{"id":5178,"date":"2012-05-31T18:49:14","date_gmt":"2012-05-31T18:49:14","guid":{"rendered":"https:\/\/www.masterorganicchemistry.com\/?p=5178"},"modified":"2026-05-07T10:37:33","modified_gmt":"2026-05-07T15:37:33","slug":"walkthrough-of-nucleophilic-substitution-reactions-introduction","status":"publish","type":"post","link":"https:\/\/www.masterorganicchemistry.com\/2012\/05\/31\/walkthrough-of-nucleophilic-substitution-reactions-introduction\/","title":{"rendered":"Nucleophilic Substitution Reactions – Introduction"},"content":{"rendered":"

Introduction to Nucleophilic Substitution Reactions<\/strong><\/p>\n

Today starts a new series of posts on walking through one of the key classes of reaction in organic chemistry: nucleophilic substitution reactions. The goal of this series is to teach you how to recognize substitution reactions when they are presented to you, and identify the various kinds of substitution reactions and their mechanisms.<\/p>\n

But today, let’s just introduce “substitution reactions”.<\/p>\n

\"Summary-Four<\/a><\/p>\n

Table of Contents<\/strong><\/p>\n

    \n
  1. The Key Pattern In A Substitution Reaction Is Breaking And Forming A New Bond At Carbon<\/a><\/li>\n
  2. The Two Reactive Partners In A Substitution Reaction Are An Electron-Rich “Nucleophile” And An Electron-Poor “Electrophile”<\/a><\/li>\n
  3. Substitution Reactions Resemble Acid-Base Reactions, Except That A Bond Forms And Breaks At Carbon Instead Of H+<\/a><\/li>\n
  4. The Four Components Of A Substitution Reaction Are The Nucleophile, The Electrophile, The Product, and The Leaving Group<\/a><\/li>\n
  5. Notes<\/a><\/li>\n
  6. Quiz Yourself!<\/a><\/li>\n<\/ol>\n
    \n

    <\/a>1. The Key Pattern In A Substitution Reaction Is Breaking And Forming A New Bond At Carbon<\/h2>\n

    Substitution reactions are among the most versatile and important reactions in all of organic chemistry. Below are drawn three examples of these reactions.*<\/p>\n

    Assuming no background knowledge except a\u00a0understanding acid base reactions<\/a> and a knowledge of how to see hidden hydrogens<\/a>, look closely: what bonds are formed and broken in each case?<\/p>\n

    \"key<\/p>\n

    In each case we’re breaking a bond at carbon and forming a new bond at carbon<\/strong>. In other words the carbon has swapped partners.<\/p>\n

    Let’s take the first reaction and ask the second key question when understanding a new reaction: where are the electrons<\/a>\u00a0in our starting materials?<\/p>\n

    <\/a>2. The Two Reactive Partners In A Substitution Reaction Are An Electron-Rich “Nucleophile” And An Electron-Poor “Electrophile”<\/h2>\n

    We have an electron rich species (the oxygen<\/strong>) forming a bond with an electron poor species (the carbon attached to the chlorine<\/strong>). Using relative electronegativities to understand reactivity<\/a>, and knowing that opposite charges attract, and that electrons flow from negative to positive, \u00a0it’s easy to imagine an interaction between these two atoms.<\/p>\n

    \"substitution<\/p>\n

    Third question: how do these electrons move<\/strong>, then?<\/p>\n

    Well, the oxygen went from negatively charged to neutral – from owning<\/em> a pair of electrons to sharing<\/em> a pair of electrons with carbon. And the chlorine\u00a0went from neutral to negatively charged – from sharing a pair of electrons with carbon to owning a pair of electrons.<\/p>\n

    It’s too early to say conclusively how <\/strong>this reaction occurs at this point without further experimental results, but any description of how the bonds form and break (the mechanism<\/a>) will have to explain the timing for the forming of the O-C bond and the breakage of the C-Cl bond.<\/p>\n

    <\/a>3. Substitution Reactions Resemble Acid-Base Reactions, Except That A Bond Forms And Breaks At Carbon Instead Of H+<\/h2>\n

    By the way, does this type of reaction remind you of anything you’ve seen before? It should, if only a little bit. It’s kinda<\/em> like an acid-base reaction, \u00a0where we’re breaking and forming a new bond at hydrogen, except we’re breaking and forming a bond on carbon instead.<\/p>\n

    Let’s look back at the 4 components of an acid base reaction.\u00a0We had an electron-rich species (a\u00a0 base) donating a pair of electrons to an electron-poor species (the hydrogen), which formed a conjugate acid (base plus proton)\u00a0 and a conjugate base (the part kicked off when the acid lost the proton)<\/p>\n

    \"four<\/p>\n

    <\/a>4. The Four Components Of A Substitution Reaction Are The Nucleophile, The Electrophile, The Product, and The Leaving Group<\/h2>\n

    A different terminology has been developed to describe each of these components for a substitution reaction, as opposed to acid base reactions.<\/p>\n

    In the substitution reaction, we have an electron-rich species (the oxygen) donating a pair of electrons to an electron poor species (the carbon) which forms a new product (the alcohol) and a new base (the part kicked off when the C-Cl bond broke).<\/p>\n

    The nucleophile<\/strong> is the electron-rich species donating a pair of electrons to carbon.<\/p>\n

    The electrophile<\/strong> (or “substrate” or “alkyl halide” in this case) is the species accepting the pair of electrons.<\/p>\n

    The species formed is the product.<\/strong><\/p>\n

    The new base that breaks off of the carbon\u00a0 is called the leaving group.\u00a0<\/strong><\/p>\n

    Putting it all together for this reaction:<\/p>\n

    \"four<\/p>\n

    Next time, let’s understand this new concept – “nucleophilicity” in more detail, and how it differs from basicity.<\/p>\n

    Next post: Nucleophiles and Electrophiles<\/strong><\/a><\/p>\n

    \n

    <\/a>Notes<\/h2>\n

    <\/a>Note 1.\u00a0 <\/strong>Chemistry is an experimental science. Unlike theorems in say, mathematics, which can be derived from a starting set of premises, the body of knowledge in the science of chemistry is one that has been obtained through experiments and observations. We only figure out the premises by looking backwards from the results of our experiments!\u00a0<\/strong><\/p>\n

    The bottom line here is that the reactions described here are observed to happen, and these observations have been reproduced thousands of times <\/strong>by scientists working in different decades, from different countries, speaking many native languages. This stuff just works.<\/strong> Some of them you might perform in a teaching laboratory; others, you’ll just have to take our word for it (but are always free to try to falsify these observations, of course). Maybe one day you’ll get the chance to do some of them yourself.<\/p>\n

    \n

    <\/a>Quiz Yourself!<\/h2>\n


    \n\"\"<\/a><\/p>\n

    Become a MOC member<\/strong><\/a> to see the clickable quiz with answers on the back.<\/p>\n


    \n
    \n\"\"<\/a><\/p>\n

    Become a MOC member<\/strong><\/a> to see the clickable quiz with answers on the back.<\/p>\n


    \n
    \n\"\"<\/a><\/p>\n

    Become a MOC member<\/strong><\/a> to see the clickable quiz with answers on the back.<\/p>\n


    \n
    \n\"\"<\/a><\/p>\n

    Become a MOC member<\/strong><\/a> to see the clickable quiz with answers on the back.<\/p>\n


    \n
    \n\"\"<\/a><\/p>\n

    Become a MOC member<\/strong><\/a> to see the clickable quiz with answers on the back.<\/p>\n


    \n
    \n\"\"<\/a><\/p>\n

    Become a MOC member<\/strong><\/a> to see the clickable quiz with answers on the back.<\/p>\n


    \n
    \n\"\"<\/a><\/p>\n

    Become a MOC member<\/strong><\/a> to see the clickable quiz with answers on the back.<\/p>\n

    <\/p>\n","protected":false},"excerpt":{"rendered":"

    Introduction to Nucleophilic Substitution Reactions Today starts a new series of posts on walking through one of the key classes of reaction in organic chemistry: <\/p>\n","protected":false},"author":1,"featured_media":37432,"comment_status":"open","ping_status":"open","sticky":false,"template":"","format":"standard","meta":{"_acf_changed":false,"footnotes":""},"categories":[1414],"tags":[164,176,831,832,825,502,271,279,830],"post_folder":[],"class_list":["post-5178","post","type-post","status-publish","format-standard","has-post-thumbnail","hentry","category-substitution-reactions","tag-acids","tag-bases","tag-electrophile","tag-introduction","tag-nucleophile","tag-sn1","tag-sn2","tag-substitution","tag-walkthrough"],"acf":[],"yoast_head":"\nNucleophilic Substitution Reactions - Introduction<\/title>\n<meta name=\"description\" content=\"Substitution reactions resemble acid-base reactions except that a bond forms and breaks at carbon instead of H+. 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