Anode compositions and alkali metal batteries comprising same

1 . (canceled) 2 . A process of preparing a composition-of-matter comprising a plurality of particles, said particles comprising a substance selected from the group consisting of: a) a compound which forms an alloy with an alkali metal; and b) an alloy of an alkali metal with said compound, said alloy reversibly releasing said alkali metal while decreasing in volume and absorbing said alkali metal while increasing in volume, wherein each of said particles is encapsulated within a volume enclosed by a shell or matrix which conducts cations of said alkali metal, the process comprising: i) providing particles comprising said alloy of an alkali metal with said compound, wherein said alloy is saturated with said alkali metal; and ii) coating said particles with a conductor of cations of said alkali metal, thereby forming said shell or matrix. 3 . (canceled) 4 . A composition-of-matter comprising a plurality of particles, said particles comprising a substance selected from the group consisting of: a) a compound which forms an alloy with an alkali metal; and b) an alloy of an alkali metal with said compound, said alloy reversibly releasing said alkali metal while decreasing in volume and absorbing said alkali metal while increasing in volume, wherein each of said particles is encapsulated within a volume enclosed by a shell or matrix which conducts cations of said alkali metal, wherein a volume of said alloy upon maximal absorption of said alkali metal does not exceed said volume enclosed by a shell or matrix. 5 . The composition-of-matter of claim 4 , wherein a ratio of said volume of said alloy upon maximal absorption of said alkali metal to said volume enclosed by a shell or matrix is uniform among at least 90% of said particles. 6 . The composition-of-matter of claim 4 , wherein a volume of said alloy upon maximal absorption of said alkali metal is at least 80% of said volume enclosed by a shell or matrix. 7 . (canceled) 8 . The composition-of-matter of claim 4 , wherein said shell or matrix is substantially free of pores of at least 2 nm in diameter. 9 . The composition-of-matter of claim 4 , wherein said shell or matrix which conducts cations of said alkali metal comprises an ion conductor comprising said alkali metal, said ion conductor being selected from the group consisting of a salt, a polymer electrolyte, a glass, a ceramic and any combination thereof. 10 . The composition-of-matter of claim 9 , wherein said ion conductor is selected from the group consisting of a carbonate salt of said alkali metal, a sulfate salt of said alkali metal, a fluoride salt of said alkali metal, a metal disulfide comprising said alkali metal, a metal oxide comprising said alkali metal, and a metal phosphate comprising said alkali metal, and any combination thereof. 11 . (canceled) 12 . The composition-of-matter of claim 9 , wherein said ion conductor has a melting point lower than a melting point of said alloy upon maximal absorption of said alkali metal. 13 . The composition-of-matter of claim 4 , wherein said shell or matrix comprises at least one electron conductor. 14 . (canceled) 15 . The composition-of-matter of claim 4 , wherein said compound which forms an alloy with an alkali metal is selected from the group consisting of silicon, tin, antimony, germanium, lead, bismuth, magnesium, aluminum and mixtures thereof. 16 . The composition-of-matter of claim 15 , wherein said alkali metal is lithium. 17 . The composition-of-matter of claim 16 , wherein said alloy upon maximal absorption of said alkali metal has a general formula selected from the group consisting of Li x Si, wherein x is in a range of from 2.5 to 4.4; Li x Sn, wherein x is in a range of from 2.5 to 4.4; and Li x Sb, wherein x is in a range of from 1 to 3. 18 . The composition-of-matter of claim 16 , wherein said alloy upon maximal absorption of said alkali metal is selected from the group consisting of Li 4.2 Si, Li 4.4 Sn, Li 3 Sb, Li 4.4 Ge, Li 17 Pb 83 , Li 3 Bi, Li 32.2 Sb 31.8 Mn 36 , Li 4.4 Ge 1-y Sn y wherein y is between 0 and 1. 19 - 25 . (canceled) 26 . The composition-of-matter of claim 4 , wherein said shell or matrix is formed from particles characterized by an average size in a range of from 0.5 to 100 nm. 27 - 28 . (canceled) 29 . An electrochemical half cell comprising an anode which comprises the composition-of-matter of claim 4 , and a liquid comprising an electrolyte. 30 . The electrochemical half cell of claim 29 , wherein said shell or matrix which conducts cations of said alkali metal is insoluble in said liquid comprising an electrolyte. 31 - 32 . (canceled) 33 . A rechargeable alkali metal ion battery comprising the electrochemical half cell of claim 29 , and an alkali metal ion cathode. 34 . (canceled) 35 . The battery of claim 33 , wherein when a cathode of the battery is in a fully discharged state, an amount of said alkali metal in an anode of the battery is no more than 50% of a capacity of said anode. 36 . The process of claim 2 , wherein said coating comprises: mixing said particles comprising said alloy with particles of said conductor of cations of said alkali metal, and optionally with additional particles of an electron conductor, to obtain a mixture; and subjecting said mixture to a heat treatment, to thereby form said shell or matrix. 37 . The process of claim 36 , wherein said heat treatment effects sintering of particles in said mixture. 38 . The process of claim 37 , wherein said sintering is effected by heating for at least 1 hour at a temperature of no more than 10° C. lower than a melting point of said conductor of cations of said alkali metal. 39 . The process of claim 36 , wherein said heat treatment effects melting of said particles comprising said conductor of cations of said alkali metal and/or said additional particles of an electron conductor, but not melting of said particles comprising said alloy. 40 . (canceled) 41 . The process of claim 2 , wherein said shell or matrix is formed from particles characterized by a width in a range of from 0.5 to 100 nm. 42 . The process of claim 2 , further comprising grinding said composition-of-matter to form a powder. 43 . (canceled) 44 . A composition-of-matter prepared by the process of claim 2 .