Boron and germanium are both metalloids and have properties of both metals and nonmetals. They are used in a variety of applications, such as in electronics and as dopants in semiconductors. Additionally, they are both essential for the growth and development of plants.
BORON 511 atomic#=5, atomic mass = 11 (for most common isotope)
Common compounds of boron include borax (sodium tetraborate), boric acid (hydrogen borate), boron nitride, and boron trioxide. These compounds are widely used in various industries such as glass manufacturing, ceramics, and agriculture.
Boron typically forms positive ions (cations) in chemical compounds. One common boron ion is the boron cation, B3+.
Al (aluminum)
The most common ion charge of boron is +3. Boron is typically found in compounds with a valence of +3 due to its electron configuration.
BORON 511 atomic#=5, atomic mass = 11 (for most common isotope)
Common donor impurities in silicon include phosphorus and arsenic. These impurities have one more valence electron than silicon, making them donate an extra electron to the silicon crystal lattice, resulting in n-type doping.
is the element boron abundant or rare on earth
Common compounds of boron include borax (sodium tetraborate), boric acid (hydrogen borate), boron nitride, and boron trioxide. These compounds are widely used in various industries such as glass manufacturing, ceramics, and agriculture.
boron
Boron typically forms positive ions (cations) in chemical compounds. One common boron ion is the boron cation, B3+.
They are both metalloids
Al (aluminum)
Boron has 5 neutrons and 5 protons for its most common isotope
The most common ion charge of boron is +3. Boron is typically found in compounds with a valence of +3 due to its electron configuration.
borax, borat, mankini
+3