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 » Ligands in Coordination Compounds
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;}"]

Ligands in Coordination Compounds

Ligands in coordination compounds act as Lewis bases and donate electron density to metal.

Table of Content
  •  

Ligands in coordination chemistry mean that they are molecules or ions that act as Lewis bases and donate their electron density to the vacant hybrid orbitals of the metal. Strong coordinate covalent bonds are formed with the metal. Ligands can be classified into various types on the basis of their denticity, charge, and field strength. They are crucial as they play an important role in determining the magnetic properties, geometry, and colour of coordination compounds. The word ‘ligand’ comes from Latin which means ‘to bind’. 

Types of Ligands

Ligands can be of two types based on the charge on them – neutral and anionic.

  • Anionic ligands have a negative charge on them. Examples of atomic anions are halide ions, oxide, and nitride.
  • Molecular anions are composed of more than one type of element. Hydroxide, cyanide, thiocyanide, nitrate, sulphate, acetate, etc, are common examples.
  • Neutral ligands have a lone pair of electrons that they can donate to the metal. The most common examples are water, carboxyl, nitrosyl, etc.

Denticity and Hapticity

Denticity is defined as the number of donor sites present in the ligand. 

Ligands can be classified on the basis of their denticity as follows:

  • Unidentate Ligand: If a ligand has only one donor site/group, it is called unidentate. Examples are Cl-, NH3, etc. 
  • Multidentate Ligand: If a ligand has more than one donor site/group, it is called multidentate. Multidentate ligands show a chelate effect. It can further be divided into the following types based on the number of donor sites:
  1. Bidentate Ligand: They have two donor sites, and both of them can participate in the bond formation simultaneously. Ethylenediamine is an example of a bidentate in which there are two nitrogen atoms that can donate electrons simultaneously to the metal centre. 
  2. Tridentate and tetradentate ligands: They have three and four donor sites respectively. Diethylenetriamine is a tridentate ligand having three nitrogens that can donate electrons. Triethylenetetrammine is a tetradentate ligand having four nitrogens.
  3. Hexadentate: There are six donor sites. Example: EDTA
  • Polydentate Ligand: When a ligand can exhibit multiple denticities depending on the external conditions, it is called polydentate. EDTA (ethylenediaminetetraacetate) is an example that can donate a different number of electron pairs, ranging from one to six. It can bind with the metal centre via two nitrogens or via four acetate group’s oxygens. 
  • Ambidentate: A ligand that has more than one donor site but only one of them can be involved in bonding at one time. For example, SCN- is ambidentate because it can donate from both sulphur and nitrogen centres. NO2- is ambidentate as it can donate from both oxygen and nitrogen centres.

Hapticity of a ligand is defined as the binding of the ligand with the metal centre through a series of contiguous atoms. Multiple atoms can coordinate with the metal via pi-bonding interactions. Ligands that exhibit hapticity are cyclopentadienyl anion, benzene, etc. It is represented by the Greek symbol 𝞰. The number of atoms coordinated with the metal at a given type is written at the top right corner of this symbol.

For example, if only two atoms of benzene are coordinated with the metal, then it would be called 𝞰2-benzene. If four atoms are coordinated, then 𝞰4-benzene.

Examples of such coordination compounds: ferrocene (iron is bonded with two cyclopentadienyl rings), nickelocene, etc.

Spectrochemical Series

Ligands can be classified into strong and weak field ligands on the basis of the extent to which they split the metal’s orbitals. A basic understanding of crystal field theory is essential for this. There are five d-orbitals in the metal that are degenerate, i.e., they are of the same energy. However, in the presence of a ligand, the orbitals can split into two energy levels. In an octahedral sphere, five d orbitals split into three and two d-orbitals. Three orbitals that are at a lower energy level are dxy, dyz, and dxz. Two orbitals that are at a higher energy level are dx2-y2 and dz2. These two orbitals experience more repulsion from the ligands as they are directed towards them in space. This causes them to rise higher in energy and form a set of orbitals.

The three orbitals dxy, dyz, and dxz lie between the axes and are lowered in energy. They form t2g set of orbitals.

This phenomenon is called crystal field splitting. Strong field ligands cause more splitting than weak field ligands. On this basis, a spectrochemical series has been formed in which ligands are positioned according to their field strength:

I- < Br- < Cl- < NO3- < F- < OH- < H2O < Pyridine < NH3 < NO2- < CN- < CO

Conclusion

Ligands are molecules or ions that bind covalently with the central metal ion and donate their electron density to their vacant orbitals. They can be classified into various types based on their denticities. They can be anionic or neutral. Ligands can split degenerate d-orbitals of metal into orbitals of different energy. Two d orbitals go to a higher energy level and the remaining three are at a lower energy level. This is termed as crystal field splitting. Now, let’s look at a few ligands in coordination compound questions.

faq

Frequently asked questions

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

Why does CO give low spin complexes but iodide gives high spin complexes?

Ans. The spin of a compound depends on the number of unpaired electrons. CO is a strong ligand that causes t...Read full

What hapticity does cyclopentadienyl ion exhibit?

Ans.𝞰1, 𝞰3, and 𝞰5. It can bind to the metal through either one atom, three contiguous atoms, or all five carbon atoms....Read full

Why EDTA complexes are more stable?

Ans. EDTA is a multidentate ligand that can bind to metal through more than one site...Read full

How do ligands in coordination compounds affect magnetic properties?

Ans. Magnetic properties are dependent on the number of unpaired electrons in the compound. If the compound has no unpaired electr...Read full

Ans. The spin of a compound depends on the number of unpaired electrons. CO is a strong ligand that causes the electrons to pair up in the d-orbital, i.e., the number of unpaired electrons decreases resulting in a low spin complex.  On the other hand, iodide is a weak field ligand that does not pair up the unpaired electrons, thus resulting in high spin complexes.

Ans.𝞰1, 𝞰3, and 𝞰5. It can bind to the metal through either one atom, three contiguous atoms, or all five carbon atoms.

Ans. EDTA is a multidentate ligand that can bind to metal through more than one site. It forms a closed ring around the metal, i.e., it exhibits a chelate effect which makes EDTA complexes more stable.

Ans. Magnetic properties are dependent on the number of unpaired electrons in the compound. If the compound has no unpaired electrons (which happens in the case of strong-field ligands), we get diamagnetic compounds, else we get paramagnetic compounds.

 

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