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Hydrocarbons: Alkanes and Alkenes

The hydrocarbons are organic compounds classified by the presence of bonds and their unsaturation degree. They are composed of carbon and hydrogen. They may be: 'saturated hydrocarbons' (alkanes and cycloalkanes) in which all their carbons have simple bonds and 'unsaturated hydrocarbons' with a double bond (alkenes) or triple bond (alkynes) in their carbons. The alkanes can be obtained through a process called hydrogenation of alkenes. Some hydrocarbons have electrophilic and nucleophilic properties, depending on their ability to donate or receive electrons.

Last updated: 18 Jul, 2022

Editorial responsibility: Stanley Oiseth, Lindsay Jones, Evelin Maza

Hydrocarbons

Hydrocarbons are organic compounds that only contain hydrogen and carbon in its structure. They are classified according to their degree of unsaturation or presence of single, double or triple bonds. Hydrocarbons, containing only single bonds in their structure, are called saturated hydrocarbons. Saturated hydrocarbons are further classified as alkanes or cycloalkanes. The only difference between the two is that cycloalkanes are cyclic, while alkanes are open-chain compounds.

There are also unsaturated hydrocarbons, or hydrocarbons containing at least one double or triple bond. Simple unsaturated hydrocarbons, containing a double bond, are called an alkene, while simple hydrocarbons containing triple bonds are called alkynes.

Alkanes

Alkanes are considered the simplest hydrocarbons because of the saturation of the C atoms. They contain strong carbon-hydrogen and carbon-carbon single bonds. Because of the very low polarity of the carbon-hydrogen bond and the non-polar bond between the carbon-carbon, members of this family of compounds have very low reactivities. The reactions of alkanes are only limited to oxidation, halogenation under UV light UV light That portion of the electromagnetic spectrum immediately below the visible range and extending into the x-ray frequencies. The longer wavelengths (near-uv or biotic or vital rays) are necessary for the endogenous synthesis of vitamin D and are also called antirachitic rays; the shorter, ionizing wavelengths (far-uv or abiotic or extravital rays) are viricidal, bactericidal, mutagenic, and carcinogenic and are used as disinfectants. Bullous Pemphigoid and Pemphigus Vulgaris, and hydrocarbon cracking.

Electrophilic Addition Reactions

Double bonds and triple bonds in a hydrocarbon are considered electron-rich areas.

Note: Because of its high electron density nature, compounds can donate electron pairs through the double and triple bonds. Because of this, alkenes and alkynes are susceptible to electrophilic addition reactions.

These specific types of reactions show the interactions between the nucleophilic double bonds of alkenes and an incoming electrophile.

Electrophiles vs. Nucleophiles

An important concept, studied in an organic reaction, is the concept of electrophiles and nucleophiles. This is because most reactions occur between the interactions of high and low electron density areas in reactants. Electrophiles are an electron-loving chemical species. Their electrophilic nature is due to having a positively polarized and electron-poor atom, which can form new bonds by accepting electron pairs from a nucleophile.

On the other hand Hand The hand constitutes the distal part of the upper limb and provides the fine, precise movements needed in activities of daily living. It consists of 5 metacarpal bones and 14 phalanges, as well as numerous muscles innervated by the median and ulnar nerves. Hand: Anatomy, a nucleophile is a chemical species that is nucleus-loving. They are said to be nucleus-loving as they have negatively-polarized electron-rich atoms which are said to be attracted to positively charged nuclei. The interaction between an electrophile and a nucleophile is the one involved also reactions of an alkene.

Electrophilic Attack

The usual pathway for an electrophilic attack is that electrons move from a nucleophilic source to an electrophilic sink. The source of the electrons to be donated from the nucleophile can be an electron pair in the structure, π electrons from multiple bonds, or localized negative charges in the structure. The electrophilic sink, on the other hand Hand The hand constitutes the distal part of the upper limb and provides the fine, precise movements needed in activities of daily living. It consists of 5 metacarpal bones and 14 phalanges, as well as numerous muscles innervated by the median and ulnar nerves. Hand: Anatomy, must be readily available to accept electron pairs through a positively charged atom in the structure, or a positively polarized atom in a functional group.

Nucleophiles can be either negatively charged or neutral molecules.

Negatively charged nucleophiles

For negatively charged nucleophiles, an electrophilic attack will lead to a formation of a neutral molecule, while neutral molecules produce a positively charged species after an electrophilic attack.

Neutral molecules

The electrophiles, on the other hand Hand The hand constitutes the distal part of the upper limb and provides the fine, precise movements needed in activities of daily living. It consists of 5 metacarpal bones and 14 phalanges, as well as numerous muscles innervated by the median and ulnar nerves. Hand: Anatomy, can be positively charged or neutral molecules. In a reaction, if the electrophile is positively-charged, it becomes neutral in the process, while neutral electrophiles become negatively-charged after an electrophilic attack.

Electrophilic attack of nucleophilic oh- to a tertiary carbocation

Electrophilic attack of Nucleophilic OH- to a tertiary carbocation

Image by Mark Xavier Bailon.

Stability of Carbocation

Types of carbocations

Carbocations are molecules where a carbon atom in the structure bears three bonds and a positive charge. Carbocations exist in different forms depending on the number of alkyl substituents present. The simplest carbocation is the methyl carbocation since there is only one carbon atom present in its structure.

Primary, secondary and tertiary carbocations

The other possible forms of carbocations are the primary (1°), secondary (2°), and tertiary (3°) carbocations. The difference in the three is the number of alkyl substituents. Primary carbocation has only one alkyl substituent, while the secondary carbocation has two, and the tertiary carbocation has three. Different types of carbocation have different relative stabilities.

Hydrocarbons

For hydrocarbons, the factor to be considered when predicting the stability of a carbocation is the number of carbon atoms attached to the carbon carrying the positive charge. The number of bonding electrons around the cation helps ‘neutralize’ the positive charge through an overlap between σ bonds and the unoccupied p-orbital of the carbocation. This phenomenon is called hyperconjugation.

Because of the overlap, the electron density is somehow supplied to the electron-deficient carbocation carbon increasing its stability. The higher the number of hyperconjugated interactions, the higher is the stability of the carbocation. This would mean Mean Mean is the sum of all measurements in a data set divided by the number of measurements in that data set. Measures of Central Tendency and Dispersion that the higher the number of alkyl groups around a carbocation carbon, the more stable is the carbocation. This would translate to having the following trends for the carbocation stability as increasing substitution, increases stability.

Stability of carbocation: CH3+ (methyl) < RCH2+ (1°) < R2CH+ (2°) < R3C+ (3°)

Addition of Halogen

Preparation of alkyl halides can be achieved by electrophilic addition reactions using halo acids Acids Chemical compounds which yield hydrogen ions or protons when dissolved in water, whose hydrogen can be replaced by metals or basic radicals, or which react with bases to form salts and water (neutralization). An extension of the term includes substances dissolved in media other than water. Acid-Base Balance as the electrophiles. Electrophilic addition of HX to an alkene is regiospecific, that is, the addition may occur in one of two possible orientations. In the reaction, a carbocation is produced. Most of these reactions usually proceed in the mechanism producing the most stable carbocation. Reactions are usually governed by the Markovnikov’s rule.

Vladimir Markovnikov proposed in 1869 that, in the addition of HX to an alkene, the H atom attaches to the carbon with fewer alkyl substituents producing the most stable carbocation that can receive the electrons from the remaining negatively-charged X- ion.

Example

For example, the reaction between propene and HCl HCL Hairy cell leukemia (HCL) is a rare, chronic, B-cell leukemia characterized by the accumulation of small mature B lymphocytes that have “hair-like projections” visible on microscopy. The abnormal cells accumulate in the peripheral blood, bone marrow (causing fibrosis), and red pulp of the spleen, leading to cytopenias. Hairy Cell Leukemia would yield 2-chloropropane. In this reaction, the HCl HCL Hairy cell leukemia (HCL) is a rare, chronic, B-cell leukemia characterized by the accumulation of small mature B lymphocytes that have “hair-like projections” visible on microscopy. The abnormal cells accumulate in the peripheral blood, bone marrow (causing fibrosis), and red pulp of the spleen, leading to cytopenias. Hairy Cell Leukemia is a highly polar compound with the partially negative end in Cl and a partially positive end in H. The reaction begins with the positive end of HCl HCL Hairy cell leukemia (HCL) is a rare, chronic, B-cell leukemia characterized by the accumulation of small mature B lymphocytes that have “hair-like projections” visible on microscopy. The abnormal cells accumulate in the peripheral blood, bone marrow (causing fibrosis), and red pulp of the spleen, leading to cytopenias. Hairy Cell Leukemia attacking the nucleophilic π bonds. The π bonds donate 2 electrons to form a new σ bond between the hydrogen and the alkene carbon. Hydrogen may attach to either carbon 1 or 2 of the propene molecule but, following Markovnikov’s rule, the hydrogen will attach to Carbon 1 to produce a more stable carbocation.

Note: The carbocation produced in the process is electrophilic because of the positive charge and can readily receive an electron-pair from the nucleophilic Cl ion to form a C-Cl bond, eventually forming the alkyl halide.

The mechanism for the reaction is summarized in the reaction below.

Electrophilic addition of hcl to propene

Electrophilic addition of HCl HCL Hairy cell leukemia (HCL) is a rare, chronic, B-cell leukemia characterized by the accumulation of small mature B lymphocytes that have “hair-like projections” visible on microscopy. The abnormal cells accumulate in the peripheral blood, bone marrow (causing fibrosis), and red pulp of the spleen, leading to cytopenias. Hairy Cell Leukemia to propene

Image by Mark Xavier Bailon.

In cases, wherein the double-bond carbon atoms have the same number of alkyl groups around them, a mixture of additional products will be produced. Such is the reaction of 2-pentene with HCl HCL Hairy cell leukemia (HCL) is a rare, chronic, B-cell leukemia characterized by the accumulation of small mature B lymphocytes that have “hair-like projections” visible on microscopy. The abnormal cells accumulate in the peripheral blood, bone marrow (causing fibrosis), and red pulp of the spleen, leading to cytopenias. Hairy Cell Leukemia. In the reactions, the H and Cl may attach itself in either Carbons 2 or 3 since the two carbons have the same degree of substitution. In the process, a mixture of 2-chloropentane and 3-chloropentane is produced.

Electrophilic addition of hcl to-2-pentene

Electrophilic addition of HCl HCL Hairy cell leukemia (HCL) is a rare, chronic, B-cell leukemia characterized by the accumulation of small mature B lymphocytes that have “hair-like projections” visible on microscopy. The abnormal cells accumulate in the peripheral blood, bone marrow (causing fibrosis), and red pulp of the spleen, leading to cytopenias. Hairy Cell Leukemia to-2-pentene

Image by Mark Xavier Bailon.

Other Addition Reactions

Hydrogenation of alkenes

Hydrogenation is the addition of H2 to the double bond of the alkene and, in the process, produces an alkane. This reaction is very slow, and so there is a need to use metal catalysts like Pt, Pd PD Parkinson’s disease (PD) is a chronic, progressive neurodegenerative disorder. Although the cause is unknown, several genetic and environmental risk factors are currently being studied. Individuals present clinically with resting tremor, bradykinesia, rigidity, and postural instability. Parkinson’s Disease, and Ni to speed up the reaction.

Catalytic hydrogenation of ethane

Catalytic hydrogenation of ethane

Image by Mark Xavier Bailon.

Free-radical addition of hydrogen bromide

The addition of Hydrogen bromide to propene may follow, or not, the Markovnikov’s rule. Ordinary reaction conditions would yield 2-bromobutane following the Markovnikov’s rule. However, in the presence of peroxide, the reactions follow an anti-Markovnikov mechanism producing 1-bromobutane.

Addition reaction of hbr and 1-butene

Addition reaction of HBr and 1-butene

Image by Mark Xavier Bailon.

Addition of sulfuric acid Sulfuric acid Inorganic and organic derivatives of sulfuric acid (h2so4). The salts and esters of sulfuric acid are known as sulfates and sulfuric acid esters respectively. Caustic Ingestion (Cleaning Products) to alkenes

The addition of sulfuric acid Sulfuric acid Inorganic and organic derivatives of sulfuric acid (h2so4). The salts and esters of sulfuric acid are known as sulfates and sulfuric acid esters respectively. Caustic Ingestion (Cleaning Products), H2SO4, follows Markovnikov’s rule. The proton coming from the acid is added to the carbon having the greater number of hydrogen atoms, while the hydrogen sulfate ion, HSO4, attaches to the carbon having a less number of hydrogen atoms.

Addition of sulfuric acid to 1-butene

Addition of sulfuric acid Sulfuric acid Inorganic and organic derivatives of sulfuric acid (h2so4). The salts and esters of sulfuric acid are known as sulfates and sulfuric acid esters respectively. Caustic Ingestion (Cleaning Products) to 1-butene

Image by Mark Xavier Bailon.

Acid-catalyzed hydration of alkenes

Acid-catalyzed hydration of Alkenes also follows Markovnikov’s rule. The first step of the reaction is a proton transfer to a less substituted carbon forming the most stable carbocation. The water molecules then act as a nucleophile attaching itself to the carbocation by donating an electron pair from the oxygen atom of the water molecule. The last step is the removal of one of the H atoms attached to the O atom regenerating the H+ in the first step.

Acid-catalyzed hydration of 2-methyl-2-butene

Acid-catalyzed hydration of 2-methyl-2-butene

Image by Mark Xavier Bailon.

Addition of halogens to alkenes

Halogens spontaneously react with alkenes by electrophilic addition producing a dihalogenated alkane. Products of these reactions are called vicinal dihalides because of having the halides attached to adjacent carbon atoms.

Addition reaction of br2 and 2,3-dimethyl-2-butene

Addition reaction of Br2 and 2,3-dimethyl-2-butene

Image by Mark Xavier Bailon.

References

  1. McMurry, J. (2012). Organic chemistry (8th ed.). Belmont, CA: Cengage Learning Brooks/Cole.
  2. Carey, F. A., & Giuliano, R. M. (2010). Organic chemistry (4th ed.). New York, NY: McGraw-Hill.

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