Access free live classes and tests on the app
Download
+
Unacademy's Blog!
Login Join for Free
avtar
  • ProfileProfile
  • Settings Settings
  • Refer your friendsRefer your friends
  • Sign outSign out
  • Terms & conditions
  • •
  • Privacy policy
  • About
  • •
  • Careers
  • •
  • Blog

© 2023 Sorting Hat Technologies Pvt Ltd

Challenge Yourself Everyday Attempt 2023’s and previous year’s JEE Main Download Important Formulas pdf Attempt Free Test Series for JEE Main 2023

Trending Topics

  • JEE Main 2024
  • JEE Main Rank Predictor 2024
  • JEE Main Mock Test 2024
  • JEE Main 2024 Admit Card
  • JEE Advanced Syllabus
  • JEE Preparation Books
  • JEE Notes
  • JEE Advanced Toppers
  • JEE Advanced 2022 Question Paper
  • JEE Advanced 2022 Answer Key
  • JEE Main Question Paper
  • JEE Main Answer key 2022
  • JEE Main Paper Analysis 2022
  • JEE Main Result
  • JEE Exam Pattern
  • JEE Main Eligibility
  • JEE College predictor
[wp_login_wall media_id="424566" text_before_login="Download JEE Main PYQs" text_after_login="Download JEE Main 2022 Question Papers"]

JEE Coaching Centres

  • JEE Coaching in Nagpur
  • JEE Coaching in Ranchi
  • JEE Coaching in Gorakhpur
  • JEE Coaching in Bhubaneswar
  • JEE Coaching in Vijayawada
  • JEE Coaching in Dehradun
  • JEE Coaching in Indore
  • JEE Coaching in Gurugram
  • JEE Coaching in Muzaffarpur
  • JEE Coaching in Varanasi
  • JEE Coaching in Jammu
  • JEE Coaching in Kolhapur
  • JEE Coaching in Bikaner
  • JEE Coaching in Delhi Lajpat Nagar
Predict your JEE Rank . [wp_custom_style style=".side-btn-second{margin: 1px 0px;}"][wp_custom_script script="document.querySelector('.targetTopBtn').onClick = topFunction; function topFunction() { window.scrollTo({ top: 0, behavior: 'smooth' }) }"][wp_custom_style style=".side-btn-second{margin: 1px 0px;} .elementor-element.elementor-element-dcb2b31{display: none !important;}"]
Challenge Yourself Everyday Attempt 2023’s and previous year’s JEE Main Download Important Formulas pdf Attempt Free Test Series for JEE Main 2023

Trending Topics

  • JEE Main 2024
  • JEE Main Rank Predictor 2024
  • JEE Main Mock Test 2024
  • JEE Main 2024 Admit Card
  • JEE Advanced Syllabus
  • JEE Preparation Books
  • JEE Notes
  • JEE Advanced Toppers
  • JEE Advanced 2022 Question Paper
  • JEE Advanced 2022 Answer Key
  • JEE Main Question Paper
  • JEE Main Answer key 2022
  • JEE Main Paper Analysis 2022
  • JEE Main Result
  • JEE Exam Pattern
  • JEE Main Eligibility
  • JEE College predictor
[wp_login_wall media_id="424566" text_before_login="Download JEE Main PYQs" text_after_login="Download JEE Main 2022 Question Papers"]

JEE Coaching Centres

  • JEE Coaching in Nagpur
  • JEE Coaching in Ranchi
  • JEE Coaching in Gorakhpur
  • JEE Coaching in Bhubaneswar
  • JEE Coaching in Vijayawada
  • JEE Coaching in Dehradun
  • JEE Coaching in Indore
  • JEE Coaching in Gurugram
  • JEE Coaching in Muzaffarpur
  • JEE Coaching in Varanasi
  • JEE Coaching in Jammu
  • JEE Coaching in Kolhapur
  • JEE Coaching in Bikaner
  • JEE Coaching in Delhi Lajpat Nagar
Predict your JEE Rank . [wp_custom_style style=".side-btn-second{margin: 1px 0px;}"][wp_custom_script script="document.querySelector('.targetTopBtn').onClick = topFunction; function topFunction() { window.scrollTo({ top: 0, behavior: 'smooth' }) }"][wp_custom_style style=".side-btn-second{margin: 1px 0px;} .elementor-element.elementor-element-dcb2b31{display: none !important;}"]
JEE Main 2026 Preparation: Question Papers, Solutions, Mock Tests & Strategy Unacademy » JEE Study Material » Chemistry » Nucleophiles
Challenge Yourself Everyday Attempt 2023’s and previous year’s JEE Main Download Important Formulas pdf Attempt Free Test Series for JEE Main 2023

Trending Topics

  • JEE Main 2024
  • JEE Main Rank Predictor 2024
  • JEE Main Mock Test 2024
  • JEE Main 2024 Admit Card
  • JEE Advanced Syllabus
  • JEE Preparation Books
  • JEE Notes
  • JEE Advanced Toppers
  • JEE Advanced 2022 Question Paper
  • JEE Advanced 2022 Answer Key
  • JEE Main Question Paper
  • JEE Main Answer key 2022
  • JEE Main Paper Analysis 2022
  • JEE Main Result
  • JEE Exam Pattern
  • JEE Main Eligibility
  • JEE College predictor
[wp_login_wall media_id="424566" text_before_login="Download JEE Main PYQs" text_after_login="Download JEE Main 2022 Question Papers"]

JEE Coaching Centres

  • JEE Coaching in Nagpur
  • JEE Coaching in Ranchi
  • JEE Coaching in Gorakhpur
  • JEE Coaching in Bhubaneswar
  • JEE Coaching in Vijayawada
  • JEE Coaching in Dehradun
  • JEE Coaching in Indore
  • JEE Coaching in Gurugram
  • JEE Coaching in Muzaffarpur
  • JEE Coaching in Varanasi
  • JEE Coaching in Jammu
  • JEE Coaching in Kolhapur
  • JEE Coaching in Bikaner
  • JEE Coaching in Delhi Lajpat Nagar
Predict your JEE Rank . [wp_custom_style style=".side-btn-second{margin: 1px 0px;}"][wp_custom_script script="document.querySelector('.targetTopBtn').onClick = topFunction; function topFunction() { window.scrollTo({ top: 0, behavior: 'smooth' }) }"][wp_custom_style style=".side-btn-second{margin: 1px 0px;} .elementor-element.elementor-element-dcb2b31{display: none !important;}"]

Nucleophiles

In this article, we will be learning about nucleophiles and nucleophilic substitution reactions. Also, this article shall shower importance on electrophiles.

Table of Content
  •  

The term “nucleophile” refers to compounds that transfer electron pairs to electrophiles in order to establish chemical bonds with them. Any ion or molecule with a free electron pair or a pi bond carrying two electrons can act as a nucleophile. As formerly acknowledged, nucleophiles are electron-rich species with the ability to contribute electron pairs. They are Lewis bases. The term “nucleophile” consists of two parts: nucleus and philos. Philos is a Greek word that means “love.” As a result, nucleophiles are known as Nucleus Loving species. These nucleophiles might have a positive or neutral charge.

Some terminologies associated to nucleophiles:

  • The affinity of a species for the positively charged nucleus is defined by its nucleophilic nature.
  • Nucleophilicity is a word that is used to assess the nucleophilic traits of various nucleophiles.
  • Nucleophilic substitution is a method in which an electron-rich nucleophile selectively attacks a positively charged (or partially positively charged) atom in a molecule and bonds with the positively charged species to switch a leaving group.

TYPES OF NUCLEOPHILES:

Nucleophiles come in a variety of types. The following species are commonly found to be good nucleophiles:

  • Halogens – A halogen’s diatomic form does not have nucleophilic properties. The anionic form of these halogens, on the other hand, is a powerful nucleophile. For example, in a polar, protic solvent, diatomic iodine (I2) does not operate as a nucleophile, whereas I– is the greatest nucleophile.
  • Carbon – In many organometallic compounds, as well as in enols, carbon behaves as a nucleophile. Grignard Reagents, Organolithium Reagents, and n-butyllithium are examples of compounds in which carbon behaves as a nucleophile.
  • Oxygen – The hydroxide ion is an excellent example of a nucleophile in which the oxygen atom donates an electron pair. Alcohols and hydrogen peroxide are two further examples. It’s worth noting that during the intermolecular hydrogen bonding that occurs in many compounds containing oxygen and hydrogen, no nucleophilic assaults occur.
  • Sulphur – sulphur possesses several nucleophilic properties due to its enormous size, relative ease of polarisation, and easily accessible lone electron pairs. H2S (hydrogen sulphide) is an excellent example of a sulphur-containing nucleophile.
  • Nitrogen – Nitrogen is known to create amines, azides, ammonia, and nitrides, among other nucleophiles. Even amides have been shown to have nucleophilic properties.

Apart from the species indicated above, it can be seen that as the ions become more basic as they travel through a row in the periodic table, their nucleophilic reactivity increases.

AMBIDENT NUCLEOPHILE:

Ambident Nucleophiles are nucleophiles that can carry out nucleophilic assaults from two or more separate locations in the molecule (or ion). These kinds of nucleophile attacks repeatedly develop in the making of various products.
The thiocyanate ion, with the chemical formula SCN-, is a case of an ambident nucleophile. This ion can aim for either the sulphur or nitrogen atoms with nucleophilic attacks. The creation of a mixture of alkyl isothiocyanates with the chemical formula R-NCS and alkyl thiocyanates with the chemical formula R-SCN is common in nucleophilic substitution reactions of alkyl halides involving this ion.
As a result, an ambident nucleophile is an anionic nucleophile in which the ion’s negative charge is delocalized across two distinct atoms due to resonance effects. Enolate ions are commonly found to have this property. A resonance structure of an ambident nucleophile is depicted in the diagram below.

NUCLEOPHILIC SUBSTITUTION REACTION:

A nucleophilic substitution reaction is one in which one nucleophile replaces another in an organic process. It’s very similar to conventional displacement reactions in chemistry, in which a more reactive element replaces a less reactive element in a salt solution. The “leaving group” is the molecule on which replacement occurs, and the “substrate” is the molecule on which the electron pair is shifted from the carbon. The departing group is a neutral molecule or a negative ion when it exits.

The nucleophilicity of a nucleophile is its reactivity or strength in nucleophilic substitution reactions. A stronger nucleophile switches a weaker nucleophile from its component in a nucleophilic substitution process. It can be nearly described as follows:

R-L+Nu- →R-Nu+L-, here:

  • R is the alkyl group
  • L is the leaving group, which is less nucleophilic
  • Nu is the stronger nucleophile

Consider the following reaction as an example-

CH3-Br + OH- → CH3-OH + Br-

NUCLEOPHILICITY:

It is defined as the nucleophiles’ ability to associate their lone pairs with a positive centre. It’s a kinetic word that refers to the nucleophile’s rate of attack on the substrates (R – L). The following reasons can be used to compare the nucleophilicity of several nucleophiles.

MECHANISMS OF NUCLEOPHILIC SUBSTITUTION:

The pace of nucleophilic substitution processes is determined not only by nucleophiles and leaving capacities, but also by the reaction mechanism. For nucleophilic substitution reactions, two mechanisms have been postulated.

SN2 MECHANISM:

The reaction is referred to as the substitution nucleophilic bimolecular mechanism. It is governed by second-order kinetics, and the rate law for a process involving the SN2 mechanism is as follows. In the case of the SN2 reaction of the form

R-L+Nu-      →     R-Nu+L-
r=k[R-L][Nu-]

The rate of the SN2 reaction is dependent on both the substrate and nucleophile concentrations, according to the rate law. As a result, the rate of the reaction is increased by both the nucleophilicity of the nucleophile and the leaving capacity of the leaving group.

It’s a one-step method with only one intermediary. To prevent repulsions, it continues by the backside (of the L) assault of the arriving nucleophile, leading to an intermediate marked by two dotted lines between carbon – Nu and carbon-X. The C – X bond is broken and the C – Nu bond is produced at the same time, as indicated by the two dotted lines in the intermediate. Finally, the C–X Bond is totally shattered and the C–Nu Bond is fully created.

SN1 MECHANISM:

The process is known as unimolecular nucleophilic substitution. The rate law for the SN1 process with R – X as the substrate and Nu- as the entering nucleophile is as follows. 

r = k[R – X]

We can see from the preceding equation that the rate of the SN1 mechanism is solely determined by the substrate concentration and is unaffected by the concentration of the entering nucleophile. Indirectly, the rate is determined by the leaving group’s ability to leave, but it is unaffected by the nucleophilicity of the approaching nucleophile.

ELECTROPHILES: 

Electrophiles are positively charged or neutral species which have affinity towards electrons. They are also known as Lewis acids.

CONCLUSION:

Nucleophiles are those species which are proton loving. They undergo substitution reactions, which are SN1 and SN2. SN1 is unimolecular because the rate of reaction depends only on the concentration of the reacting molecule. SN2 is bimolecular because the rate of reaction depends on the concentration of substrate and the attacking nucleophile.

Electrophiles are electron loving species and undergo electrophilic substitution.

faq

Frequently asked questions

Get answers to the most common queries related to the IIT JEE Examination Preparation.

The specific temperatures of Cp and Cv in gases are two times greater than those in solids and liquids, which is why.

Ans: The specific temperatures of gases are denoted by the letters Cp and Cv under constant pressure and constant volume, respectively, whereas the...Read full

Can you explain the relationship between CP and CV?

ANS.CP stands for specific heat capacity of a material under constant pressure. CV is a measure of a substance’s specific heat capacit...Read full

What is the CP/CV Ratio in this case?

Ans:The CP/CV ratio, often known as the adiabatic index, is the ratio of specific temperatures to specific volume.

What is the reason that Cp is bigger than Cv?

Ans.Due to the fact that when gas is heated at constant volume, the entire amount of heat supplied is required to raise the temperature alone, cp i...Read full

What is the difference between Cp and Cv?

Ans.Cp is the phrase used to describe the molar heat capacity of a substance when the pressure is constant, whereas Cv is the term...Read full

Ans: The specific temperatures of gases are denoted by the letters Cp and Cv under constant pressure and constant volume, respectively, whereas the specific heats of solids and liquids are denoted by a single letter.

ANS.CP stands for specific heat capacity of a material under constant pressure.

CV is a measure of a substance’s specific heat capacity at a constant volume.

Arrangements:

CP-CV=R, where R denotes the gas constant.

Cp/Cv = Y(also known as the ‘gamma’ specific heat capacity ratio).

Ans:The CP/CV ratio, often known as the adiabatic index, is the ratio of specific temperatures to specific volume.

Ans.Due to the fact that when gas is heated at constant volume, the entire amount of heat supplied is required to raise the temperature alone, cp is greater than CV. When gas is heated at constant pressure, on the other hand, the heat that is given is used to increase both the temperature and the volume of the gas being heated.

 

Ans.Cp is the phrase used to describe the molar heat capacity of a substance when the pressure is constant, whereas Cv is the term used to indicate the molar heat capacity of a substance when the volume is constant. As a result, the molar heat capacity is defined by these two factors when pressure and temperature are varied.

Challenge Yourself Everyday
Attempt 2023’s and previous year’s JEE Main
Download Important Formulas pdf
Attempt Free Test Series for JEE Main 2023

Trending Topics

  • JEE Main 2024
  • JEE Main Rank Predictor 2024
  • JEE Main Mock Test 2024
  • JEE Main 2024 Admit Card
  • JEE Advanced Syllabus
  • JEE Preparation Books
  • JEE Notes
  • JEE Advanced Toppers
  • JEE Advanced 2022 Question Paper
  • JEE Advanced 2022 Answer Key
  • JEE Main Question Paper
  • JEE Main Answer key 2022
  • JEE Main Paper Analysis 2022
  • JEE Main Result
  • JEE Exam Pattern
  • JEE Main Eligibility
  • JEE College predictor

JEE Coaching Centres

  • JEE Coaching in Nagpur
  • JEE Coaching in Ranchi
  • JEE Coaching in Gorakhpur
  • JEE Coaching in Bhubaneswar
  • JEE Coaching in Vijayawada
  • JEE Coaching in Dehradun
  • JEE Coaching in Indore
  • JEE Coaching in Gurugram
  • JEE Coaching in Muzaffarpur
  • JEE Coaching in Varanasi
  • JEE Coaching in Jammu
  • JEE Coaching in Kolhapur
  • JEE Coaching in Bikaner
  • JEE Coaching in Delhi Lajpat Nagar
Predict your JEE Rank
.
Challenge Yourself Everyday
Attempt 2023’s and previous year’s JEE Main
Download Important Formulas pdf
Attempt Free Test Series for JEE Main 2023

Trending Topics

  • JEE Main 2024
  • JEE Main Rank Predictor 2024
  • JEE Main Mock Test 2024
  • JEE Main 2024 Admit Card
  • JEE Advanced Syllabus
  • JEE Preparation Books
  • JEE Notes
  • JEE Advanced Toppers
  • JEE Advanced 2022 Question Paper
  • JEE Advanced 2022 Answer Key
  • JEE Main Question Paper
  • JEE Main Answer key 2022
  • JEE Main Paper Analysis 2022
  • JEE Main Result
  • JEE Exam Pattern
  • JEE Main Eligibility
  • JEE College predictor

JEE Coaching Centres

  • JEE Coaching in Nagpur
  • JEE Coaching in Ranchi
  • JEE Coaching in Gorakhpur
  • JEE Coaching in Bhubaneswar
  • JEE Coaching in Vijayawada
  • JEE Coaching in Dehradun
  • JEE Coaching in Indore
  • JEE Coaching in Gurugram
  • JEE Coaching in Muzaffarpur
  • JEE Coaching in Varanasi
  • JEE Coaching in Jammu
  • JEE Coaching in Kolhapur
  • JEE Coaching in Bikaner
  • JEE Coaching in Delhi Lajpat Nagar
Predict your JEE Rank
.
Company Logo

Unacademy is India’s largest online learning platform. Download our apps to start learning


Starting your preparation?

Call us and we will answer all your questions about learning on Unacademy

Call +91 8585858585

Company
About usShikshodayaCareers
we're hiring
BlogsPrivacy PolicyTerms and Conditions
Help & support
User GuidelinesSite MapRefund PolicyTakedown PolicyGrievance Redressal
Products
Learner appLearner appEducator appEducator appParent appParent app
Popular goals
IIT JEEUPSCSSCCSIR UGC NETNEET UG
Trending exams
GATECATCANTA UGC NETBank Exams
Study material
UPSC Study MaterialNEET UG Study MaterialCA Foundation Study MaterialJEE Study MaterialSSC Study Material

© 2026 Sorting Hat Technologies Pvt Ltd

Unacademy's Blog!

Share via

COPY