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稳定同位素标准品

稳定同位素标准品
NameDescriptionQtyAnalyte
2H and 18O in water samples
VSMOWVienna Standard Mean Ocean Water20mlδ2H=0‰ δ18O=0 ‰  
SLAP2 Water Standard Light Antarctic Precipitation 220mlδ2H=-427.5‰ δ18O=-55.5‰  
GISP Water Greenland Ice Sheet Precipitation20mlδ2H=-189.5‰ δ18O=-24.76‰  
GBW04498DIC standard 0.35mg/ml NaHCO3 in distilled water2mlδ13C=-27.28‰VPDB
GBW04499DIC standard 0.35mg/ml NaHCO3 in distilled water2mlδ13C=-19.58‰VPDB
GBW04500DIC standard 0.35mg/ml NaHCO3 in distilled water2mlδ13C=-4.58‰VPDB
GBW04458water20mlδ2H=-1.7‰ δ18O=-0.15‰  
GBW04459water20mlδ2H=-63.4‰ δ18O=-8.61‰  
GBW04460water20mlδ2H=-144.0‰ δ18O=-19.13‰  
GBW04461water20mlδ2H=-433.3‰ δ18O=-55.73‰  
GRESP2H and 18O in water samples , Water20mlδ2H=-257.8‰ δ18O=-33.39‰  
IAEA-604Enriched Water5gδ2H=799.9‰ δ18O=-5.86‰ δ17O=-3.2‰
IAEA-605Enriched Water5gδ2H=5997.9‰ δ18O=-3.02‰ δ17O=-2.1‰
IAEA-606Enriched Water5gδ2H=15993.6‰ δ18O=2.43‰ δ17O=-0.1 ‰
IAEA-607Enriched Water5gδ2H=802.4‰ δ18O=99.02‰ δ17O=3.6 ‰
IAEA-608Enriched Water5gδ2H=6014.3‰ δ18O=736.4‰ δ17O=45.7‰
IAEA-609Enriched Water5gδ2H=16036.4‰ δ18O=1963.7‰ δ17O=126.6‰
USGS45 Biscayne Aquifer Drinking Water16×4mlδ2H = -10.3 ‰  δ18O = -2.238 ‰
USGS45Biscayne Aquifer Drinking Water144×4mlδ2H = -10.3 ‰  δ18O = -2.238 ‰
USGS45Biscayne Aquifer Drinking Water per ampoule144×5mlδ2H = -10.3 ‰  δ18O = -2.238 ‰
USGS46Ice Core Water per ampoule16×4mlδ2H = -235.8 ‰  δ18O = -29.80 ‰
USGS46Ice Core Water per ampoule144×4mlδ2H = -235.8 ‰  δ18O = -29.80 ‰
USGS47 Lake Louise Drinking Water per ampoule16×5mlδ2H = -150.2 ‰  δ18O = -19.80 ‰
USGS47Lake Louise Drinking Water per ampoule144×5mlδ2H = -150.2 ‰  δ18O = -19.80 ‰
USGS48 Puerto Rico Precipitation per ampoule16×5mlδ2H = -2.0 ‰  δ18O = -2.224 ‰
USGS48Puerto Rico Precipitation per ampoule144×5mlδ2H = -2.0 ‰  δ18O = -2.224 ‰
USGS49 Antarctic Ice-core Water per ampoule16×5mlδ2H = -394.7 ‰ δ18O = -50.55 ‰
USGS49Antarctic Ice-core Water per ampoule144×5mlδ2H = -394.7 ‰ δ18O = -50.55 ‰
USGS50 Lake Kyoga Water per ampoule16×5mlδ2H = +32.8 ‰ δ18O = +4.95 ‰
USGS50Lake Kyoga Water per ampoule144×5mlδ2H = +32.8 ‰ δ18O = +4.95 ‰
USGS53Lake Shala Distilled Water per ampoule32×5mlδ2H = +40.2 ‰ δ18O = +5.47 ‰
GFLES-1water enriched in 2H5mlδ2H = +80.1 ‰ δ18O = -6.25 ‰ δ17O = -3.3 ‰
GFLES-2water enriched in 2H5mlδ2H = +159.9 ‰ δ18O = -6.21 ‰ δ17O = -3.3 ‰
GFLES-3water enriched in 2H5mlδ2H = +280.2 ‰ δ18O = -6.14 ‰ δ17O = -3.3 ‰
GFLES-4water enriched in 2H5mlδ2H = +399.8 ‰ δ18O = -6.08 ‰ δ17O = -3.3 ‰
CBS Caribou Hoof Standard0.5gδ2H = -197.0 ‰ δ18O = +3.8 ‰
KHS Kudu Horn Standard0.5gδ2H = -54.1 ‰ δ18O = +20.3 ‰
USGS57biotite nbs30 replacement0.5gδ2H = -91 ‰
USGS58muscovite nbs30 replacement0.5gδ2H = -28 ‰
Materials with known 2H, 13C, 15N and 18O isotopic composition
NBS22aOil1mlδ13C=-29.72‰VPDB  δ2H=-120‰VSMOW
USGS78vacuum oil, 2H-enriched1mLδ2H = +397.0 ‰ δ13C =-29.72 ‰
NBS28 Quarz Sand0.4gδ18O=9.6‰VSMOW1  δ30Si=0‰
USGS24Graphite0.8gδ13C=-16.049‰VPDB
USGS40L-glutamic acid 2gδ13C=-26.389‰VPDB  δ15N=-4.5‰air N2
USGS41AL-glutamic acid0.5gδ13C=36.55‰VPDB  δ15N=47.6‰air N2
USGS42Tibetan human hair powder (< 100 mesh)0.5gδ2H = -72.9 ‰  δ18O = +8.56 ‰  δ15N = +8.05 ‰  δ13C = -21.09 ‰  δ34S = +7.84 ‰
USGS43Indian human hair powder (< 60 mesh)0.5gδ2H = -44.4 ‰  δ18O = +14.11 ‰  δ15N = +8.44 ‰  δ13C = -21.28 ‰  δ34S = +10.46 ‰
USGS44Merck high purity CaCO30.5gδ13C =-42.15 ‰
USGS54Canadian lodgepole pine wood powder0.5gδ2H =-150.4 ‰  δ18O = +17.79 ‰  δ13C =-24.43 ‰  δ15N =-2.42 ‰
USGS55Mexican ziricote wood powder0.5gδ2H =-28.2 ‰  δ18O = +19.12 ‰  δ13C =-27.13 ‰  δ15N =-0.3 ‰
USGS56South African red ivorywood powder0.5gδ2H =-44.0 ‰  δ18O = +27.23 ‰  δ13C =-24.34 ‰  δ15N = +1.8 ‰
USGS82honey from tropical Vietnam1 mLδ2H=-43.1‰ δ18O=+19.44‰ δ13C=-24.31‰
USGS83honey from prairie in Canada1 mLδ2H=-110.5‰ δ18O=+18.20‰ δ13C=-26.20‰
USGS84olive oil from Sicily, Italy1 mLδ2H=-140.4‰ δ18O=+26.36‰ δ13C=-28.80‰
USGS85olive oil from coastal desert, Peru1 mLδ2H=-158.6‰ δ18O=+22.00‰ δ13C=-29.74‰
USGS86peanut oil from tropical Vietnam1 mLδ2H=-207.4‰ δ18O=+18.76‰ δ13C=-30.63‰
USGS87corn oil from USA1 mLδ2H=-168.1‰ δ18O=+20.11‰ δ13C=-15.51‰
USGS88marine collagen from wild-caught fish0.5 gδ2H=+20.1‰ δ18O=+15.91‰ δ13C=-16.06‰ δ15N=+14.96‰ δ34S=+17.10‰
USGS89porcine collagen0.5 gδ2H=-43.7‰ δ18O=+8.37‰ δ13C=-18.13‰ δ15N=+6.25‰ δ34S=+3.86‰
USGS90millet flour from Tuscany, Italy0.5 gδ2H=-13.9‰ δ18O=+35.90‰ δ13C=-13.75‰ δ15N=+8.84‰ δ34S=-15.14‰
USGS91rice flour from tropical Vietnam0.5 gδ2H=-45.7‰ δ18O=+21.13‰ δ13C=-28.28‰ δ15N=+1.78‰ δ34S=-20.85‰
IAEA-600Caffeine0.5gδ13C=-27.771‰VPDB  δ15N=1‰air N2
IAEA-601Benzoic Acid1gδ13C=-28.81‰VPDB δ18O=23.3‰VSMOW1
IAEA-602Benzoic Acid1gδ18O=71.4‰VSMOW1
USGS61caffeine0.5gδ2H = +96.9 ‰  δ13C =-35.05 ‰  δ15N =-2.87 ‰ 
USGS62caffeine0.5gδ2H =-156.1 ‰  δ13C =-14.79 ‰  δ15N = +20.17 ‰ 
USGS63caffeine0.5gδ2H = +174.5 ‰  δ13C =-1.17 ‰  δ15N = +37.83 ‰ 
USGS67n-hexadecane50μLδ2H =-166.2 ‰ δ13C =-34.50 ‰ 
USGS68n-hexadecane50μLδ2H =-10.2 ‰ δ13C =-10.55 ‰ 
USGS69n-hexadecane50μLδ2H = +381.4 ‰ δ13C =-0.57 ‰ 
USGS70icosanoic acid methyl ester (C20 FAME)100 mgδ2H = -183.9 ‰ δ13C = -30.53 ‰ 
USGS71icosanoic acid methyl ester (C20 FAME)100 mgδ2H = -4.9 ‰ δ13C = -10.5 ‰ 
USGS72icosanoic acid methyl ester (C20 FAME)100 mgδ2H = +348.3 ‰ δ13C = -1.54 ‰ 
USGS73L-valine0.5 gδ13C = -24.03 ‰ δ15N = -5.21 ‰
USGS74L-valine100 mgδ13C = -9.30 ‰ δ15N = +30.19 ‰
USGS75L-valine100 mgδ13C = +0.49 ‰ δ15N = +61.53 ‰
USGS76methylheptadecanoate50μLδ2H =-210.8 ‰ δ13C =-31.36 ‰
USGS77polyethylene powder1gδ2H =-75.9 ‰ δ13C =-30.71 ‰
USGS80silver phosphate0.5 gδ18O = ~ +13.1 ‰
USGS81silver phosphate0.5 gδ18O = ~ +35.4 ‰
IAEA-CH-3Cellulose0.5gδ13C=-24.724‰VPDB
IAEA-CH-6 Sucrose1gδ13C=-10.449‰VPDB
IAEA-CH-7 Polyethylene3.5gδ13C=-32.151‰VPDB  δ2H=-100.3‰VSMOW
IAEA-30313C Labelled Sodium-Bicarbonate2*3mlδ13C (Amp. A)=93.3‰VPDB1  δ13C (Amp. B)=466‰VPDB
BCR-65696% ethanol25ml(D/H)I=102.84±0.20ppm  (D/H)II=132.07±0.30ppm  13CVPDB=-26.91±0.07‰
BCR-657Sugar1g13CVPDB=-10.76±0.04‰
BCR-660Ethanol in water450ml(D/H)I=102.90±0.16ppm  (D/H)II=131.95±0.23ppm  13CVPDB=-26.72±0.09‰  (D/H)w=148.68±0.14
Materials with known 13C, 18O and 7Li isotopic composition
NBS18 Calcite0.4gδ13C=-5.014‰VPDB  δ18O=-23.2‰VPDB
IAEA-603Calcite NBS19 replacement0.5gδ13C=+2.46‰ δ18O=-2.37‰
LSVECLithium Carbonate0.4g6Li/7Li=0.082156Li/7Li
IAEA-CO-8Calcite0.5gδ13C=-5.764‰VPDB  δ18O=-22.7‰VPDB
GBW04409Quarz Sand10gδ18O=11.11‰VPDB
GBW04410Quarz Sand10gδ18O=-1.75‰VPDB
RM8562CO2 gas2x400µmolδ13C=-3.72‰VPDB  δ18O=-8.43‰VPDB
RM8563CO2 gas2x400µmolδ13C=-41.59‰VPDB  δ18O=-23.61‰VPDB
RM8564CO2 gas2x400µmolδ13C=-10.45‰VPDB  δ18O=0.06‰VPDB
USGS51Nitrous oxide in 6-mm glass tube200μmolδ15N = +1.32 ‰  δ18O = +41.23 ‰
USGS52Nitrous oxide in 6-mm glass tube200μmolδ15N = +0.44 ‰  δ18O = +40.64 ‰
Materials with known 15N/14N isotopic composition
IAEA-N-1Ammonium Sulfate0.4gδ15N=0.4‰air N2
IAEA-N-2 Ammonium Sulfate0.4gδ15N=20.3‰air N2
IAEA-NO-3Potassium Nitrate0.5gδ15N=4.7‰air N2  δ18O=25.6‰VSMOW
USGS32 Potassium Nitrate0.8gδ15N=180‰air N2  δ18O=25.7‰VSMOW
USGS34 Potassium Nitrate0.8gδ15N=-1.8‰air N2  δ18O=-27.9‰VSMOW
USGS35 Sodium Nitrate0.5gδ15N=2.7‰air N2  δ18O=57.5‰VSMOW
USGS25 Ammonium Sulfate0.5gδ15N=-30.4‰air N2
USGS26 Ammonium Sulfate0.5gδ15N=53.7‰air N2
NSVECNitrogen Gas-N27mlδ15N=-2.8‰
IAEA-30515N labelled ammonium sulfate2*0.1gδ15N (Vial A)=39.8‰air N2  δ15N (Vial B)=375.3‰air N2
IAEA-31015N labelled urea2*0.1gδ15N (Vial A)=47.2‰air N2  δ15N (Vial B)=244.6‰air N2
IAEA-311N-labelled ammonium sulfate0.1g15N=2.05Atom%
USGS64glycine0.5gδ13C =-40.81 ‰  δ15N = +1.76 ‰ 
USGS65glycine0.5gδ13C =-20.29 ‰  δ15N = +20.68 ‰ 
USGS66glycine0.5gδ13C =-0.67 ‰  δ15N = +40.83 ‰ 
USGS73L-valine0.5gδ13C =-24.03 ‰ δ15N =-5.21 ‰
USGS74L-valine100mgδ13C =-9.30 ‰ δ15N = +30.19 ‰
USGS75L-valine100mgδ13C = +0.49 ‰ δ15N = +61.53 ‰
Materials with known 34S/32S isotopic composition
IAEA-S-1 Silver Sulfide0.5gδ34S=-0.30#‰VCDT
IAEA-S-2 Silver Sulfide0.5gδ34S=22.7‰VCDT
IAEA-S-3 Silver Sulfide0.5gδ34S=-32.3‰VCDT
IAEA-S-4 Sulfur0.5gδ34S=16.9‰VCDT
IAEA-SO-5Barium Sulfate0.5gδ34S=0.5‰VCDT
IAEA-SO-6Barium Sulfate0.5gδ34S=-34.1‰VCDT
NBS-123 Sphalerite1.5gδ34S=17.09‰VCDT
NBS-127 Barium Sulfate0.5gδ18O=9.3‰VSMOW  δ34S=+20.3#‰VCDT
Materials with known 11B/10B isotopic composition
IAEA-B-1Sea Water50mlδ11B=38.6‰NBS 951
IAEA-B-2Groundwater50mlδ11B=13.8‰NBS 951
IAEA-B-3Groundwater50mlδ11B=-21.4‰NBS 951
IAEA-B-4Tourmaline1gδ11B=-8.7‰NBS 951
IAEA-B-5Basalt30gδ11B=-3.8‰NBS 951
IAEA-B-6Obsidian30gδ11B=-1.8‰NBS 951
IAEA-B-7Limestone30gδ11B=9.7‰SRM 951
IAEA-B-8Clay30gδ11B=-5.1‰NBS 951
ERM-AE102ABoric acid in water with 10B isotope20ml10B/11B=0.4285
ERM-AE103Boric acid in water with 10B isotope30ml10B/11B=0.9895
ERM-AE104ABoric acid in water with 10B isotope20ml10B/11B=0.4596
951aBoric Acid Isotopic Standard10 g10B/11B=0.2473
Materials with known 37Cl/35Cl isotopic composition
975aIsotopic Standard for Chlorine0.25 g35Cl/37Cl=3.1279±0.0047
ISL-354Sodium Chloride2gδ37Cl=-0.39#‰  37Cl/35Cl=0.3196437Cl/35Cl
USGS37potassium perchlorate1gδ37Cl = +0.90 ‰ δ18O = -17.00 ‰ δ17O = -8.96 ‰ 
USGS38potassium perchlorate1gδ37Cl = -87.90 ‰ δ18O = +52.50 ‰ δ17O = +102.40 ‰ 
USGS39potassium perchlorate1gδ37Cl = +0.05 ‰ δ18O = +122.34 ‰ δ17O = +62.61 ‰
WATER IN SILVER TUBE
NBS 22a-0.15 μLoil in silver tube0.15μL×50δ2H =-120.4 ‰  δ13C =-29.72 ‰
NBS 22a-0.25 μLoil in silver tube0.25μL×50δ2H =-120.4 ‰  δ13C =-29.72 ‰
USGS78-0.15 μLoil in silver tube0.15μL×50δ2H = +397.0 ‰  δ13C =-29.72 ‰
USGS78-0.25 μLoil in silver tube0.25μL×50δ2H = +397.0 ‰  δ13C =-29.72 ‰
VSMOW0.15 uL water in silver tube0.15μL×50δ2H = 0 exactly  δ18O = 0 exactly
VSMOW0.25 uL water in silver tube0.25μL×50δ2H = 0 exactly  δ18O = 0 exactly
SLAP20.15 uL water in silver tube0.15μL×50δ2H = -427.5 ‰  δ18O = -55.5 ‰
SLAP20.25 uL water in silver tube0.25μL×50δ2H = -427.5 ‰  δ18O = -55.5 ‰
GISP0.15 uL water in silver tube0.15μL×50δ2H = -190 ‰  δ18O = -24.8 ‰
GISP0.25 uL water in silver tube0.25μL×50δ2H = -190 ‰  δ18O = -24.8 ‰
UC030.15 uL water in silver tube0.15μL×50δ2H = +68.5 ‰  δ18O = +29.79 ‰
UC030.25 uL water in silver tube0.25μL×50δ2H = +68.5 ‰  δ18O = +29.79 ‰
UC040.15 uL water in silver tube0.15μL×50δ2H = +113.6 ‰  δ18O = +38.95 ‰
UC040.25 uL water in silver tube0.25μL×50δ2H = +113.6 ‰  δ18O = +38.95 ‰
USGS460.15 uL Ice Core Water in silver tube0.15μL×50δ2H = -235.8 ‰  δ18O = -29.80 ‰
USGS460.25 uL Ice Core Water in silver tube0.25μL×50δ2H = -235.8 ‰  δ18O = -29.80 ‰
USGS470.15 uL Lake Louise Drinking Water in silver tube0.15μL×50δ2H = -150.2 ‰  δ18O = -19.80 ‰
USGS470.25 uL Lake Louise Drinking Water in silver tube0.25μL×50δ2H = -150.2 ‰  δ18O = -19.80 ‰
USGS480.15 uL Puerto Rico Precipitation in silver tube0.15μL×50δ2H = -2.0 ‰  δ18O = -2.224 ‰
USGS480.25 uL Puerto Rico Precipitation in silver tube0.25μL×50δ2H = -2.0 ‰  δ18O = -2.224 ‰
USGS49-0.15 μLAntarctic Ice-core Water in silver tube0.15μL×50δ2H =-394.7 ‰  δ18O =-50.55 ‰
USGS49-0.25 μLAntarctic Ice-core Water in silver tube0.25μL×50δ2H =-394.7 ‰  δ18O =-50.55 ‰
USGS50-0.15 μLLake Kyoga Water in silver tube0.15μL×50δ2H = +32.8 ‰  δ18O = +4.95 ‰
USGS50-0.25 μLLake Kyoga Water in silver tube0.25μL×50δ2H = +32.8 ‰  δ18O = +4.95 ‰
USGS53-0.15 μLLake Shala Distilled Water in silver tube0.15μL×50δ2H = +40.2 ‰  δ18O = +5.47 ‰
USGS53-0.25 μLLake Shala Distilled Water in silver tube0.25μL×50δ2H = +40.2 ‰  δ18O = +5.47 ‰
W-62001-0.15 uLRSIL DI water in silver tube0.15μL×50δ2H = -41.1 ‰ δ18O = -6.25 ‰
W-62001-0.25 uLRSIL DI water in silver tube0.25μL×50δ2H = -41.1 ‰ δ18O = -6.25 ‰
GFLES-1-0.15 μLwater enriched in 2H in silver tube, batch of 500.15μL×50δ2H = +80.1 ‰ δ18O = —6.25 ‰ δ17O = —3.3 ‰
GFLES-1-0.25 μLwater enriched in 2H in silver tube, batch of 500.25μL×50δ2H = +80.1 ‰  δ18O = —6.25 ‰ δ17O = —3.3 ‰
GFLES-2-0.15 μLwater enriched in 2H in silver tube, batch of 500.15μL×50δ2H = +159.9 ‰  δ18O = —6.21 ‰ δ17O = —3.3 ‰
GFLES-2-0.25 μLwater enriched in 2H in silver tube, batch of 500.25μL×50δ2H = +159.9 ‰  δ18O = —6.21 ‰ δ17O = —3.3 ‰
GFLES-3-0.15 μLwater enriched in 2H in silver tube, batch of 500.15μL×50δ2H = +280.2 ‰  δ18O = —6.14 ‰ δ17O = —3.3 ‰
GFLES-3-0.25 μLwater enriched in 2H in silver tube, batch of 500.25μL×50δ2H = +280.2 ‰  δ18O = —6.14 ‰ δ17O = —3.3 ‰
GFLES-4-0.15 μLwater enriched in 2H in silver tube, batch of 500.15μL×50δ2H = +399.8 ‰  δ18O = —6.08 ‰ δ17O = —3.3 ‰
GFLES-4-0.25 μLwater enriched in 2H in silver tube, batch of 500.25μL×50δ2H = +399.8 ‰  δ18O = —6.08 ‰ δ17O = —3.3 ‰
BARREL-2-0.15 μLwater enriched in 2H in silver tube, batch of 500.15μL×50δ2H = +799.9 ‰  δ18O = —5.86 ‰ δ17O = —3.2 ‰
BARREL-2-0.25 μLwater enriched in 2H in silver tube, batch of 500.25μL×50δ2H = +799.9 ‰  δ18O = —5.86 ‰ δ17O = —3.2 ‰


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