following):
1. M.V. D’Auria, O. Taglialatela Scafati, A. Zampella, “Guida Ragionata allo Svolgimento di Esercizi di Chimica Organica”, Quarta Edizione, Loghia Ed., Napoli, 2017.
2. B.L. Iverson, S. Iverson, “Guida alla soluzione dei problemi da Chimica Organica di Brown, Iverson, Anslyn, Foote", IV Ed., EdiSES, Napoli, 2016.
3. F. Nicotra, L. Cipolla, "Eserciziario di Chimica Organica", Edises, Napoli, 2013.
4. T.W.G. Solomons, C.B. Fryhle, R.G. Johnson, “La chimica organica attraverso gli esercizi”, Seconda Edizione, Zanichelli, Bologna, 2010.
1. J. Clayden, N. Greeves, S. Warren, “Organic Chemistry”, Second Edition, Oxford University Press,. 2012.
2. L. Kürti, B. Csakò, “Strategic Applications of Named Reactions in Organic Synthesis”, 1st Edition, Academic Press, 2005.
As additional study tools, slides presented during lessons and copies of the past examination tests will be uploaded and updated in the Elly platform.
According to the regulation of the Italian Government and the University of Parma about the pandemics, the present course is carried out through frontal oral lessons (both theory and exercises) according to an "in-presence" modality (total 64 hours corresponding to 8 CFU). In particular, the teacher takes lessons in the classroom with the help of PC (Powerpoint slides) and board (graphic table connected to the PC/traditional whiteboard). Each lesson is registered and loaded in the Elly portal of the course, together with the slides. Exercises dealing with synthesis and manipulation of simple organic molecules will be proposed and solved by either the teacher or the students. The exercise sessions are open to free discussion between students and teacher and thise is considered an essential part of the course to:
-check applying knowledge and understanding of proposed contents;
-check the ability to master the acquired theoretical concepts and to apply knowledge in analyzing and solving problems of organic chemistry;
-check learning skills and communication skills.
The student is expected to read and study the contents of the lessons by him/herself by using notes and textbook, and applying this knowledge in solving the exercises, including both the exercises proposed in classroom, and exercises in the textbook and study guides.
To stimulate a regular frequency, the video recording of each lesson will be accessible through the Elly platform for one week.
The teacher is available (on e-mail appointment) for further explanations about theory and exercises in office or by distance via Teams.
The additional material (slides) is weekly loaded on Elly platform; this material does not substitute the textbook and the exercise study guide, which are mandatory.
Many copies of past written tests are loaded and updated in the Elly platform, to provide further tools in preparation of the examination.
Knowledge and learning are verified by a written test followed by an oral colloquium.
The written test consists of 4 questions (open-answer) dealing with the synthesis and the reactivity of simple organic compounds.
The result is marked in thirtieth, with a minimum pass of 18 and it contributes for the 50% of the final quotation.
To access the written test, the student must register on-line (via ESSE3 portal) in the dates according to the official agenda of the Food and Drug Department.
In case the COVID-related sanitary emergence continues, the written examination will proceed as follows: 1) written test in the classroom (whenever possible); 2) remote written examination on the Teams platform (see the guidelines at the address: http://selma.unipr.it/). Whatever the adopted modality (in presence or remote), no books, notes, nor web-related material are permitted during the examination; possible compensatory material will be allowed to students with DSA or BES, which will be agreed upon with the teacher at least one week before the examination.
The written exam is judged positive (> or equal to 18/30) when the student demonstrates knowledge and learning of the following contents:
-knowledge and understanding of the functional groups (as detailed in the contents) within simple organic molecules;
-applying knowledge and understanding in the identification of carbon stereocenters, asymmetry and chirality;
-applying knowledge and understanding in relating the structural properties and the reactivity of organic compounds;
-applying knowledge and understanding in predicting the outcome of a chemical transformation;
-selecting information from the theory to analyze and solve a practical organic chemistry problem;
-completing synthesis sequences and interconversion of functional groups of simple organic compounds.
To access the final oral colloquium and subsequent recording, it is necessary to pass the written test. The result of the written test is given within one week and in any case before the oral examination via ESSE3 portal.
The oral colloquium is intented to test and confirm the student knowledge and understanding of the contents of the course, to check communication skills and the correct use of specialized language.
The result of the final exam is the arithmetic mean of both written and oral tests and is marked in thirtieth; a minimum of 18/30 is required as a threshold.
Partial test: during the course one "partial test" is given, focused on the first part of the program. Passing the partial test allows the student to take a shortened written test.
The mark (in thirtieth) for the partial test contributes one third to the mark for the written test.