Chemistry: Common Polyatomic Ions Cheatsheet – The Fox Click : Free Tools and Resources

Introduction to Polyatomic Ions

Polyatomic ions are charged chemical species (ions) that consist of two or more atoms covalently bonded together. Unlike monatomic ions, which are formed from single atoms, polyatomic ions behave as a single unit in chemical reactions. Understanding polyatomic ions is essential for chemistry students as they appear frequently in chemical formulas, naming compounds, and predicting reaction products. This cheatsheet provides a comprehensive reference for the most commonly encountered polyatomic ions, organized by charge and type for easy memorization and application.

Negative Polyatomic Ions (Anions)

-1 Charge Anions

Formula	Name	Common Occurrence
OH⁻	Hydroxide	Bases, pH adjustment
CN⁻	Cyanide	Industrial processes, electroplating
NO₂⁻	Nitrite	Food preservatives, chemical intermediates
NO₃⁻	Nitrate	Fertilizers, explosives, food preservative
ClO⁻	Hypochlorite	Bleaches, disinfectants
ClO₂⁻	Chlorite	Water purification
ClO₃⁻	Chlorate	Oxidizing agents, matches, explosives
ClO₄⁻	Perchlorate	Rocket propellants, fireworks
MnO₄⁻	Permanganate	Disinfectants, water treatment, oxidizing agent
CH₃COO⁻	Acetate	Solvents, vinegar, esters
HCO₃⁻	Hydrogen carbonate (Bicarbonate)	Baking soda, antacids, pH buffers
HSO₄⁻	Hydrogen sulfate (Bisulfate)	pH adjustment, cleaning agents
HSO₃⁻	Hydrogen sulfite (Bisulfite)	Food preservatives, wine making
H₂PO₄⁻	Dihydrogen phosphate	Fertilizers, pH buffers
IO₃⁻	Iodate	Disinfectants, analytical chemistry
BrO₃⁻	Bromate	Water treatment, baking additives
SCN⁻	Thiocyanate	Chemical analysis, photography
OCN⁻	Cyanate	Industrial processes
N₃⁻	Azide	Airbags, preservatives

-2 Charge Anions

Formula	Name	Common Occurrence
CO₃²⁻	Carbonate	Limestone, chalk, antacids
SO₃²⁻	Sulfite	Food preservatives, wine making
SO₄²⁻	Sulfate	Gypsum, fertilizers, detergents
S₂O₃²⁻	Thiosulfate	Photography, analytical chemistry
CrO₄²⁻	Chromate	Pigments, wood preservatives
Cr₂O₇²⁻	Dichromate	Oxidizing agents, leather tanning
HPO₄²⁻	Hydrogen phosphate	Fertilizers, pH buffers
SiO₃²⁻	Silicate	Glass, ceramics, detergents
C₂O₄²⁻	Oxalate	Cleaning agents, rust removal
O₂²⁻	Peroxide	Bleaching agents, disinfectants
S²⁻	Sulfide	Metal ores, water treatment
MoO₄²⁻	Molybdate	Pigments, catalysts
WO₄²⁻	Tungstate	Pigments, flame retardants

-3 Charge Anions

Formula	Name	Common Occurrence
PO₄³⁻	Phosphate	Fertilizers, detergents, biological systems
AsO₄³⁻	Arsenate	Pesticides, wood preservatives
BO₃³⁻	Borate	Detergents, glass production
PO₃³⁻	Phosphite	Fertilizers, flame retardants
AsO₃³⁻	Arsenite	Pesticides, wood preservatives
VO₄³⁻	Vanadate	Catalysts, steel production
N³⁻	Nitride	Ceramics, semiconductors

Positive Polyatomic Ions (Cations)

+1 Charge Cations

Formula	Name	Common Occurrence
NH₄⁺	Ammonium	Fertilizers, household cleaning products
H₃O⁺	Hydronium	Aqueous acid solutions
NO⁺	Nitrosyl	Chemical intermediates
Hg₂²⁺	Mercury(I) / Mercurous	Mercury compounds

+2 Charge Cations

Formula	Name	Common Occurrence
UO₂²⁺	Uranyl	Uranium compounds, nuclear industry
VO²⁺	Vanadyl	Catalysts
PO₂²⁺	Phosphoryl	Phosphate chemistry

Structural Patterns and Naming Rules

Common Structural Patterns

Oxyanions

Oxyanions consist of an element bonded to oxygen atoms. The naming follows these patterns:

Element + Oxygen	Suffix	Example
Lowest oxygen number	-ite	NO₂⁻ = Nitrite
Higher oxygen number	-ate	NO₃⁻ = Nitrate
One less oxygen than -ite	Hypo-…ite	ClO⁻ = Hypochlorite
One more oxygen than -ate	Per-…ate	ClO₄⁻ = Perchlorate

Halogen Oxyanions Series

Formula	Name
ClO⁻	Hypochlorite
ClO₂⁻	Chlorite
ClO₃⁻	Chlorate
ClO₄⁻	Perchlorate

Similar patterns exist for bromine, iodine, and fluorine oxyanions.

Hydrogen-Containing Anions

When hydrogen is added to an anion, it typically gets the prefix “hydrogen” or “bi-” (older nomenclature):

CO₃²⁻ (Carbonate) → HCO₃⁻ (Hydrogen carbonate or Bicarbonate)
PO₄³⁻ (Phosphate) → HPO₄²⁻ (Hydrogen phosphate) → H₂PO₄⁻ (Dihydrogen phosphate)

Memorization Strategies

Charge Grouping Method

Organize ions by charge, focusing on learning groups with the same charge at a time.

Suffix-Charge Association

Most -ate and -ite ions have a -2 or -3 charge
When hydrogens are added, the negative charge decreases by one for each H added
-ide ions typically have a -1 or -2 charge

Visual Association

Oxyanions with more oxygen atoms generally have more negative charge
Ions with similar formulas often have similar charges (e.g., CrO₄²⁻ and SO₄²⁻)

Mnemonic Devices

Common -ate ions:

“Sam’s Crazy Purple N-ate”: Sulfate (SO₄²⁻), Carbonate (CO₃²⁻), Phosphate (PO₄³⁻), Nitrate (NO₃⁻)

-ite vs -ate oxygen count:

“The -ite is a little lighter” (fewer oxygen atoms than the corresponding -ate ion)

Polyatomic Ion Applications

Chemical Formula Writing

When writing formulas with polyatomic ions, enclose the polyatomic ion in parentheses if more than one is needed:

Calcium nitrate: Ca(NO₃)₂
Aluminum sulfate: Al₂(SO₄)₃
Ammonium phosphate: (NH₄)₃PO₄

Compound Naming With Polyatomic Ions

Name the metal (cation) first
Name the polyatomic ion (anion) second
No prefixes needed for binary ionic compounds

Examples:

KNO₃: Potassium nitrate
Ca(OH)₂: Calcium hydroxide
Fe₂(SO₄)₃: Iron(III) sulfate or Ferric sulfate

Balancing Equations with Polyatomic Ions

When polyatomic ions remain unchanged throughout a reaction, treat them as a single unit:

Example: 2KMnO₄ + 10KI + 8H₂SO₄ → 2MnSO₄ + 5I₂ + 6K₂SO₄ + 8H₂O

Notice how MnO₄⁻, SO₄²⁻, and H₂O stay intact in the balanced equation.

Common Polyatomic Ions in Specific Chemical Contexts

Acids Containing Polyatomic Ions

Polyatomic Ion	Corresponding Acid
NO₃⁻ (Nitrate)	HNO₃ (Nitric acid)
NO₂⁻ (Nitrite)	HNO₂ (Nitrous acid)
SO₄²⁻ (Sulfate)	H₂SO₄ (Sulfuric acid)
SO₃²⁻ (Sulfite)	H₂SO₃ (Sulfurous acid)
PO₄³⁻ (Phosphate)	H₃PO₄ (Phosphoric acid)
ClO⁻ (Hypochlorite)	HClO (Hypochlorous acid)
ClO₃⁻ (Chlorate)	HClO₃ (Chloric acid)
CO₃²⁻ (Carbonate)	H₂CO₃ (Carbonic acid)
C₂H₃O₂⁻ (Acetate)	HC₂H₃O₂ (Acetic acid)

Polyatomic Ions in Common Household Substances

Common Name	Chemical Name	Formula with Polyatomic Ion
Baking soda	Sodium bicarbonate	NaHCO₃
Table salt	Sodium chloride	NaCl (no polyatomic ion)
Bleach	Sodium hypochlorite	NaClO
Vinegar	Acetic acid	HC₂H₃O₂
Drain cleaner	Sodium hydroxide	NaOH
Chalk	Calcium carbonate	CaCO₃
Epsom salt	Magnesium sulfate	MgSO₄
Plaster of Paris	Calcium sulfate	CaSO₄
Fertilizer	Ammonium nitrate	NH₄NO₃
Antacid	Various carbonates	(e.g., CaCO₃, NaHCO₃)

Biological Polyatomic Ions

Polyatomic Ion	Biological Role
PO₄³⁻ (Phosphate)	DNA, ATP, energy transfer, buffer systems
HCO₃⁻ (Bicarbonate)	Blood pH buffer
NH₄⁺ (Ammonium)	Nitrogen excretion, protein metabolism
NO₃⁻ (Nitrate)	Nitrogen cycle, vasodilation
SO₄²⁻ (Sulfate)	Protein structure, detoxification
HPO₄²⁻/H₂PO₄⁻	Phosphate buffer system

Electronic Structure and Resonance

Many polyatomic ions exhibit resonance, where electrons are delocalized over multiple atoms, contributing to their stability.

Example Resonance Structures

Nitrate Ion (NO₃⁻)

The negative charge is distributed equally among all three oxygen atoms:

N has a formal charge of +1
One O has a formal charge of -1
Two O atoms have formal charges of 0

Carbonate Ion (CO₃²⁻)

The negative charge is distributed among the oxygen atoms:

C has a formal charge of 0
Two O atoms have formal charges of -1 each
One O atom has a formal charge of 0

Resources for Further Learning

Online Databases

NIST Chemistry WebBook
Royal Society of Chemistry Periodic Table
PubChem Chemical Database

Reference Books

CRC Handbook of Chemistry and Physics
Lange’s Handbook of Chemistry
Chemistry: The Central Science (Brown, LeMay, et al.)

Interactive Learning Tools

Polyatomic Ion Flashcards
Periodic Table Apps with Ion Information
Chemical Formula Writing Practice Tools

This cheatsheet provides a comprehensive reference for common polyatomic ions in chemistry. The organization by charge and type facilitates quick reference and supports systematic learning of these important chemical components.