Both are metalloids.
7 metalloids:BoronArsenicAntimonyTelluriumPoloniumSiliconGermanium
Pure silicon is intrinsic. It has a high resitivity which means it is a poor conductor of electricity in this state. The dopant that is introduced during the doping process can be arsenic, boron or phosphorous. These are the traditional choices to dope the intrinsically pure silicon. After the pure silicon becomes doped its electrical properties change. The main change is it has a lower resistivity and will conduct electricity. This is why silicon is called a semiconductor.
no it is not a nonmetal. Silicon is a metalloid
slicon of course
Both bromine an arsenic have the same atomic radius. :)
Silicon and arsenic are both metalloids located in the same group of the periodic table and have similar chemical properties. They can form compounds with similar structures and exhibit semiconducting properties. Both elements are commonly used in electronic devices and technologies.
They are both metalloids, or semimetals.
silicon, germanium
Some examples of metalloids include silicon, germanium, arsenic, antimony, and tellurium. These elements have properties that are intermediate between metals and nonmetals.
Both of these are elements of the periodic table.
Boron and arsenic are both metalloids located in group 15 of the periodic table. They have similar electron configurations and can exhibit both metal-like and nonmetal-like properties. Both elements are used in various industrial applications, such as in the production of semiconductors and in the manufacturing of certain chemicals.
Metalloids are elements found along the staircase on the periodic table, touching both metals and nonmetals. They have properties that are intermediate between metals and nonmetals, such as being semi-conductive. Common metalloids include silicon, arsenic, and germanium.
using the partial periodic table above for reference ,whatdo boron ,silicon , and arsenic have in common
The most common metalloids are silicon, germanium, and arsenic. These elements exhibit properties of both metals and non-metals, making them important in various technological applications.
The main element from the periodic table used to make a solar cell is silicon. A simple solar cell consists of a sandwich of a 'silicon-boron' layer and a 'silicon-arsenic' layer. The amount of boron and arsenic present is however very small.
7 metalloids:BoronArsenicAntimonyTelluriumPoloniumSiliconGermanium
Metalloids or semimetals, such as boron, silicon, germanium, arsenic, antimony, and tellurium. These elements have properties that are intermediate between metals and nonmetals.