Hydrogen Storage Alloys

1 . A hydrogen storage alloy comprising a metal region adjacent to a metal oxide boundary region, where the boundary region has a length and an average width, where the average width is from about 12 nm to about 1100 nm. 2 . An alloy according to claim 1 which exhibits a charge transfer resistance (R) at −40° C. of ≦150 Ω·g; and/or an high rate dischargeability of ≧93% at the 3 rd cycle, defined as the ratio of discharge capacity measured at 50 mA g −1 to that measured at 4 mA g −1 , measured in a flooded cell configuration against a partially pre-charged Ni(OH) 2 positive electrode with no alkaline pretreatment applied before the half-cell measurement and where each sample electrode is charged at a constant current density of 50 mA g −1 for 10 h and then discharged at a current density of 50 mA g −1 followed by two pulls at 12 and 4 mA/g; and/or a surface catalytic ability for the main phase or main phases at −40° C. of ≦30 seconds; and/or a charge transfer resistance (R) for the main phase or main phases at −40° C. of ≦150 Ω·g. 3 . A hydrogen storage alloy according to claim 1 , where the boundary region comprises a Ni/Cr oxide. 4 . An alloy according to claim 3 , where the Ni/Cr oxide contains ≧60 at % oxygen. 5 . An alloy according to claim 3 , where the Ni/Cr oxide contains from about 2 at % to about 8 at % Cr. 6 . An alloy according to claim 3 , where the Ni/Cr oxide contains from about 16 at % to about 23 at % Ni. 7 . An alloy according to claim 3 , where the Ni/Cr oxide contains from about 64 at % to about 71 at % oxygen, from about 3 at % to about 8 at % Cr and from about 16 at % to about 21 at % Ni. 8 . An alloy according to claim 3 where the Ni/Cr oxide contains oxygen, Ni, Cr and one or more further elements selected from the group consisting of Al, Ti, V, Mn, Co and Zr. 9 . An alloy according to claim 1 , where the boundary region has a length and an average width and comprises at least one channel which runs along the length of the boundary region. 10 . An alloy according to claim 1 , where the boundary region comprises at least one channel which has an average width of from about 4 nm to about 40 nm. 11 . An alloy according to claim 1 , where the boundary region comprises a transition oxide zone adjacent to a metal region. 12 . An alloy according to claim 1 , where the boundary region has a length and an average width and comprises a transition oxide zone adjacent to a metal region which transition zone runs along the length of the boundary region. 13 . An alloy according to claim 1 , where the boundary region comprises a transition oxide zone adjacent to a metal region which transition zone has an average width of from about 4 nm to about 30 nm. 14 . An alloy according to claim 1 , where the boundary region comprises a metal oxide zone. 15 . An alloy according to claim 1 , where the boundary region has a length and an average width and comprises a metal oxide zone which runs along the length of the boundary region. 16 . An alloy according to claim 1 , where the boundary region comprises a metal oxide zone which has an average width of from about 5 nm to about 500 nm. 17 . An alloy according to claim 1 , where the boundary region has a length and an average width and comprises across the width a first transition oxide zone, a metal oxide zone and a second transition oxide zone, each running along the length of the boundary region. 18 . An alloy according to claim 1 , where the boundary region has a length and an average width and comprises across the width a first transition oxide zone, a channel and a second transition oxide zone, each running along the length of the boundary region. 19 . An alloy according to claim 1 , where the boundary region has a length and an average width and comprises across the width a first transition oxide zone, a metal oxide zone, a channel and a second transition oxide zone, each running along the length of the boundary region. 20 . An alloy according to claim 1 , where the boundary region has a length and an average width, where the length is ≧4 times the average width. 21 . An alloy according to claim 1 , where the boundary region has an average width of from about 20 nm to about 500 nm. 22 . An alloy according to claim 1 , comprising from about 0.1 at % to about 10.0 at % one or more rare earth elements. 23 . An alloy according to claim 1 which comprises at least one main phase and at least one secondary phase. 24 . A alloy according to claim 1 which comprises at least one main phase and a secondary phase, which secondary phase comprises one or more rare earth elements. 25 . An alloy according to claim 1 , comprising at least one main phase and a secondary phase, where the secondary phase comprises Ni. 26 . An alloy according to claim 1 , comprising at least one main phase and a secondary phase, where the secondary phase comprises La and Ni. 27 . An alloy according to claim 1 , comprising i) one or more elements selected from the group consisting of Ti, Zr, Nb and Hf and ii) one or more elements selected from the group consisting of V, Cr, Mn, Ni, Sn, Al, Co, Cu, Mo, W, Fe, Si and rare earth elements; or i) one or more elements selected from the group consisting of Ti, Zr, Nb and Hf and ii) Ni, Cr and one or more elements selected from the group consisting of B, Al, Si, Sn, other transition metals and rare earth elements; or i) one or more elements selected from the group consisting of Ti, Zr, Nb and Hf and ii) Ni, Cr and one or more elements selected from the group consisting of V, Mn, Sn, Al, Co, Cu, Mo, W, Fe, Si and rare earth elements. 28 . An alloy according to claim 27 where the atomic ratio of ii) to i) is from about 2.02 to about 2.45. 29 . An alloy according to claim 1 , comprising a C14 or C15 main Laves phase or comprising C14 and C15 main Laves phases. 30 . An alloy according to claim 1 , comprising a C14 or C15 main Laves phase or C14 and C15 main Laves phases, >0.5 wt % of a storage secondary phase comprising La and Ni and from about 0.3 wt % to about 15 wt % of a catalytic secondary phase comprising Ti and Ni. 31 . An alloy according to claim 1 , comprising Ti, Zr, V, Ni, Cr and one or more rare earth elements; or Ti, Zr, Ni, Mn, Cr and one or more rare earth elements; or Ti, Cr, V, Ni and one or more rare earth elements; or Ti, Zr, V, Ni, Cr and one or more elements selected from the group consisting of B, Al, Si, Sn and other transition metals; or Ti, Zr, V, Ni, Cr, one or more rare earth elements and one or more elements selected from the group consisting of Mn, Sn, Al, Cu, Mo, W, Fe, Si and Co; or Ti, Zr, V, Ni, Cr, one or more rare earth elements and one or more elements selected from the group consisting of Mn and Al; or Ti, Zr, V, Ni, Cr, Mn, Al, Co and one or more rare earth elements; or Ti, Zr, V, Ni, Cr, Mn, Al, Co and La. 32 . An alloy according to claim 1 , comprising about 0.1 to about 60% Ti, about 0.1 to about 40% Zr, 0<V<60%, about 1% to about 56% Cr, about 5 to about 22% Mn, about 0.1 to about 57% Ni, 0 to about 3% Sn, about 0.1 to about 10% Al, about 0.1 to about 11% Co and about 0.1 to about 10% one or more rare earth elements; or about 5 to about 15% Ti, about 18 to about 29% Zr, about 3.0 to about 13% V, ab