上海元能生物科技有限公司

产品展示PRODUCT DISPLAY

联系我们CONTACT US

联系人：孙先生
邮箱：yuannsw@aliyun.com
电话：021-59990361

传真：021-59990361

手机：15162680674

手机：15901919684

QQ：1030596099
地址：上海嘉定区安亭镇墨玉路60弄
邮编：201805
Http：//www.yuannsw.com

您当前位置：首页 >> 产品展示

产品展示

IAEA目录

IAEA国际原子能机构（International Atomic Energy Agency -- IAEA）是一个同联合国建立关系，并由世界各国政府在原子能领域进行科学技术合作的机构, 国际原子能机构是世界上最大的矩阵的参考材料，其特征为放射性核素的供应商。某些同位素比值的国际原子能机构的参考材料是国际计量标准的最高计量标准。

Name	Description	Qty	Analyte
2H and 18O in water samples
VSMOW2	RM8535a Vienna Standard Mean Ocean Water 2	20ml	δ18O=0 ‰, δ2H=0 ‰
VSMOW	Vienna Standard Mean Ocean Water	5ml	δ18O=0 ‰, δ2H=0 ‰
SLAP2	RM8537 Water Standard Light Antarctic Precipitation 2	20ml	δ18O=-55.5‰, δ2H=-427.5‰
GISP	RM8536 Water Greenland Ice Sheet Precipitation	20ml	δ18O=-24.76‰, δ2H=-189.5‰
USGS45	Biscayne Aquifer Drinking Water	144×4ml	δ2H = -10.3 ‰, δ18O = -2.238 ‰
USGS45	Biscayne Aquifer Drinking Water per ampoule	144×5ml	δ2H = -10.3 ‰, δ18O = -2.238 ‰
USGS46	Ice Core Water per ampoule	144×4ml	δ2H = -235.8 ‰, δ18O = -29.80 ‰
USGS46	Ice Core Water per ampoule	144×5ml	δ2H = -235.8 ‰, δ18O = -29.80 ‰
USGS47	Lake Louise Drinking Water per ampoule	144×5ml	δ2H = -150.2 ‰, δ18O = -19.80 ‰
USGS48	Puerto Rico Precipitation per ampoule	144×5ml	δ2H = -2.0 ‰, δ18O = -2.224 ‰
USGS49	Antarctic Ice-core Water per ampoule	144×5ml	δ2H = -394.7 ‰,δ18O = -50.55 ‰
USGS50	Lake Kyoga Water per ampoule	144×5ml	δ2H = +32.8 ‰,δ18O = +4.95 ‰
USGS53	Lake Shala Distilled Water per ampoule	32×5ml	δ2H = +40.2 ‰,δ18O = +5.47 ‰
GFLES-1	water enriched in 2H	5ml	δ2H = +80.1 ‰,δ18O = -6.25 ‰,δ17O = -3.3 ‰
GFLES-2	water enriched in 2H	5ml	δ2H = +159.9 ‰,δ18O = -6.21 ‰,δ17O = -3.3 ‰
GFLES-3	water enriched in 2H	5ml	δ2H = +280.2 ‰,δ18O = -6.14 ‰,δ17O = -3.3 ‰
GFLES-4	water enriched in 2H	5ml	δ2H = +399.8 ‰,δ18O = -6.08 ‰,δ17O = -3.3 ‰
Materials with known ²H, ¹³C, ¹⁵N and ¹⁸O isotopic composition
NBS22	RM8539 Oil	1ml	δ13C=-30.031‰VPDB, δ2H=-120‰VSMOW
NBS28	RM8546 Quarz Sand	0.4g	δ18O=9.6‰VSMOW1, δ30Si=0‰
USGS24	Graphite	0.8g	δ13C=-16.049‰VPDB
USGS40	L-glutamic acid	1g	δ13C=-26.389‰VPDB, δ15N=-4.5‰air N2
USGS41	L-glutamic acid	0.5g	δ13C=37.626‰VPDB, δ15N=47.6‰air N2
USGS42	Tibetan human hair powder (< 100 mesh)	0.5 g	δ2H = -78.5 ‰, δ18O = +8.56 ‰, δ15N = +8.05 ‰, δ13C = -21.09 ‰, δ34S = +7.84 ‰
USGS43	Indian human hair powder (< 60 mesh)	0.5 g	δ2H = -50.3 ‰, δ18O = +14.11 ‰, δ15N = +8.44 ‰, δ13C = -21.28 ‰, δ34S = +10.46 ‰
IAEA-600	Caffeine	0.5g	δ13C=-27.771‰VPDB, δ15N=1‰air N2
IAEA-601	Benzoic Acid	1g	δ18O=23.3‰VSMOW1
IAEA-602	Benzoic Acid	1g	δ18O=71.4‰VSMOW1
IAEA-CH-3	Cellulose	0.5g	δ13C=-24.724‰VPDB
IAEA-CH-6	RM8542 Sucrose	1g	δ13C=-10.449‰VPDB
IAEA-CH-7	RM8540 Polyethylene	3.5g	δ13C=-32.151‰VPDB, δ2H=-100.3‰VSMOW
IAEA-303	¹³C Labelled Sodium-Bicarbonate	2*3ml	δ13C (Amp. A)=93.3‰VPDB1, δ13C (Amp. B)=466‰VPDB
BCR-656	96% ethanol	25ml	(D/H)I=102.84±0.20ppm, (D/H)II=132.07±0.30ppm, 13CVPDB=-26.91±0.07‰
BCR-657	Sugar	1g	13CVPDB=-10.76±0.04‰
BCR-660	Ethanol in water	450ml	(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	RM8543 Calcite	0.4g	δ13C=-5.014‰VPDB, δ18O=-23.2‰VPDB
LSVEC	Lithium Carbonate	0.5g	δ13C=-46.6‰, δ18O=-26.7‰VPDB, 6Li/7Li=0.082156Li/7Li
IAEA-CO-8	Calcite	0.5g	δ13C=-5.764‰VPDB, δ18O=-22.7‰VPDB
RM8562	CO₂gas	2x400µmol	δ13C=-3.72‰VPDB, δ18O=-8.43‰VPDB
RM8563	CO₂gas	2x400µmol	δ13C=-41.59‰VPDB, δ18O=-23.61‰VPDB
RM8564	CO₂gas	2x400µmol	δ13C=-10.45‰VPDB, δ18O=0.06‰VPDB
Materials with known ¹⁵N/¹⁴N isotopic composition
IAEA-N-1	RM8547 Ammonium Sulfate	0.4g	δ15N=0.4‰air N2
IAEA-N-2	RM8548 Ammonium Sulfate	0.4g	δ15N=20.3‰air N2
IAEA-NO-3	Potassium Nitrate	0.4g	δ15N=4.7‰air N2, δ18O=25.6‰VSMOW
USGS32	RM8558 Potassium Nitrate	0.9g	δ15N=180‰air N2, δ18O=25.7‰VSMOW
USGS34	RM8568 Potassium Nitrate	0.9g	δ15N=-1.8‰air N2, δ18O=-27.9‰VSMOW
USGS35	RM8569 Sodium Nitrate	0.9g	δ15N=2.7‰air N2, δ18O=57.5‰VSMOW
USGS25	RM8550 Ammonium Sulfate	0.5g	δ15N=-30.4‰air N2
USGS26	RM8551 Ammonium Sulfate	0.5g	δ15N=53.7‰air N2
NSVEC	Nitrogen Gas-N₂	7ml	δ15N=-2.8‰
IAEA-305	¹⁵N labelled ammonium sulfate	2*0.1g	δ15N (Vial A)=39.8‰air N2, δ15N (Vial B)=375.3‰air N2
IAEA-310	¹⁵N labelled urea	2*0.1g	δ15N (Vial A)=47.2‰air N2, δ15N (Vial B)=244.6‰air N2
IAEA-311	N-labelled ammonium sulfate	0.1g	15N=2.05Atom%
Materials with known ³⁴S/³²S isotopic composition
IAEA-S-1	RM8554 Silver Sulfide	0.5g	δ34S=-0.30#‰VCDT
IAEA-S-2	RM8555 Silver Sulfide	0.5g	δ34S=22.7‰VCDT
IAEA-S-3	RM8529 Silver Sulfide	0.5g	δ34S=-32.3‰VCDT
IAEA-S-4	RM8553 Sulfur	0.5g	δ34S=16.9‰VCDT
IAEA-SO-5	Barium Sulfate	0.5g	δ34S=0.5‰VCDT
IAEA-SO-6	Barium Sulfate	0.5g	δ34S=-34.1‰VCDT
NBS-123	RM8556 Sphalerite	1.5g	δ34S=17.09‰VCDT
NBS-127	RM8557 Barium Sulfate	0.5g	δ18O=9.3‰VSMOW, δ34S=+20.3#‰VCDT
Materials with known ¹¹B/¹⁰B isotopic composition
IAEA-B-1	Sea Water	50ml	δ11B=38.6‰NBS 951
IAEA-B-2	Groundwater	50ml	δ11B=13.8‰NBS 951
IAEA-B-3	Groundwater	50ml	δ11B=-21.4‰NBS 951
IAEA-B-4	Tourmaline	1g	δ11B=-8.7‰NBS 951
IAEA-B-5	Basalt	30g	δ11B=-3.8‰NBS 951
IAEA-B-6	Obsidian	30g	δ11B=-1.8‰NBS 951
IAEA-B-7	Limestone	30g	δ11B=9.7‰SRM 951
IAEA-B-8	Clay	30g	δ11B=-5.1‰NBS 951
Materials with known ³⁷Cl/³⁵Cl isotopic composition
ISL-354	Sodium Chloride	2g	δ37Cl=-0.39#‰, 37Cl/35Cl=0.3196437Cl/35Cl
WATER IN SILVER TUBE
NBS 22	0.15 uL oil in silver tube	0.15μL×50	δ2H = -116.9 ‰, δ13C = -30.03 ‰
NBS 22	0.25 uL oil in silver tube	0.25μL×50	δ2H = -116.9 ‰, δ13C = -30.03 ‰
VSMOW	0.15 uL water in silver tube	0.15μL×50	δ²H = 0 exactly, δ¹⁸O = 0 exactly
VSMOW	0.25 uL water in silver tube	0.25μL×50	δ²H = 0 exactly, δ¹⁸O = 0 exactly
SLAP2	0.15 uL water in silver tube	0.15μL×50	δ2H = -427.5 ‰, δ18O = -55.5 ‰
SLAP2	0.25 uL water in silver tube	0.25μL×50	δ2H = -427.5 ‰, δ18O = -55.5 ‰
GISP	0.15 uL water in silver tube	0.15μL×50	δ2H = -190 ‰, δ18O = -24.8 ‰
GISP	0.25 uL water in silver tube	0.25μL×50	δ2H = -190 ‰, δ18O = -24.8 ‰
UC03	0.15 uL water in silver tube	0.15μL×50	δ²H = +68.5 ‰, δ¹⁸O = +29.79 ‰
UC03	0.25 uL water in silver tube	0.25μL×50	δ²H = +68.5 ‰, δ¹⁸O = +29.79 ‰
UC04	0.15 uL water in silver tube	0.15μL×50	δ²H = +113.6 ‰, δ¹⁸O = +38.95 ‰
UC04	0.25 uL water in silver tube	0.25μL×50	δ²H = +113.6 ‰, δ¹⁸O = +38.95 ‰
USGS46	0.15 uL Ice Core Water in silver tube	0.15μL×50	δ2H = -235.8 ‰, δ18O = -29.80 ‰
USGS46	0.25 uL Ice Core Water in silver tube	0.25μL×50	δ2H = -235.8 ‰, δ18O = -29.80 ‰
USGS47	0.15 uL Lake Louise Drinking Water in silver tube	0.15μL×50	δ2H = -150.2 ‰, δ18O = -19.80 ‰
USGS47	0.25 uL Lake Louise Drinking Water in silver tube	0.25μL×50	δ2H = -150.2 ‰, δ18O = -19.80 ‰
USGS48	0.15 uL Puerto Rico Precipitation in silver tube	0.15μL×50	δ2H = -2.0 ‰, δ18O = -2.224 ‰
USGS48	0.25 uL Puerto Rico Precipitation in silver tube	0.25μL×50	δ2H = -2.0 ‰, δ18O = -2.224 ‰
W-62001-0.15 uL	RSIL DI water in silver tube	0.15μL×50	δ2H = -41.1 ‰,δ18O = -6.25 ‰
W-62001-0.25 uL	RSIL DI water in silver tube	0.25μL×50	δ2H = -41.1 ‰,δ18O = -6.25 ‰