Let us look at the physical and chemical properties of metalloids. They also have applications in pyrotechnics, electronics and semiconductors. We use metalloids in biochemical agents, alloys and catalysts, flame retardant glasses, optical storage and electronics. In such tables, we can locate the metalloids near this line. Certain periodic tables contain a line that divides metals and non-metals. In the traditional periodic table, all 11 metalloids lie in the diagonal region of a p-block, extending from Boron in the upper left corner to Astatine in the lower-left corner. They are Selenium, Astatine, Polonium, Aluminium, and Carbon. Additionally, five more elements are not classified as metalloids as frequently as the ones mentioned before. There are six well-known metalloids: Antimony, Tellurium, Boron, Germanium, Arsenic, and Silicon. Although there is no standard definition for metalloids, the term is still widely used in Chemistry. Alternatively, we can describe them as a mixture of metals and non-metals. Metalloids are chemical elements with properties of metals as well as non-metals. ![]() They occupy the space between metals and non-metals in the periodic table. Metalloids are elements that have characteristics of both metals and non-metals. Non-metals are found on the top-right side of the periodic table. ![]() Metals occupy the majority of the periodic table. Metals, metalloids, and non-metals are three types of elements. In other words, it is the most basic form of matter. An element is a material that we cannot break down into other substances.
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