Polonium-210 (²¹⁰Po, Po-210, historically radium F) is an isotope of polonium. It undergoes alpha decay to stable ²⁰⁶Pb with a half-life of 138.376 days (about 4+1⁄2 months), the longest half-life of all naturally occurring polonium isotopes (^210–218Po). First identified in 1898, and also marking the discovery of the element polonium, ²¹⁰Po is generated in the decay chain of uranium-238 and radium-226. ²¹⁰Po is a prominent contaminant in the environment, mostly affecting seafood and tobacco. Its extreme toxicity is attributed to intense radioactivity, mostly due to alpha particles, which easily cause radiation damage, including cancer in surrounding tissue. The specific activity of ²¹⁰
Po is 166 TBq/g, i.e., 1.66×10¹⁴ Bq/g. At the same time, ²¹⁰Po is not readily detected by common radiation detectors, because its gamma rays have a very low energy. Therefore, ²¹⁰
Po can be considered as a quasi-pure alpha emitter.

In 1898, Marie and Pierre Curie discovered a strongly radioactive substance in pitchblende and determined that it was a new element; it was one of the first radioactive elements discovered. Having identified it as such, they named the element polonium after Marie's home country, Poland. Willy Marckwald discovered a similar radioactive activity in 1902 and named it radio-tellurium as it was chemically extracted with its homolog tellurium, and at roughly the same time, Ernest Rutherford identified the same activity in his analysis of the uranium decay chain and named it radium F (originally radium E). By 1905, Rutherford concluded that all these observations were due to the same substance, ²¹⁰Po. Further discoveries and the concept of isotopes, first proposed in 1913 by Frederick Soddy, firmly placed ²¹⁰Po as the penultimate step in the uranium series.

In 1943, ²¹⁰Po was studied as a possible neutron initiator in nuclear weapons, as part of the Dayton Project. In subsequent decades, concerns for the safety of workers handling ²¹⁰Po led to extensive studies on its health effects.

In the 1950s, scientists of the United States Atomic Energy Commission at Mound Laboratories, Ohio explored the possibility of using ²¹⁰Po in radioisotope thermoelectric generators (RTGs) as a heat source to power satellites. A 2.5-watt atomic battery using ²¹⁰Po was developed by 1958. However, the isotope plutonium-238 was chosen instead, as it has a longer half-life of 87.7 years.

Polonium-210 was used to kill Russian dissident and ex-FSB officer Alexander V. Litvinenko in 2006, and was suspected as a possible cause of Yasser Arafat's death, following exhumation and analysis of his corpse in 2012–2013. The radioisotope may also have been used to kill Yuri Shchekochikhin, Lecha Islamov and Roman Tsepov.

²¹⁰Po is an alpha emitter that has a half-life of 138.376 days; it decays directly to stable ²⁰⁶Pb. The majority of the time, ²¹⁰Po decays by emission of an alpha particle only, not by emission of an alpha particle and a gamma ray; about one in 100,000 decays results in the emission of a gamma ray.

This low gamma ray production rate makes it difficult to use for identification of the isotope; rather than gamma ray spectroscopy, alpha spectroscopy is the best method of measuring it.

Owing to its much shorter half-life, a milligram of ²¹⁰Po emits as many alpha particles per second as 5 grams of ²²⁶Ra (that is, a milligram is 5 curies). A few curies of ²¹⁰Po emit a blue glow caused by excitation of surrounding air.