ISEI/main/clean-lab/229 for TIMS TARO/F/3/A box/Allende-12 < 20071216135000.en > pub
  • classification: chondrite:carbonaceous
  • physical-form: aliquot
  • quantity (g): 0.51212
  • description: Original weight: unknown; Price: unknown; The specimen was provided by the Smithsonian Institution (Split 1, Position 23, 3529).
  • modified at 2020-05-15
1: Orgueil #1 2: Orgueil #2 3: Murchison #1 4: Murchison #2 5: Allende #1 6: Allende #2


(a) ICPMS with isotope dilution and internal standardization on Q-ICPMS Agilent 7500cs
1: Allende-12


(a) Q-ICP-MS_procedures of Makishima and Nakamura (1997, 1999, 2006) on ICPMS Yokogawa PMS2000
1: trc_cpx1_ac19@11 2: trc_cpx2_ac19@11 3: trc_cpx2_ac19@21 4: trc_cpx3_ac19@11 5: trc_cpx3_ac19@21 6: trc_neph1_ac19@11 7: trc_neph1_ac19@12 8: trc_neph1_ac19@13 9: trc_ol1_ac19@12 10: trc_ol1_ac19@13 11: trc_ol2_ac19@11 12: trc_ol2_ac19@12 13: trc_ol2_ac19@13 14: trc_ol2_ac19@14 15: trc_pl1_ac19@13 16: trc_pl2_ac19@11 17: trc_pl2_ac19@12 18: trc_pl3_ac19@11 19: trc_px1_ac19@11 20: trc_px1_ac19@13 21: trc_px2_ac19@11 22: trc_px2_ac19@12 23: trc_px2_ac19@13 24: trc_px3_ac19@11 25: trc_px3_ac19@12 26: trc_px4_ac19@11 27: trc_sd1_ac19@11 28: trc_sd1_ac19@12 29: trc_sd1_ac19@13 30: trc_sd1_ac19@14


(a) LA-ICP-MS on LA-ICP-MS (iCAP-Qs + Analyte G2 Excimer Laser system)
1: Fo>95_inner BO@chd-2 2: Fo>95_shell of inner BO@chd-2 3: Fo<95_shell of inner BO@chd-2 4: Fo>95_outer BOP@chd-2 5: Fo>95_shell of outer BOP@chd-2 6: Fo<95_shell of outer BOP@chd-2 7: Ol_igneous rim@chd-2 8: LPx_outer BOP@chd-2 9: LPx_igneous rim@chd-2 10: HPx_outer BOP@chd-2 11: Pl_outer BOP@chd-2 12: Fo>95_main@chd-6 13: Fo<95 _main@chd-6 14: Ol_igneous rim@chd-6 15: OlFeO_main@chd-6 16: LPx_igneous rim@chd-6 17: Fo>95_main@chd-4 18: Fo<95_shell@chd-4 19: Fo>95_main@chd-7 20: Fo<95 _main@chd-7 21: LPx_igneous rim@chd-7 22: Fo>95_main@chd-1 23: Fo<95_main@chd-1 24: OlFeO_main@chd-1 25: LPx_main@chd-1 26: HPx_main@chd-1 27: Fo<95_main@chd-3c 28: OlFeO_main@chd-3c 29: Fo>95_main@chd-3s 30: Fo<95 _main@chd-3s 31: Fo<95_core@chd-8 32: Fo>95_mantle@chd-8 33: Fo<95_mantle@chd-8 34: Ol_igneous rim@chd-8 35: LPx_igneous rim@chd-8 36: HPx_igneous rim@chd-8 37: Pl_mantle@chd-8 38: Fo>95_main@chd-3n 39: Fo<95_main@chd-3n


(a) EPMA on EPMA JEOL JXA-8530F
1: Allende #1 2: Allende #2 3: Allende #1-a 4: Allende #1-b 5: Allende #2-a 6: Allende #2-b


(a) TIMS on TIMS Thermo-Fisher MAT261
1: Ivuna 2: Orgueil 3: Cold Bokkeveld (87) 4: Murchison-3 5: Allende-14 6: Mokoia 7: Weston 8: Pantar 9: Richardton 10: Dresden 11: Nulles 12: Bjurbole 13: Saratov 14: Farmington 15: Knyahinya 16: Bruderheim 17: Holbrook (129) 18: Leedey 19: Mocs 20: Modoc 21: Peace River 22: Suizhou 23: Innis Free 24: St. Severin 25: Abee 26: Indarch 27: Hvittis 28: Norton County 29: Juvinas-3 30: Serra De Mage 31: Stannern


(a) B_procedures of Nakamura et al. (1992) on TIMS Thermo-Fisher MAT261
1: trc_cpx_ac19@4 2: trc_cpx_ac19@5 3: trc_cpx_ac19@6 4: trc_cpx_ac19@7 5: trc_ol_ac19@14 6: trc_ol_ac19@22 7: trc_ol_ac19@23 8: trc_ol_ac19@31 9: trc_ol_ac19@33 10: trc_ol_ac19@42 11: trc_ol_ac19@43 12: trc_pl_ac19@4 13: trc_pl_ac19@5 14: trc_pl_ac19@6 15: trc_px_ac19@11 16: trc_px_ac19@12 17: trc_px_ac19@21 18: trc_px_ac19@23 19: trc_px_ac19@31 20: trc_px_ac19@32 21: trc_px_ac19@41 22: trc_px_ac19@43


(a) SIMS on SIMS Cameca ims-5f
1: ALL01-a2-1-K5_Ol (core) 2: ALL01-a2-1-K5_Ol (rim) 3: ALL01-a2-1-K5_Sp 4: ALL01-a2-1-K5_Meso (feldspathic) 5: ALL01-a2-1-K5_Meso (cpx-like) 6: ALL01-a2-1-K5_Meso (Na-rich) 7: ALL01-a2-1-K9_Ol (core) 8: ALL01-a2-1-K9_Ol (rim) 9: ALL01-a2-1-K9_Meso (feldspatic) 10: ALL01-a2-1-K9_Meso (cpx-like) 11: ALL01-a2-1-K9_Meso (Na-rich) 12: ALL01-a2-1-B12_Ol (core) 13: ALL01-a2-1-B12_Ol (rim) 14: ALL01-a2-1-B12_Meso (cpx-like) 15: ALL01-a2-1-B12_Meso (Na-rich) 16: ALL01-a2-1-L12_Ol (core) 17: ALL01-a2-1-L12_Ol (rim) 18: ALL01-a2-1-L12_Meso (feldspathic) 19: ALL01-a2-1-L12_Meso (cpx-like) 20: ALL01-a2-1-L12_Meso (Na-rich) 21: ALL01-a2-1-G17_Ol (core) 22: ALL01-a2-1-G17_Ol (rim) 23: ALL01-a2-1-G17_low-Ca Px 24: ALL01-a2-1-G17_Meso (Na-rich) 25: ALL01-a2-1-B9_Ol (core) 26: ALL01-a2-1-B9_Ol (rim) 27: ALL01-a2-1-B9_low-Ca Px 28: ALL01-a2-1-B9_Meso (feldspathic) 29: ALL01-a2-1-B9_Meso (cpx-like) 30: ALL01-a2-1-B9_Meso (Na-rich)


(a) EPMA on EPMA JEOL JXA-8800R
(b) SEM-EDX on SEM-EDX 3100H with HORIBA EMAX
1: Fo>95_inner BO@chd-2 2: Fo>95_shell of inner BO@chd-2 3: Fo<95_shell of inner BO@chd-2 4: Fo>95_outer BOP@chd-2 5: Fo>95_shell of outer BOP@chd-2 6: Fo<95_shell of outer BOP@chd-2 7: Ol_igneous rim@chd-2 8: LPx_outer BOP@chd-2 9: LPx_igneous rim@chd-2 10: HPx_outer BOP@chd-2 11: Pl_outer BOP@chd-2 12: Fo>95_main@chd-6 13: Fo<95 _main@chd-6 14: Ol_igneous rim@chd-6 15: OlFeO_main@chd-6 16: LPx_igneous rim@chd-6 17: Fo>95_main@chd-4 18: Fo<95_shell@chd-4 19: Fo>95_main@chd-7 20: Fo<95 _main@chd-7 21: LPx_igneous rim@chd-7 22: Fo>95_main@chd-1 23: Fo<95_main@chd-1 24: OlFeO_main@chd-1 25: LPx_main@chd-1 26: HPx_main@chd-1 27: Fo<95_main@chd-3c 28: OlFeO_main@chd-3c 29: Fo>95_main@chd-3s 30: Fo<95 _main@chd-3s 31: Fo<95_core@chd-8 32: Fo>95_mantle@chd-8 33: Fo<95_mantle@chd-8 34: Ol_igneous rim@chd-8 35: LPx_igneous rim@chd-8 36: HPx_igneous rim@chd-8 37: Pl_mantle@chd-8 38: Fo>95_main@chd-3n 39: Fo<95_main@chd-3n


(a) EPMA on EPMA JEOL JXA-8530F
(b) SIMS on SIMS Cameca ims-1270
1: JB-2 2: JB-3 powder 3: JA-2 4: JA-3 powder 5: JP-1 6: BCR-2 7: BHVO-1 8: AGV-1 9: Murchison 10: Allende-12 11: Dar al Gani 521 12: Dar al Gani 194


(a) HR-ICPMS on ICPMS Thermo-Fisher Neptune
1: JB-1b 2: JP-1 3: Allende-13 4: Allende-12


(a) TIMS on TIMS Thermo-Fisher MAT262
1: Allende-12


(a) TIMS on TIMS Thermo-Fisher Triton
1: Allende-12 2: Allende-1 3: Allende-2 4: Murchison


(a) Li isotopes_procedures of Moriguti and Nakamura (1998) on TIMS Thermo-Fisher MAT261
1: Fo>95@group1 2: Fo<95@group1 3: Ol_igneous rim@group1 4: LPx@group1 5: LPx_igneous rim@group1 6: HPx@group1 7: Pl@group1 8: OlFeO@group1 9: Fo>95@group2 10: Fo<95@group2 11: LPx@group2 12: LPx_igneous rim@group2 13: HPx@group2 14: OlFeO@group2 15: Fo>95@group3 16: Fo<95@group3 17: Ol_igneous rim@group3 18: LPx_igneous rim@group3 19: HPx_igneous rim@group3 20: Pl@group3


(a) SIMS on SIMS Cameca ims-1270
1: PCC-1 2: BCR-1 3: AGV-1 4: JB-1b 5: JB-2 6: JB-3 powder 7: JA-1 8: JA-2 9: JA-3 powder 10: Allende-12


(a) B_procedures of Makishima et al. (1997) on ICPMS Yokogawa PMS2000
1: PCC-1 2: JP-1 3: BCR-1 4: BHVO-1 5: JB-1b 6: JB-2 7: JB-3 powder 8: JA-1 9: JA-2 10: JA-3 powder 11: Allende (T)


(a) HR-ICPMS on HR-ICPMS Finningan, Element
1: JB-1b 2: JP-1 3: Allende (T)


(a) HR-ICPMS on ICPMS Thermo-Fisher Neptune
1: ALL01-a2-1-K5@1 2: ALL01-a2-1-K5@2 3: ALL01-a2-1-K5@3 4: ALL01-a2-1-K5@4 5: ALL01-a2-1-K5@5 6: ALL01-a2-1-K9@1 7: ALL01-a2-1-K9@2 8: ALL01-a2-1-K9@3 9: ALL01-a2-1-B12@1 10: ALL01-a2-1-B12@2 11: ALL01-a2-1-B12@3 12: ALL01-a2-1-B12@4 13: ALL01-a2-1-B12@5 14: ALL01-a2-1-B12@6 15: ALL01-a2-1-B12@7 16: ALL01-a2-1-L12@1 17: ALL01-a2-1-L12@2 18: ALL01-a2-1-L12@3 19: ALL01-a2-1-G17@1 20: ALL01-a2-1-G17@2 21: ALL01-a2-1-G17@3 22: ALL01-a2-1-G17@4 23: ALL01-a2-1-G17@5 24: ALL01-a2-1-B9@1 25: ALL01-a2-1-B9@2 26: ALL01-a2-1-B9@3 27: ALL01-a2-1-B9@4 28: ALL01-a2-1-B9@5 29: ALL01-a2-1-B9@6 30: ALL01-a2-1-B9@7


(a) EPMA on EPMA JEOL JXA-8800R
(b) SIMS on SIMS Cameca ims-5f
(c) SIMS on SIMS Cameca ims-1270
1: BHVO-1 2: AGV-1 3: PCC-1 4: JB-1b 5: JB-2 6: JB-3 powder 7: JA-1 8: JA-2 9: JA-3 powder 10: JP-1 11: Orgueil 12: Murchison 13: Allende (T)


(a) MC-ICPMS on ICPMS Thermo-Fisher Neptune
1: Allende-12 2: Allende-1 3: Allende-2 4: Murchison


(a) Li isotopes_procedures of Moriguti and Nakamura (1998) on ICPMS Yokogawa PMS2000
1: Orgueil_Cd-Mo-Ga_#1 2: Orgueil_Cd-Mo-Ga_#2 3: Murchison_Cd-Mo-Ga_#1 4: Murchison_Cd-Mo-Ga_#2 5: Allende_Cd-Mo-Ga_#1 6: Allende_Cd-Mo-Ga_#2


(a) Q-ICP-MS_procedures of Makishima and Nakamura (1997, 1999, 2006) on Q-ICPMS Agilent 7500cs
1: Allende-12 2: Allende-1 3: Allende-2 4: Murchison


(a) Li isotopes_procedures of Moriguti and Nakamura (1998) on TIMS Thermo-Fisher MAT261
1: JB2-1 2: JB2-2 3: Allende-1 4: Allende-2 5: Allende-3


(a) B_procedures of Nakamura et al. (1992) on TIMS Thermo-Fisher MAT261
1: Orgueil 2: Murchison 3: Allende (T)


(a) MC-ICPMS on ICPMS Thermo-Fisher Neptune
1: Allende-1 2: Allende-2 3: JB2-1 4: JB2-2


(a) Pb isotopes_procedures of Kuritani and Nakamura (2002, 2003) on TIMS Thermo-Fisher MAT261
1: Allende-1 2: Allende-2 3: JB2-1 4: JB2-2


(a) Li isotopes_procedures of Moriguti and Nakamura (1998) on TIMS Thermo-Fisher MAT261
1: Murchison 2: DaG 194 3: DaG 521 4: Allende (T)


(a) ICPMS with isotope dilution and internal standardization on Q-ICPMS Agilent 7500cs
1: Allende-12


(a) Q-ICP-MS_procedures of Makishima and Nakamura (1997, 1999, 2006) on ICPMS Yokogawa PMS2000
1: Ivuna 2: Orgueil #1 3: Orgueil #2 4: Orgueil #3 5: Orgueil #4 6: Cold Bokkeveld (87) 7: Allende #1 8: Allende #2


(a) ICPMS with isotope dilution and internal standardization on Q-ICPMS Agilent 7500cs
1: Allende-12


(a) HR-ICPMS on HR-ICPMS Finningan, Element
1: Allende-1 2: Allende-2 3: JB2-1 4: JB2-2


(a) Sr isotopes_procedures of Yoshikawa and Nakamura (1993) on TIMS Thermo-Fisher MAT261
(b) Nd isotopes_procedures of Nakamura et al. (1991, 2003) on TIMS Thermo-Fisher MAT261
1: Allende-12


(a) Q-ICP-MS_procedures of Makishima and Nakamura (1997, 1999, 2006) on ICPMS Yokogawa PMS2000
1: Allende-12


(a) PGE_procedures of Makishima et al. (2001) on TIMS Thermo-Fisher MAT262
1: fragment OK-10VMc-ai 2: fragment OK-10VMc-aj 3: fragment OK-10VMc-ak 4: fragment OK-10VMc-al 5: fragment OK-10VMc-am 6: fragment OK-10VMc-an 7: fragment OK-10VMc-ao 8: fragment OK-10VMc-ae 9: fragment OK-10VMc-af 10: fragment OK-10VMc-ag 11: fragment OK-10VMc-ah 12: powder OK-10VMc-y 13: powder OK-10VMc-z 14: fragment OK-4mb-a 15: fragment OK-6-mb-a 16: fragment CBK-6e-a 17: CBK1bk-a 18: CBK1bk-b 19: powder CBK-1bd-r 20: Olivenza-f 21: Olivenza-g 22: Knyahinya 23: Allende (H analysis)_1 24: Allende (H analysis)_4 25: Allende (H analysis)_2 26: Allende (H analysis)_3


(a) IRMS with TCEA on SIRA Thermo-Fisher MAT253
1: powder OK10VMd-a 2: powder OK-10VMc-e 3: powder OK-10VMc-aa 4: powder OK-10VMc-c 5: powder OK10VMd-b 6: powder OK-10VMc-f 7: powder OK-10VMc-ab 8: powder OK-10VMc-d 9: powder OK-10VMc-g 10: powder OK-10VMc-h 11: average OK-10VM 12: OK-4 13: powder OK-6mf-a 14: powder OK-6mf-b 15: OK-6 average 16: CBK6b-f 17: powder CBK-6b-h 18: powder CBK-6b-i 19: powder CBK-6b-j 20: CBK-6 average 21: powder CBK-1be-a 22: powder CBK-1bd-b 23: powder CBK-1bd-s 24: powder CBK-1bd-q 25: powder CBK-1be-b 26: powder CBK-1bd-c 27: powder CBK-1bd-d 28: CBK-1 average 29: Allende-13 30: Allende-12 31: Allende (2007) 32: Oivenza (Table 21- major) 33: Olivenza (Table 21-S) 34: Olivenza (Table 21-S)_1 35: Olivenza (Table 21-major) average


(a) XRF and LOI on XRF PANalytical PW2400
(b) Flame emission spectrometry on Shimadzu AA6200
(c) HR-ICPMS on ICPMS Thermo-Fisher Element XR
(d) HR-ICPMS on ICPMS Thermo-Fisher Neptune
(e) EA-IRMS on Thermo Scientific MAT253
(f) IRMS with TCEA on SIRA Thermo-Fisher MAT253
(g) Ion chromatography on 761 COMPACT IC
1: 1-2a-a 2: 1-2a-b 3: fragment OK-4mb-a 4: OK4a-a 5: OK4a-b 6: fragment OK-6-mb-a 7: OK6a-a 8: OK6a-b 9: OK7a-a 10: OK7a-b 11: OK9a-a 12: OK9a-b 13: OK10a-a 14: OK10a-b 15: fragment OK-10VMc-ai 16: powder OK-10VMc-l 17: powder OK-10VMc-m 18: powder OK-10VMc-aa 19: powder OK-10VMc-ab 20: OK10VMc-ac 21: OK10VMc-ad 22: OK10VMf-a 23: OK10VMf-b 24: pyroxene-OK10VMc-a 25: spinel-OK10VMc-a 26: OK11a-a 27: OK11a-b 28: CBK1bk-a 29: powder CBK-1bd-e 30: powder CBK-1bd-f 31: powder CBK-1bd-s 32: CBK1c-a 33: CBK1c-b 34: CBK1c-c 35: fragment CBK-6e-a 36: CBK6b-k 37: CBK6b-l 38: CBK6eb-a 39: CBK6eb-b 40: CBK15ba-a 41: CBK15ba-b 42: CBK39ba-a 43: CBK39ba-b 44: CBK200ba-a 45: CBK200ba-b 46: The Olivenza LL5 asteroid 47: Knyahinya 48: Allende (2007)


(a) IRMS with TCEA on SIRA Thermo-Fisher MAT253
(b) MC-ICPMS on ICPMS Thermo-Fisher Neptune
(c) EA-IRMS on Thermo Scientific MAT253
(d) IRMS with LF on Thermo Scientific MAT253
name
physical-form
quantity
Quantity of Allende-12 is
(was 0.51212 g) and loss was 0.0 g after operation .
place quantity
2019-11-12 10:00 2021-08-08 23:52
description:
2016-02-18 20:27 2019-11-12 10:00
description:

A box 1 minute

2016-02-18 20:27 2016-02-18 20:27
description:
2015-11-05 14:00 2016-02-18 20:27
description:
name device global-id
Allende_B pub 1 ICPMS Yokogawa PMS2000 20191007144654-469588
Allende average pub 9 XRF PANalytical PW2400 20190205122616-321995
Allende average pub 2 Shimadzu AA6200 20190205122856-619565
Allende_Smithsonian pub 22 ICPMS Yokogawa PMS2000 20191008091438-103352
Allende_W-Sb-Mo pub 3 ICPMS Yokogawa PMS2000 20191008113359-711249
Allende_Re-Os pub 4 TIMS Thermo-Fisher MAT262 20191011102909-774067
Allende-12_Li pub 1 ICPMS Yokogawa PMS2000 20191015113423-683939
Allende_Cr-Ni-Cu-Zn pub 4 HR-ICPMS Finningan, Element 20191009100320-196967
Allende_Zr-Nb-Hf-Ta pub 4 ICPMS Yokogawa PMS2000 20191008105613-887464
Allende_S (Max, 2012) pub 1 ICPMS Thermo-Fisher Neptune 20191223154313-304810
Allende-12_Cr-Fe-Ni-Cu-Zn pub 5 TIMS Thermo-Fisher MAT262 20200130113406-116770
Allende-12_eCr pub 2 TIMS Thermo-Fisher Triton 20200130115748-829002
SM-Allende_d7Li pub 2 TIMS Thermo-Fisher MAT261 20200210101024-869245
name global-id
Yamakawa et al. (2009) Chemical Separation and Mass Spectrometry of Cr, Fe, Ni, Zn, and Cu in Terrestrial and Extraterrestrial Materials Using Thermal Ionization Mass Spectrometry, Analytical Chemistry, 81, 9787–9794, doi:10.1021/ac901762a. 20100403102859589.admin
Eizo Nakamura et al. (2003) Comprehensive geochemical analyses of small amounts (< 100 mg) of extraterrestrial samples for the analytical competition related to the sample return mission MUSES-C, The Institute of Space and Astronautical Science Report SP, 16, 49-101. 20110602093007-717-706
Makishima et al. (2002) Determination of Chromium, Nickel, Copper and Zinc in Milligram Samples of Geological Materials Using Isotope Dilution High Resolution Inductively Coupled Plasma-Mass Spectrometry, Geostandards Newsletter, 26, 41-51, doi:10.1111/j.1751-908X.2002.tb00622.x. 20191009093919-635097
Makishima, Akio & Nakamura, Eizo (2012) High-resolution MC-ICPMS employing amplifers with a 10 12 ohm resistor for bulk sulfur determination in biological and geological samples, Journal of Analytical Atomic Spectrometry, 27, 891-895, doi:10.1039/c2ja10337k. 20191223144532-884161
Takuya Moriguti et al. (2004) Determination of Lithium Contents in silicates by Isotope Dilution ICP-MS and Its Evaluation by Isotope Dilution Thermal Ionisation Mass Spectrometry, Geostandars and geoanalytical research, 28, 371-382, doi:10.1111/j.1751-908X.2004.tb00756.x. 20191015111023-845326
Akio Makishima & Eizo Nakamura (1999) Determination of molybdenum, antimony and tungsten at sub microgram per gram levels in geological materials by ID-FI-ICP-MS, Geostandards Newsletter, 23, 137-148, doi:10.1111/j.1751-908X.1999.tb00569.x. 20191008113809-636908
Akio Makishima & Eizo Nakamura (1997) Suppression of matrix effects in ICP-MS by high power operationof ICP: Application to precise determination of Rb, Sr, Y, Cs, Ba, REE, Pb, Th and U at ng g(-1) levels in milligram silicate samples, Geostandards Newsletter, 21, 307-319, doi:10.1111/j.1751-908X.1997.tb00678.x. 20191007145555-553597
Akio Makishima et al. (1999) Determination of Zirconium, Niobium, Hafnium and Tantalum at ng g‐1 Levels in Geological Materials by Direct Nebulisation of Sample HF Solution into FI‐ICP‐MS, Geostandards Newsletter, 23, 7-20, doi:10.1111/j.1751-908X.1999.tb00555.x. 20191008101034-927445
Akio Makishima et al. (1997) Determination of boron in silicate samples by direct aspiration of sample HF solutions into ICPMS, Analytical Chemistry, 69, 3754-3759, doi:10.1021/ac970383s. 20191007135405-842418
name spots global-id
20071212 13 thumb 20071212-13.jpg pub 0 20081215211806665.ntomioka