000108251 001__ 108251
000108251 005__ 20241101045353.0
000108251 0247_ $$2doi$$a10.7936/6rxs-108251
000108251 037__ $$aRDM
000108251 041__ $$aeng
000108251 245__ $$aPhase boundaries among three hydrous ferric sulfates and their implications for Mars [dataset]
000108251 260__ $$bWashington University in St. Louis
000108251 269__ $$a2024-10-31
000108251 270__ $$malianw@levee.wustl.edu$$pWang, Alian
000108251 336__ $$aDataset
000108251 518__ $$d2019-01-01/2021-10-31$$oCreated
000108251 520__ $$aThe data includes phase boundary data among three ferric sulfates (kornelite, paracoquimbite, and ferricopiapite) under simulated Martian temperature and humidity conditions. The data includes: the adsorption water saturation curve data for the three ferric sulfates, individual Raman spectral data for each of the three ferric sulfates, typical spectral data for their binary mixtures, mass change data from phase boundary experiments, data of the phase boundary points, and Van 't Hoff curve data derived from the phase boundary data.
000108251 536__ $$oMcDonnell Center for Space Sciences (MCSS) at WUSTL $$c94351A
000108251 536__ $$oChina Scholarship Council$$qhttps://ror.org/04atp4p48$$rROR$$c201806220274
000108251 536__ $$oNational Natural Science Foundation of China$$qhttps://ror.org/01h0zpd94$$rROR$$cU1931211
000108251 536__ $$oNatural Science Foundation of Shandong Province$$cZR2023QD157
000108251 536__ $$oChina Postdoctoral Science Foundation$$qhttps://ror.org/0426zh255$$rROR$$c2022M721916
000108251 540__ $$aCreative Commons Attribution (CC BY) 4.0 International$$uhttps://creativecommons.org/licenses/by/4.0/
000108251 650__ $$aEarth and related environmental sciences
000108251 6531_ $$aFerric sulfates
000108251 6531_ $$aphase boundaries
000108251 6531_ $$athermodynamic properties
000108251 6531_ $$aMars
000108251 6531_ $$aAMD
000108251 655__ $$aTabular
000108251 7001_ $$aWang, Alian $$10000-0002-0726-2869$$uWashington University in St. Louis$$4https://ror.org/01yc7t268$$5ROR
000108251 720__ $$aShi, Erbin$$uWashington University in St. Louis$$1https://orcid.org/0000-0002-8890-9723$$4https://ror.org/01yc7t268$$5ROR$$eDataCollector$$7Personal
000108251 720__ $$aLing, Zongcheng$$uShandong University$$1https://orcid.org/0000-0002-9260-5765$$4https://ror.org/0207yh398$$5ROR$$eDataCollector$$7Personal
000108251 720__ $$aChou, I-Ming$$uInstitute of Deep-Sea Science and Engineering$$1https://orcid.org/0000-0001-5233-6479$$4https://ror.org/050spgz68$$5ROR$$eDataCollector$$7Personal
000108251 8564_ $$uhttps://data.library.wustl.edu/record/108251/files/Data%20published%20in%20three%20ferric%20sulfates%20phase%20boundary%20paper.xlsx$$92fa50c5f-bdb3-46e5-9aa9-37cb63403e94$$s115597$$ePublic$$01$$2151cfb2c1ffe93f82f9901060d8db0a2$$yoriginal tables
000108251 8564_ $$uhttps://data.library.wustl.edu/record/108251/files/figure2_raman_spectral_data.csv$$yformatted data$$9c7954d61-ab6a-42bf-b8cc-d0c8e18ab6f9$$s99500$$ePublic$$01$$2f3f51e6279b767dec50c3e430069efff
000108251 8564_ $$uhttps://data.library.wustl.edu/record/108251/files/figure3_adsorption_curves.csv$$yformatted data$$9ba064873-d94c-47c8-a77c-f4c7f609124d$$s388$$ePublic$$01$$2909da656535fcda7908cd58a889f84a1
000108251 8564_ $$uhttps://data.library.wustl.edu/record/108251/files/figure4_ferric_sulfates_mass_change.csv$$yformatted data$$9ed01816c-7775-4d9f-9627-6b1e122a9b74$$s681$$ePublic$$01$$25e93cd20542ad229620d339166f06afa
000108251 8564_ $$uhttps://data.library.wustl.edu/record/108251/files/figure5_ferric_sulfates_phase_equilibrium.csv$$yformatted data$$952d529da-88f1-45ff-a26c-bd8496b7288c$$s2584$$ePublic$$01$$2d4390fc09bc6f874b97cd22ea26225d8
000108251 8564_ $$uhttps://data.library.wustl.edu/record/108251/files/readme_doi1079366rxs108251_wang.txt$$yREADME$$9596bf2eb-0c71-4575-9c4f-87de647e28fb$$s15357$$ePublic$$02$$213c166ca769fc1080ba9b66c21f2d25e
000108251 909CO $$ooai:data.library.wustl.edu:108251$$pdataset
000108251 974__ $$aRudolph Hall Room 348
000108251 980__ $$aWashU Researcher Data