Method and system for X-ray fluorescence (XRF) analysis of exploration samples

The invention claimed is: 1. A system for a metal analysis of a digestion mixture comprising an exploration sample containing a dissolved metal or a dissolved metalloid not directly detectable by XRF comprising: a collector device comprising an adsorbent material capable of adsorbing the dissolved metal or the dissolved metalloid from the digestion mixture; and an XRF detector arranged to detect the adsorbed metal or the adsorbed metalloid on the collector device, wherein the adsorbent material is configured for an association with an analysis window of the XRF detector to facilitate a determination by the XRF detector of an amount of the dissolved metal or the dissolved metalloid in the exploration sample, and wherein the XRF detector comprises an X-ray source. 2. The system of claim 1 , wherein the XRF detector further comprises a portable X-ray fluorescence (pXRF) detector. 3. The system according to claim 1 , wherein the absorbent material is further capable of concentrating the dissolved metal or the dissolved metalloid from the digestion mixture. 4. A method of analysing an exploration sample containing a metal or a metalloid not directly detectable by XRF comprising the steps of: providing a digestion mixture comprising the exploration sample, a digestion medium, and a digestion composition or a digestion tablet containing an alkali compound and a metal lixiviant in an amount capable of dissolving the metal or the metalloid from the exploration sample in the digestion medium; contacting the digestion mixture with a collector device comprising an adsorbent material capable of adsorbing the dissolved metal or the dissolved metalloid from the digestion mixture, wherein the adsorbent material is configured for an association with an analysis window of an XRF detector to facilitate a determination by the XRF detector of an amount of the metal or the metalloid in the exploration sample; associating the collector device having the adsorbed metal or the adsorbed metalloid thereon with the XRF detector; and measuring a concentration of the adsorbed metal or the adsorbed metalloid on the collector device with the XRF detector, wherein the XRF detector comprises an X-ray source. 5. The method of claim 4 , wherein the contacting step is performed for less than 24 hours. 6. The method according to claim 4 , wherein the absorbent material is further capable of concentrating the dissolved metal or the dissolved metalloid from the digestion mixture. 7. A method of analysing an exploration sample containing gold at a concentration not directly detectable by XRF comprising the steps of: providing a digestion mixture comprising the exploration sample, a digestion medium, and a digestion composition or a digestion tablet containing an alkali compound and a metal lixiviant in an amount capable of dissolving gold from the exploration sample in the digestion medium; contacting the digestion mixture with a collector device comprising an adsorbent material capable of adsorbing gold from the digestion mixture; associating the collector device having the gold adsorbed thereon with an XRF detector, wherein the adsorbent material is configured for an association with an analysis window of the XRF detector to facilitate a determination by the XRF detector of an amount of gold in the exploration sample; and measuring a concentration of the adsorbed gold on the collector device with the XRF detector. 8. The method according to claim 7 , wherein the absorbent material is further capable of concentrating gold from the digestion mixture. 9. A system for preparing an exploration sample containing a metal or a metalloid not directly detectable by XRF for analysis by an XRF detector comprising: a digestion composition or a digestion tablet containing an alkali compound and a metal lixiviant; a vessel for receiving the exploration sample, the digestion composition or the digestion tablet, and a digestion medium, the vessel having a closure for the vessel to allow the vessel to be agitated and thereby produce a digestion mixture comprising a dissolved metal or a dissolved metalloid and the digestion composition or the digestion tablet dissolved in the digestion medium; and a collector device comprising an adsorbent material capable of adsorbing the dissolved metal or the dissolved metalloid from the digestion mixture, wherein the adsorbent material is configured for an association with an analysis window of the XRF detector to facilitate a determination by the XRF detector of an amount of the metal or the metalloid in the exploration sample, wherein the XRF detector comprises an X-ray source. 10. The system according to claim 9 , wherein the absorbent material is further capable of concentrating the dissolved metal or the dissolved metalloid from the digestion mixture. 11. A sample preparation vessel for preparing an exploration sample containing a metal or a metalloid not directly detectable by XRF for an analysis by an XRF detector, wherein the sample preparation vessel comprises: a vessel for receiving the exploration sample, a digestion composition or a digestion tablet, and a digestion medium; a closure for the vessel to allow the vessel to be agitated and thereby produce a digestion mixture comprising a dissolved metal or a dissolved metalloid and the digestion composition or the digestion tablet dissolved in the digestion medium; and a collector device comprising an adsorbent material capable of adsorbing the dissolved metal or the dissolved metalloid from the digestion mixture, wherein the adsorbent material is configured for an association with an analysis window of the XRF detector to facilitate a determination by the XRF detector of an amount of the metal or the metalloid in the exploration sample, wherein the closure and the collector device are coupled in a manner whereby the collector device is retrieved from the vessel by removing the closure therefrom, wherein the XRF detector comprises an X-ray source. 12. The sample preparation vessel of claim 11 , further comprising: an elongate element, wherein the closure and the collector device are coupled by the elongate element. 13. The sample preparation vessel of claim 12 , wherein the elongate element is flexible. 14. The sample preparation vessel of claim 12 , wherein the elongate element is rigid. 15. The sample preparation vessel of claim 12 , further comprising: a permeable housing, wherein the closure is coupled to the permeable housing containing the collector device by the elongate element. 16. The sample preparation vessel according to claim 11 , wherein the absorbent material is further capable of concentrating the dissolved metal or the dissolved metalloid from the digestion mixture. 17. A collector device for determining a metal or a metalloid in an exploration sample not directly detectable by XRF, the collector device comprising: an adsorbent material, wherein the adsorbent material comprises a plate, and wherein the adsorbent material is capable of adsorbing a dissolved metal or a dissolved metalloid from a digestion mixture produced by digesting the exploration sample, wherein the adsorbent material is configured for an association with an analysis window of an XRF detector to facilitate a determination by the XRF detector of an amount of the metal or the metalloid in the exploration sample, and wherein the XRF detector comprises an X-ray source. 18. A collector device for determining a metal or a metalloid in an exploration sample not directly detectable by XRF, the collector device comprising