Atomic Number 94

Plutonium (Pu)

Actinide

GroupActinide

Period7

BlockF

State @ 25°CSolid

Valence Electrons2–3 (f-block, variable)

Electron Config (Noble)[Rn] 7s2 5f6

94PuPlutonium244

Tap related elements to compare trends across group and period.

Navigate neighbors← Np Am →

Physical Properties

How this element behaves in real-world conditions.

State (25°C): Solid
Density: 19.82 g/cm³
Melting Point: 640 °C
Boiling Point: 3230 °C

Atomic Structure

Core identity and periodic table positioning.

Atomic Number: 94
Atomic Weight: 244
Atomic Radius: 243 pm
Block: F
Group: Actinide
Period: 7

Electromagnetic Properties

How this element attracts and exchanges electrons.

Electronegativity: 1.28
Ionization Energy: 6.026 eV
Electron Affinity: 0.5 eV
Metallic Character: Metal

Hero / Identity Section

Core identity profile for Plutonium with periodic placement and electron context.

Element Name: Plutonium
Symbol: Pu
Atomic Number: 94
Atomic Mass: 244
Group: Actinide Series
Period: 7
Block: F
Category: Actinide
Standard State: Solid
Electron Configuration (Full): 1s2 2s2 2p6 3s2 3p6 4s2 3d10 4p6 5s2 4d10 5p6 6s2 4f14 5d10 6p6 7s2 5f6
Electron Configuration (Noble Gas): [Rn] 7s2 5f6
Valence Electrons: 2–3 (f-block, variable)

Quick Facts Card (Table Layout)

Fast-reference values for physical and energetic properties.

Atomic Radius

243 pm

Ionic Radius

Not available in current dataset

Electronegativity (Pauling)

1.28

1st Ionization Energy

6.026 eV

Electron Affinity

0.5 eV

Density

19.82 g/cm³

Melting Point

640 °C

Boiling Point

3,230 °C

Heat Capacity

Not available in current dataset

Thermal Conductivity

Not available in current dataset

Visual Components

Visual learning views for table position, shells, orbitals, and phase behavior.

Highlighted Position in Periodic Table Grid

Row 10, Column 9

Bohr Model Diagram

Educational shell model for electron arrangement.

Electron Shell Diagram

K shell2
L shell8
M shell18
N shell32
O shell24
P shell8
Q shell2

Orbital Configuration Diagram

1s2/2

2s2/2

2p6/6

3s2/2

3p6/6

4s2/2

3d10/10

4p6/6

5s2/2

4d10/10

5p6/6

6s2/2

4f14/14

5d10/10

6p6/6

7s2/2

5f6/14

Phase Illustration

Solid

Solid lattice

Atomic Structure Section

Nuclear composition and electron shielding interpretation.

Protons: 94
Neutrons (Most Abundant Isotope Estimate): 150
Electrons: 94
Electron Configuration Breakdown: 2 • 8 • 18 • 32 • 24 • 8 • 2
Shielding Explanation: Core electrons (~92) shield part of the nucleus, reducing attraction felt by outer electrons compared with the full nuclear charge.
Effective Nuclear Charge (Estimate): 2

Chemical Properties Section

Category-guided chemistry behavior with periodic context for comparison.

Common Oxidation States: Variable, often +3 to +6
Reactivity Summary: Chemically reactive heavy elements, many with complex redox behavior.
Acid/Base Behavior: Forms multiple oxides and aqueous ionic species with variable acid/base behavior.
Bonding Behavior: Shows ionic and covalent character with coordination chemistry.
Typical Compounds: Oxides, Fluorides, Nitrate/coordination compounds
Periodic Trend Comparison (Group Neighbors): Compared with Lr, this element is lower in the group and typically has a larger atomic size and lower ionization tendency.

Isotopes & Nuclear Data

Isotope stability and abundance notes for learning-oriented nuclear context.

Stable Isotopes: No fully stable isotopes are known for this element.
Radioactive Isotopes: All known isotopes are radioactive.
Natural Abundance (%): Usually trace-level or synthetic; natural abundance is limited.
Half-life (If Applicable): Half-life varies by isotope and should be checked from isotope-specific references.
Nuclear Spin (Optional Advanced): Advanced isotope-level data is not included in the current core dataset.
Most Abundant Isotope (Estimate): Pu-244

Applications & Uses

How this element appears in industry, biology, medicine, and technology.

Industrial Uses: Nuclear fuel cycles, research, and specialized energy applications.
Biological Role: No essential biological role; many forms are biologically hazardous.
Medical Use: Limited specialized radiotherapeutic/radiotracer use for selected isotopes.
Technological Relevance: Relevant to nuclear energy, detectors, and radiochemistry.
Environmental Impact: Radioactive persistence requires long-term waste management and monitoring.

Safety & Handling

General hazard guidance for educational reference and lab awareness.

Toxicity: Radiological and chemical toxicity can be significant; strict controls are required.
Flammability: Some metal forms/powders can be pyrophoric.
Storage Considerations: Requires controlled shielding, contamination controls, and regulated containment.
Regulatory Classification: Strictly regulated radioactive materials under national/international frameworks.

Atomic Number 94

Plutonium (Pu)

Actinide

GroupActinide

Period7

BlockF

State @ 25°CSolid

Valence Electrons2–3 (f-block, variable)

Electron Config (Noble)[Rn] 7s2 5f6

94PuPlutonium244

Tap related elements to compare trends across group and period.

Navigate neighbors← Np Am →

Physical Properties

How this element behaves in real-world conditions.

State (25°C): Solid
Density: 19.82 g/cm³
Melting Point: 640 °C
Boiling Point: 3230 °C

Atomic Structure

Core identity and periodic table positioning.

Atomic Number: 94
Atomic Weight: 244
Atomic Radius: 243 pm
Block: F
Group: Actinide
Period: 7

Electromagnetic Properties

How this element attracts and exchanges electrons.

Electronegativity: 1.28
Ionization Energy: 6.026 eV
Electron Affinity: 0.5 eV
Metallic Character: Metal

Hero / Identity Section

Core identity profile for Plutonium with periodic placement and electron context.

Element Name: Plutonium
Symbol: Pu
Atomic Number: 94
Atomic Mass: 244
Group: Actinide Series
Period: 7
Block: F
Category: Actinide
Standard State: Solid
Electron Configuration (Full): 1s2 2s2 2p6 3s2 3p6 4s2 3d10 4p6 5s2 4d10 5p6 6s2 4f14 5d10 6p6 7s2 5f6
Electron Configuration (Noble Gas): [Rn] 7s2 5f6
Valence Electrons: 2–3 (f-block, variable)

Quick Facts Card (Table Layout)

Fast-reference values for physical and energetic properties.

Atomic Radius

243 pm

Ionic Radius

Not available in current dataset

Electronegativity (Pauling)

1.28

1st Ionization Energy

6.026 eV

Electron Affinity

0.5 eV

Density

19.82 g/cm³

Melting Point

640 °C

Boiling Point

3,230 °C

Heat Capacity

Not available in current dataset

Thermal Conductivity

Not available in current dataset

Visual Components

Visual learning views for table position, shells, orbitals, and phase behavior.

Highlighted Position in Periodic Table Grid

Row 10, Column 9

Bohr Model Diagram

Educational shell model for electron arrangement.

Electron Shell Diagram

K shell2
L shell8
M shell18
N shell32
O shell24
P shell8
Q shell2

Orbital Configuration Diagram

1s2/2

2s2/2

2p6/6

3s2/2

3p6/6

4s2/2

3d10/10

4p6/6

5s2/2

4d10/10

5p6/6

6s2/2

4f14/14

5d10/10

6p6/6

7s2/2

5f6/14

Phase Illustration

Solid

Solid lattice

Atomic Structure Section

Nuclear composition and electron shielding interpretation.

Protons: 94
Neutrons (Most Abundant Isotope Estimate): 150
Electrons: 94
Electron Configuration Breakdown: 2 • 8 • 18 • 32 • 24 • 8 • 2
Shielding Explanation: Core electrons (~92) shield part of the nucleus, reducing attraction felt by outer electrons compared with the full nuclear charge.
Effective Nuclear Charge (Estimate): 2

Chemical Properties Section

Category-guided chemistry behavior with periodic context for comparison.

Common Oxidation States: Variable, often +3 to +6
Reactivity Summary: Chemically reactive heavy elements, many with complex redox behavior.
Acid/Base Behavior: Forms multiple oxides and aqueous ionic species with variable acid/base behavior.
Bonding Behavior: Shows ionic and covalent character with coordination chemistry.
Typical Compounds: Oxides, Fluorides, Nitrate/coordination compounds
Periodic Trend Comparison (Group Neighbors): Compared with Lr, this element is lower in the group and typically has a larger atomic size and lower ionization tendency.

Isotopes & Nuclear Data

Isotope stability and abundance notes for learning-oriented nuclear context.

Stable Isotopes: No fully stable isotopes are known for this element.
Radioactive Isotopes: All known isotopes are radioactive.
Natural Abundance (%): Usually trace-level or synthetic; natural abundance is limited.
Half-life (If Applicable): Half-life varies by isotope and should be checked from isotope-specific references.
Nuclear Spin (Optional Advanced): Advanced isotope-level data is not included in the current core dataset.
Most Abundant Isotope (Estimate): Pu-244

Applications & Uses

How this element appears in industry, biology, medicine, and technology.

Industrial Uses: Nuclear fuel cycles, research, and specialized energy applications.
Biological Role: No essential biological role; many forms are biologically hazardous.
Medical Use: Limited specialized radiotherapeutic/radiotracer use for selected isotopes.
Technological Relevance: Relevant to nuclear energy, detectors, and radiochemistry.
Environmental Impact: Radioactive persistence requires long-term waste management and monitoring.

Safety & Handling

General hazard guidance for educational reference and lab awareness.

Toxicity: Radiological and chemical toxicity can be significant; strict controls are required.
Flammability: Some metal forms/powders can be pyrophoric.
Storage Considerations: Requires controlled shielding, contamination controls, and regulated containment.
Regulatory Classification: Strictly regulated radioactive materials under national/international frameworks.