Water-based radiation detector

What is claimed is: 1. A radiation detector comprising: a housing configured to contain a volume of water, said housing comprising an interior surface adjacent a first portion of said water having a first net charge, wherein said interior surface comprises one of (i) a hydrophilic surface such that the first net charge comprises a negative charge, and (ii) a hydrophobic surface such that the first net charge comprises a positive charge; a first electrode coupled to said housing within said first portion of said water; a second electrode coupled to said housing within a second portion of said water adjacent said first portion of said water; and a current detector connected in series between said first electrode and said second electrode, said current detector configured to detect a current associated with an ionized radiation product that enters said housing. 2. The radiation detector of claim 1 , wherein said interior surface comprises said hydrophilic surface, and wherein said second portion of said water has a second net charge comprising a positive charge, such that an electric field is generated between said first portion of said water and said second portion of said water. 3. The radiation detector of claim 2 , wherein the ionized radiation product that enters said housing is moved by the generated electric field, said current detector configured to detect the current of the ionized radiation product within said housing. 4. The radiation detector of claim 1 , wherein said housing comprises a hydrophilic polymeric material that at least partially defines said hydrophilic surface. 5. The radiation detector of claim 1 , wherein said interior surface comprises said hydrophobic surface, and wherein said second portion of said water has a second net charge comprising a negative charge, such that an electric field is generated between said first portion of said water and said section portion of said water. 6. The radiation detector of claim 1 , wherein said housing comprises a hydrophobic polymeric material that at least partially defines said hydrophobic surface. 7. The radiation detector of claim 1 further comprising a first wire electrically coupling said first electrode to said current detector. 8. The radiation detector of claim 7 further comprising a second wire electrically coupling said second electrode to said current detector. 9. The radiation detector of claim 1 , wherein said water comprises water doped with an ionic compound. 10. A method for constructing a radiation detector, said method comprising: dispensing a volume of water into a housing configured to contain the water, wherein the housing includes an interior surface adjacent a first portion of the water, wherein said interior surface comprises one of (i) a hydrophilic surface such that the first net charge comprises a negative charge, and (ii) a hydrophobic surface such that the first net charge comprises a positive charge; positioning a first electrode within the first portion of the water; positioning a second electrode within a second portion of the water adjacent the first portion of the water; and connecting a current detector in series between the first electrode and the second electrode, wherein the current detector is configured to detect a current associated with an ionized radiation product that enters the housing. 11. The method of claim 10 , wherein the interior surface includes the hydrophilic surface, and wherein the second portion of the water has a second net charge including a positive charge, said dispensing causing an electric field to be generated between the first portion of the water and the second portion of the water. 12. The method of claim 10 , wherein the interior surface includes the hydrophobic surface, and wherein the second portion of the water has a second net charge including a negative charge, said dispensing causing an electric field to be generated between the first portion of the water and the second portion of the water. 13. The method of claim 10 , wherein positioning a first electrode within the first portion of the water comprises extending a first wire through the housing, the first wire connecting the first electrode to the current detector. 14. The method of claim 13 , wherein positioning a second electrode within the second portion of the water comprises extending a second wire through the housing, the second wire connecting the second electrode to the current detector. 15. The method of claim 10 further comprising doping the water with an ionic compound. 16. A radiation detector comprising: a housing configured to contain a volume of water, said housing comprising an interior surface adjacent a first portion of said water having a first net charge, wherein said interior surface comprises one of (i) a hydrophilic surface such that the first net charge comprises a negative charge, and (ii) a hydrophobic surface such that the first net charge comprises a positive charge; and a circuit formed through said first portion of water and a second portion of water adjacent said first portion of water, said second portion of water having a second net charge with a polarity opposite the first net charge, said circuit comprising a current detector configured to detect a flow of charge from one of said first and second portions of water to the other of said first and second portions of water, the flow of charge associated with an ionized radiation product that enters said housing. 17. The radiation detector of claim 16 , wherein said current detector comprises an ammeter. 18. A radiation detector comprising: a plurality of detector elements arranged in an array, each detector element of said plurality of detector elements comprising: a housing configured to contain a volume of water, said housing comprising an interior surface adjacent a first portion of said water having a first net charge, wherein said interior surface comprises one of (i) a hydrophilic surface such that the first net charge comprises a negative charge, and (ii) a hydrophobic surface such that the first net charge comprises a positive charge; a first electrode coupled to said housing within said first portion of said water; a second electrode coupled to said housing within a second portion of said water adjacent said first portion of said water; and a current detector connected in series between said first electrode and said second electrode, said current detector configured to detect a current associated with an ionized radiation product that enters said housing.