Hassium vs Indium

Hassium

Indium

Indium vs Hassium

Periodic Table

Symbol

Group Number

Period Number

Block

d block

p block

Element Family

Transition Metal

Post-Transition

CAS Number

54037579

7440746

Space Group Name

Not Available

I4/mmm

Space Group Number

Not Available

139.00

Facts

Interesting Facts

Hassium metals rate of decay is very high.
Hassium metals 1st sample was synthesized through a nuclear reaction.

Luster of Indium is bright in nature.
Reich and richer were looking for thallium in zinc metal and they discovered Indium metal.

Sources

Synthetically Produced

Mining, Ores of metals

History

Who Discovered

Gesellschaft für Schwerionenforschung

Ferdinand Reich and Hieronymous Theodor Richter

Discovery

In 1984

In 1863

Abundance

Abundance In Universe

Not Available

3 * 10^-8 %

Abundance In Sun

~-9999 %

~0.0000004 %

Abundance In Meteorites

Not Available

0.00 %

99+

Abundance In Earth's Crust

Not Available

0.00 %

99+

Abundance In Oceans

Not Available

0.00 %

99+

Uses

Uses & Benefits

Currently known uses of Hassium metal are limited to research purpose only.

It is used to produce indium tin oxide (ITO), it is used in manufacturing touch screens, flat screen TVs and solar panels.

Its nitride, phosphide and antimonide are used in transistors and microchips.

Industrial Uses

Aerospace Industry, Automobile Industry

Medical Uses

Medical Research

Other Uses

Research Purposes

Alloys, In Nuclear Reactors

Biological Properties

Toxicity

Unknown

Non Toxic

Present in Human Body

Yes

In Blood

0.00 Blood/mg dm-3

Not Available

In Bone

0.00 p.p.m.

Not Available

Physical Properties

Melting Point

Not Available

156.61 °C

99+

Boiling Point

Not Available

2,000.00 °C

99+

Appearance

Physical State

Solid

Color

Silver

Silvery Gray

Luster

Lustrous

Hardness

Mohs Hardness

Not Available

1.20

Brinell Hardness

Not Available

8.80 MPa

99+

Speed of Sound

Not Available

1,215.00 m/s

99+

Optical Properties

Allotropes

α Allotropes

Not Available

β Allotropes

Not Available

γ Allotropes

Not Available

Chemical Properties

Chemical Formula

Isotopes

Known Isotopes

Electronegativity

Pauling Electronegativity

Not Available

1.78

Sanderson Electronegativity

Not Available

2.14

Allred Rochow Electronegativity

Not Available

1.49

Mulliken-Jaffe Electronegativity

Not Available

1.76

Allen Electronegativity

Not Available

1.66

Electropositivity

Pauling Electropositivity

Not Available

2.22

Ionization Energies

1st Energy Level

733.30 kJ/mol

558.30 kJ/mol

99+

2nd Energy Level

1,756.00 kJ/mol

1,820.70 kJ/mol

3rd Energy Level

2,827.00 kJ/mol

2,704.00 kJ/mol

4th Energy Level

3,637.50 kJ/mol

99+

5,210.00 kJ/mol

5th Energy Level

4,940.00 kJ/mol

Not Available

6th Energy Level

6,175.10 kJ/mol

Not Available

7th Energy level

7,535.50 kJ/mol

Not Available

8th Energy Level

8,857.40 kJ/mol

Not Available

Electrochemical Equivalent

Not Available

1.43 g/amp-hr

99+

Electron Work Function

Not Available

4.12 eV

Other Chemical Properties

Ionization, Radioactive Isotopes, Radioactivity

Ionization, Radioactive Isotopes, Radioactivity, Solubility

Atomic Properties

Atomic Number

108

99+

Electron Configuration

[Rn] 5f¹⁴ 6d⁶ 7s²

[Kr] 4d¹⁰ 5s² 5p¹

Crystal Structure

Hexagonal Close Packed (HCP)

Tetragonal (TETR)

Crystal Lattice

BCC-Crystal-Structure-.jpg#100

TETR-Crystal-Structure-of-Indium.jpg#100

Atom

Number of Protons

108

99+

Number of Neutrons

158

99+

Number of Electrons

108

99+

Radius of an Atom

Atomic Radius

126.00 pm

99+

167.00 pm

Covalent Radius

134.00 pm

99+

142.00 pm

99+

Van der Waals Radius

Not Available

193.00 pm

Atomic Weight

269.00 amu

114.82 amu

99+

Atomic Volume

Not Available

15.70 cm3/mol

Adjacent Atomic Numbers

Previous Element

Next Element

Valence Electron Potential

Not Available

54.00 (-eV)

Lattice Constant

Not Available

325.23 pm

99+

Lattice Angles

π/2, π/2, π/2

Lattice C/A Ratio

Not Available

Mechanical Properties

Density

Density At Room Temperature

40.70 g/cm³

7.31 g/cm³

99+

Density When Liquid (at m.p.)

Not Available

7.02 g/cm3

Tensile Strength

Not Available

2.50 MPa

Viscosity

Not Available

Vapor Pressure

Vapor Pressure at 1000 K

Not Available

0.01 (Pa)

Elasticity properties

Young's Modulus

Not Available

11.00 GPa

99+

Poisson Ratio

Not Available

Other Mechanical Properties

Unknown

Ductile, Malleable

Magnetic Properties

Magnetic Characteristics

Specific Gravity

Not Available

7.31

99+

Magnetic Ordering

Unknown

Diamagnetic

Electrical Properties

Electrical Property

Unknown

Conductor

Resistivity

Not Available

83.70 nΩ·m

Electrical Conductivity

Not Available

0.12 10⁶/cm Ω

Electron Affinity

Not Available

28.90 kJ/mol

Thermal Properties

Specific Heat

Not Available

0.23 J/(kg K)

Molar Heat Capacity

Not Available

26.74 J/mol·K

Thermal Conductivity

Not Available

81.80 W/m·K

Critical Temperature

Not Available

Thermal Expansion

Not Available

32.10 µm/(m·K)

Enthalpy

Enthalpy of Vaporization

Not Available

226.40 kJ/mol

Enthalpy of Fusion

Not Available

3.28 kJ/mol

99+

Enthalpy of Atomization

Not Available

242.70 kJ/mol

99+

Standard Molar Entropy

Not Available

57.80 J/mol.K

Periodic Table >>

<< All

Compare Transition Metals

Transition Metals

Silver
Periodi... | Physical | Chemical | Mechanical

Copper
Periodi... | Physical | Chemical | Mechanical

Iron
Periodi... | Physical | Chemical | Mechanical

» More Transition Metals

Compare Transition Metals

Indium vs Copernicium
Periodi... | Physical | Chemical | Mechanical

Indium vs Dubnium
Periodi... | Physical | Chemical | Mechanical

Indium vs Bohrium
Periodi... | Physical | Chemical | Mechanical

» More Compare Transition Metals

Transition Metals + -

Actinide Metals + -

Lanthanide Metals + -

Post-Transition Metals + -

Alkaline Earth Metals + -

Hassium vs Indium

Compare Transition Metals

Transition Metals

Transition Metals

Compare Transition Metals