diff --git a/1-enrich-with-datacite/all_datacite_clients_for_uga.csv b/1-enrich-with-datacite/all_datacite_clients_for_uga.csv
index 831c67ead6b1d45dea85af9080755a77f278235b..73fa0d8cc9a60e44449a63abda9a6e435181e338 100644
--- a/1-enrich-with-datacite/all_datacite_clients_for_uga.csv
+++ b/1-enrich-with-datacite/all_datacite_clients_for_uga.csv
@@ -1,7 +1,7 @@
 client,count,name,year,url
-cern.zenodo,828,Zenodo,2013,https://zenodo.org/
-inist.sshade,501,Solid Spectroscopy Hosting Architecture of Databases and Expertise,2019,https://www.sshade.eu/
-figshare.ars,368,figshare Academic Research System,2016,http://figshare.com/
+cern.zenodo,830,Zenodo,2013,https://zenodo.org/
+inist.sshade,505,Solid Spectroscopy Hosting Architecture of Databases and Expertise,2019,https://www.sshade.eu/
+figshare.ars,373,figshare Academic Research System,2016,http://figshare.com/
 inist.osug,238,Observatoire des Sciences de l'Univers de Grenoble,2014,http://doi.osug.fr
 dryad.dryad,167,DRYAD,2018,https://datadryad.org
 inist.resif,93,Réseau sismologique et géodésique français,2014,https://www.resif.fr/
diff --git a/1-enrich-with-datacite/nb-dois.txt b/1-enrich-with-datacite/nb-dois.txt
index c223971b0a6ef5ac0b7f09b2f2e31d9119813ec0..d85c25f9d2b24a38090ef9c7c67f75f37029d9fd 100644
--- a/1-enrich-with-datacite/nb-dois.txt
+++ b/1-enrich-with-datacite/nb-dois.txt
@@ -1 +1 @@
-2536
\ No newline at end of file
+2547
\ No newline at end of file
diff --git a/2-produce-graph/hist-evol-datasets-per-repo.png b/2-produce-graph/hist-evol-datasets-per-repo.png
index 9a9f306dd3c8cefec5a16fcc13d78aa8ae9cd32a..af4b354774a81ddcd209bab9ae65e343a100ca87 100644
Binary files a/2-produce-graph/hist-evol-datasets-per-repo.png and b/2-produce-graph/hist-evol-datasets-per-repo.png differ
diff --git a/2-produce-graph/hist-last-datasets-by-client.png b/2-produce-graph/hist-last-datasets-by-client.png
index 926c8307c164f0ec2fd35cd01117ff898439229d..75b39491696fdd9a770e085947514bd8cf91272f 100644
Binary files a/2-produce-graph/hist-last-datasets-by-client.png and b/2-produce-graph/hist-last-datasets-by-client.png differ
diff --git a/2-produce-graph/hist-quantity-year-type.png b/2-produce-graph/hist-quantity-year-type.png
index 6a39432305b80827de685fe4d0b0266de0b9f6a2..96f202bd57ba830a34e0e17b37d8ceb87d873602 100644
Binary files a/2-produce-graph/hist-quantity-year-type.png and b/2-produce-graph/hist-quantity-year-type.png differ
diff --git a/2-produce-graph/pie--datacite-client.png b/2-produce-graph/pie--datacite-client.png
index 8f5f27c96e4486ee43d85bcf04b95615c27fc4da..b4769dcca235b9641316a8ecda301579f6bd9c22 100644
Binary files a/2-produce-graph/pie--datacite-client.png and b/2-produce-graph/pie--datacite-client.png differ
diff --git a/2-produce-graph/pie--datacite-type.png b/2-produce-graph/pie--datacite-type.png
index dc4d2be6080f248aa3c7576a82f3f092e3c495ad..bc9f896c1a738243efd88d2ae7de883835f60e60 100644
Binary files a/2-produce-graph/pie--datacite-type.png and b/2-produce-graph/pie--datacite-type.png differ
diff --git a/dois-uga--last-500.csv b/dois-uga--last-500.csv
index ce7992fc1094b455e8ee7c53e862195ac15c1fd9..c6de1f30f42e0ca9943c7e599358fd964739fd8d 100644
--- a/dois-uga--last-500.csv
+++ b/dois-uga--last-500.csv
@@ -1,4 +1,14 @@
 doi,client,resourceTypeGeneral,created,publisher,rights,sizes
+10.6084/m9.figshare.c.7602799,figshare.ars,Collection,2024-12-29,figshare,Creative Commons Attribution 4.0 International,
+10.6084/m9.figshare.28104922,figshare.ars,Text,2024-12-29,figshare,Creative Commons Attribution 4.0 International,['4584520 Bytes']
+10.6084/m9.figshare.28104919,figshare.ars,Dataset,2024-12-29,figshare,Creative Commons Attribution 4.0 International,['9431088 Bytes']
+10.6084/m9.figshare.28104916,figshare.ars,Dataset,2024-12-29,figshare,Creative Commons Attribution 4.0 International,['5091 Bytes']
+10.6084/m9.figshare.28104913,figshare.ars,Dataset,2024-12-29,figshare,Creative Commons Attribution 4.0 International,['15827 Bytes']
+10.5281/zenodo.14562024,cern.zenodo,Model,2024-12-27,Zenodo,Creative Commons Attribution 4.0 International,
+10.26302/sshade/bandlist_raman_kalicinite,inist.sshade,Dataset,2024-12-27,SSHADE/BANDLIST (OSUG Data Center),"Any use of downloaded SSHADE data in a scientific or technical paper or a presentation is free but you should cite both SSHADE and the used data in the text ( 'first author' et al., year) with its full reference (with its DOI) in the main reference section of the paper (or in a special 'data citation' section) and, when available, the original paper(s) presenting the data.",
+10.26302/sshade/bandlist_raman_nahcolite,inist.sshade,Dataset,2024-12-27,SSHADE/BANDLIST (OSUG Data Center),"Any use of downloaded SSHADE data in a scientific or technical paper or a presentation is free but you should cite both SSHADE and the used data in the text ( 'first author' et al., year) with its full reference (with its DOI) in the main reference section of the paper (or in a special 'data citation' section) and, when available, the original paper(s) presenting the data.",
+10.26302/sshade/bandlist_raman_coalingite,inist.sshade,Dataset,2024-12-26,SSHADE/BANDLIST (OSUG Data Center),"Any use of downloaded SSHADE data in a scientific or technical paper or a presentation is free but you should cite both SSHADE and the used data in the text ( 'first author' et al., year) with its full reference (with its DOI) in the main reference section of the paper (or in a special 'data citation' section) and, when available, the original paper(s) presenting the data.",
+10.26302/sshade/bandlist_raman_brugnatellite,inist.sshade,Dataset,2024-12-26,SSHADE/BANDLIST (OSUG Data Center),"Any use of downloaded SSHADE data in a scientific or technical paper or a presentation is free but you should cite both SSHADE and the used data in the text ( 'first author' et al., year) with its full reference (with its DOI) in the main reference section of the paper (or in a special 'data citation' section) and, when available, the original paper(s) presenting the data.",
 10.26302/sshade/experiment_jb_20090211_001,inist.sshade,Dataset,2024-12-20,SSHADE/FAME (OSUG Data Center),"Any use of downloaded SSHADE data in a scientific or technical paper or a presentation is free but you should cite both SSHADE and the used data in the text ( 'first author' et al., year) with its full reference (with its DOI) in the main reference section of the paper (or in a special 'data citation' section) and, when available, the original paper(s) presenting the data.",['6 spectra']
 10.26302/sshade/experiment_pg_20100623_001,inist.sshade,Dataset,2024-12-20,SSHADE/FAME (OSUG Data Center),"Any use of downloaded SSHADE data in a scientific or technical paper or a presentation is free but you should cite both SSHADE and the used data in the text ( 'first author' et al., year) with its full reference (with its DOI) in the main reference section of the paper (or in a special 'data citation' section) and, when available, the original paper(s) presenting the data.",['4 spectra']
 10.5281/zenodo.14527715,cern.zenodo,Text,2024-12-19,Zenodo,Creative Commons Attribution 4.0 International,
@@ -25,8 +35,8 @@ doi,client,resourceTypeGeneral,created,publisher,rights,sizes
 10.5061/dryad.280gb5mvx,dryad.dryad,Dataset,2024-12-09,Dryad,Creative Commons Zero v1.0 Universal,['12624044 bytes']
 10.5281/zenodo.14280087,cern.zenodo,Dataset,2024-12-08,Zenodo,Creative Commons Attribution 4.0 International,
 10.5281/zenodo.14291987,cern.zenodo,Software,2024-12-07,Zenodo,MIT License,
-10.6084/m9.figshare.c.7569397,figshare.ars,Collection,2024-12-04,figshare,Creative Commons Attribution 4.0 International,
 10.6084/m9.figshare.27958021,figshare.ars,Text,2024-12-04,figshare,Creative Commons Attribution 4.0 International,['149756 Bytes']
+10.6084/m9.figshare.c.7569397,figshare.ars,Collection,2024-12-04,figshare,Creative Commons Attribution 4.0 International,
 10.6084/m9.figshare.27958018,figshare.ars,Text,2024-12-04,figshare,Creative Commons Attribution 4.0 International,['369386 Bytes']
 10.6084/m9.figshare.c.7569352,figshare.ars,Collection,2024-12-04,figshare,Creative Commons Attribution 4.0 International,
 10.6084/m9.figshare.27957940,figshare.ars,Text,2024-12-04,figshare,Creative Commons Attribution 4.0 International,['18680 Bytes']
@@ -141,8 +151,8 @@ doi,client,resourceTypeGeneral,created,publisher,rights,sizes
 10.6084/m9.figshare.27012151,figshare.ars,Text,2024-09-13,figshare,Creative Commons Attribution 4.0 International,['450818 Bytes']
 10.6084/m9.figshare.c.7447186,figshare.ars,Collection,2024-09-13,figshare,Creative Commons Attribution 4.0 International,
 10.5281/zenodo.13748961,cern.zenodo,Text,2024-09-11,Zenodo,"Creative Commons Attribution 4.0 International,Creative Commons Attribution Share Alike 4.0 International",
-10.6084/m9.figshare.c.6585842,figshare.ars,Collection,2024-09-11,figshare,Creative Commons Attribution 4.0 International,
 10.6084/m9.figshare.26985715,figshare.ars,Text,2024-09-11,figshare,Creative Commons Attribution 4.0 International,['25284 Bytes']
+10.6084/m9.figshare.c.6585842,figshare.ars,Collection,2024-09-11,figshare,Creative Commons Attribution 4.0 International,
 10.5281/zenodo.13745070,cern.zenodo,Dataset,2024-09-11,Zenodo,Creative Commons Attribution 4.0 International,
 10.26302/sshade/experiment_zed_20240701_01,inist.sshade,Dataset,2024-09-11,SSHADE/DAYSY (OSUG Data Center),"Any use of downloaded SSHADE data in a scientific or technical paper or a presentation is free but you should cite both SSHADE and the used data in the text ( 'first author' et al., year) with its full reference (with its DOI) in the main reference section of the paper (or in a special 'data citation' section) and, when available, the original paper(s) presenting the data.",['14 spectra']
 10.5281/zenodo.11108225,cern.zenodo,Dataset,2024-09-08,Zenodo,Creative Commons Attribution 4.0 International,
@@ -185,8 +195,8 @@ doi,client,resourceTypeGeneral,created,publisher,rights,sizes
 10.57760/sciencedb.11705,cnic.sciencedb,Dataset,2024-08-15,Science Data Bank,Creative Commons Attribution Non Commercial Share Alike 4.0 International,"['99398887984 bytes', '14 files']"
 10.6084/m9.figshare.26722614,figshare.ars,Text,2024-08-15,figshare,Creative Commons Attribution 4.0 International,['12341 Bytes']
 10.6084/m9.figshare.25854698,figshare.ars,Image,2024-08-15,figshare,Creative Commons Attribution 4.0 International,['464136 Bytes']
-10.6084/m9.figshare.26713777,figshare.ars,Dataset,2024-08-15,figshare,Creative Commons Attribution 4.0 International,['553168 Bytes']
 10.6084/m9.figshare.c.7204785,figshare.ars,Collection,2024-08-15,figshare,Creative Commons Attribution 4.0 International,
+10.6084/m9.figshare.26713777,figshare.ars,Dataset,2024-08-15,figshare,Creative Commons Attribution 4.0 International,['553168 Bytes']
 10.6084/m9.figshare.25711209,figshare.ars,Text,2024-08-15,figshare,Creative Commons Attribution 4.0 International,['33449 Bytes']
 10.6084/m9.figshare.c.7116481,figshare.ars,Collection,2024-08-15,figshare,Creative Commons Attribution 4.0 International,
 10.6084/m9.figshare.26691925,figshare.ars,Text,2024-08-15,figshare,Creative Commons Attribution 4.0 International,['2061125 Bytes']
@@ -245,8 +255,8 @@ doi,client,resourceTypeGeneral,created,publisher,rights,sizes
 10.6084/m9.figshare.26635410,figshare.ars,Text,2024-08-14,figshare,Creative Commons Attribution 4.0 International,['39961 Bytes']
 10.6084/m9.figshare.c.6905671,figshare.ars,Collection,2024-08-14,figshare,Creative Commons Attribution 4.0 International,
 10.6084/m9.figshare.26633925,figshare.ars,Text,2024-08-14,figshare,Creative Commons Attribution 4.0 International,['557382 Bytes']
-10.6084/m9.figshare.c.6889784,figshare.ars,Collection,2024-08-14,figshare,Creative Commons Attribution 4.0 International,
 10.6084/m9.figshare.26629135,figshare.ars,Text,2024-08-14,figshare,Creative Commons Attribution 4.0 International,['792543 Bytes']
+10.6084/m9.figshare.c.6889784,figshare.ars,Collection,2024-08-14,figshare,Creative Commons Attribution 4.0 International,
 10.6084/m9.figshare.c.6880688,figshare.ars,Collection,2024-08-14,figshare,Creative Commons Attribution 4.0 International,
 10.6084/m9.figshare.26626966,figshare.ars,Text,2024-08-14,figshare,Creative Commons Attribution 4.0 International,['4519412 Bytes']
 10.6084/m9.figshare.c.6683920,figshare.ars,Collection,2024-08-13,figshare,Creative Commons Attribution 4.0 International,
@@ -432,6 +442,7 @@ doi,client,resourceTypeGeneral,created,publisher,rights,sizes
 10.26302/sshade/experiment_zed_20230103_01,inist.sshade,Dataset,2024-04-10,SSHADE/DAYSY (OSUG Data Center),"Any use of downloaded SSHADE data in a scientific or technical paper or a presentation is free but you should cite both SSHADE and the used data in the text ( 'first author' et al., year) with its full reference (with its DOI) in the main reference section of the paper (or in a special 'data citation' section) and, when available, the original paper(s) presenting the data.",['9 spectra']
 10.5281/zenodo.10949879,cern.zenodo,Software,2024-04-10,Inria,Apache License 2.0,
 10.5281/zenodo.10949807,cern.zenodo,Dataset,2024-04-09,Inria,Creative Commons Attribution 4.0 International,
+10.5281/zenodo.10926005,cern.zenodo,Dataset,2024-04-04,Zenodo,Creative Commons Attribution 4.0 International,
 10.5281/zenodo.10912814,cern.zenodo,Dataset,2024-04-03,Zenodo,Creative Commons Attribution 4.0 International,
 10.57745/aqno8d,rdg.prod,Dataset,2024-04-03,Recherche Data Gouv,,
 10.5905/ethz-1007-760,ethz.da-rd,Software,2024-04-03,"ETH Zurich; GIPSA-lab, Univ. Grenoble Alpes, CNRS, Grenoble INP, LAAS-CNRS, Czech Technical University",,
@@ -488,14 +499,3 @@ doi,client,resourceTypeGeneral,created,publisher,rights,sizes
 10.60527/ds89-6j10,fmsh.prod,Audiovisual,2024-03-06,"Univ. Grenoble Alpes, GRESEC",Droit commun de la propriété intellectuelle,
 10.60527/fpa9-1718,fmsh.prod,Other,2024-03-06,"Univ. Grenoble Alpes, GRESEC",,
 10.60527/zxn9-6b90,fmsh.prod,Audiovisual,2024-03-06,"Univ. Grenoble Alpes, GRESEC",Droit commun de la propriété intellectuelle,
-10.5281/zenodo.10788911,cern.zenodo,Dataset,2024-03-06,Zenodo,Creative Commons Attribution 4.0 International,
-10.6084/m9.figshare.25341247,figshare.ars,Dataset,2024-03-05,figshare,Creative Commons Attribution 4.0 International,['29389796 Bytes']
-10.6084/m9.figshare.c.7105606,figshare.ars,Collection,2024-03-05,figshare,Creative Commons Attribution 4.0 International,
-10.6084/m9.figshare.25329673,figshare.ars,Text,2024-03-02,figshare,Creative Commons Attribution 4.0 International,['15066 Bytes']
-10.6084/m9.figshare.c.7097182,figshare.ars,Collection,2024-02-29,figshare,Creative Commons Attribution 4.0 International,
-10.6084/m9.figshare.25309966,figshare.ars,Text,2024-02-29,figshare,Creative Commons Attribution 4.0 International,['584702 Bytes']
-10.5281/zenodo.10717623,cern.zenodo,ComputationalNotebook,2024-02-28,Zenodo,Creative Commons Attribution 4.0 International,
-10.5061/dryad.wdbrv15wb,dryad.dryad,Dataset,2024-02-27,Dryad,Creative Commons Zero v1.0 Universal,['587063304 bytes']
-10.5281/zenodo.10718491,cern.zenodo,Image,2024-02-27,Zenodo,Creative Commons Attribution 4.0 International,
-10.5281/zenodo.10715584,cern.zenodo,Software,2024-02-27,Zenodo,Creative Commons Attribution 4.0 International,
-10.6084/m9.figshare.25284801,figshare.ars,Text,2024-02-25,figshare,Creative Commons Attribution 4.0 International,['58940 Bytes']
diff --git a/dois-uga.csv b/dois-uga.csv
index ed2e114acedf304f1476b3f83c8b8c51793c2d5c..73a00d2ad209dfea733d65e730a2999226627fa3 100644
--- a/dois-uga.csv
+++ b/dois-uga.csv
@@ -12130,3 +12130,14 @@ And the data is also available on the GLACIOCLIM website: https://glacioclim.osu
 L'enregistrement au format .mp4 de la soutenance est également disponible.
 
 La soutenance a donné lieu à l'obtention du titre de Docteur de l'Université Grenoble Alpes, spécailité MCA – Mouvement et Comportement pour la santé et l'Autonomie.",api,True,findable,0,0,5,0,1,2024-12-19T15:03:08.000Z,2024-12-19T15:03:09.000Z,cern.zenodo,cern,,,,,,,"['Cites', 'Cites', 'Cites', 'Cites', 'Cites', 'HasVersion']",
+10.26302/sshade/bandlist_raman_kalicinite,Raman bandlist of Kalicinite,SSHADE/BANDLIST (OSUG Data Center),2024,en,Dataset,"Any use of downloaded SSHADE data in a scientific or technical paper or a presentation is free but you should cite both SSHADE and the used data in the text ( 'first author' et al., year) with its full reference (with its DOI) in the main reference section of the paper (or in a special 'data citation' section) and, when available, the original paper(s) presenting the data.",FIR-MIR Raman bandlist of natural Kalicinite at 295K,mds,True,findable,0,0,2,0,0,2024-12-27T12:04:56.000Z,2024-12-27T12:04:57.000Z,inist.sshade,mgeg,"Kalicinite,Potassium(1+) cation,Bicarbonate anion,Potassium cation,24203-36-9,K+,(HCO3)-,KHCO3,Kalicinite,non-silicate mineral,carbonate,carbonates, nitrates, borates,acid carbonates,-Kalicinite- group,13.01.02.01,05.AA.20,Raman scattering,MIR,FIR,band frequency,band width,band intensity,transition and vibration modes","[{'subject': 'Kalicinite', 'subjectScheme': 'name'}, {'subject': 'Potassium(1+) cation', 'subjectScheme': 'name'}, {'subject': 'Bicarbonate anion', 'subjectScheme': 'name'}, {'subject': 'Potassium cation', 'subjectScheme': 'IUPAC name'}, {'subject': '24203-36-9', 'subjectScheme': 'CAS number'}, {'subject': 'K+', 'subjectScheme': 'formula'}, {'subject': '(HCO3)-', 'subjectScheme': 'formula'}, {'subject': 'KHCO3', 'subjectScheme': 'formula'}, {'subject': 'Kalicinite', 'subjectScheme': 'IMA name'}, {'subject': 'non-silicate mineral', 'subjectScheme': 'mineral class'}, {'subject': 'carbonate', 'subjectScheme': 'compound type'}, {'subject': 'carbonates, nitrates, borates', 'subjectScheme': 'Dana class'}, {'subject': 'acid carbonates', 'subjectScheme': 'Dana class'}, {'subject': '-Kalicinite- group', 'subjectScheme': 'Dana group'}, {'subject': '13.01.02.01', 'subjectScheme': 'Dana code'}, {'subject': '05.AA.20', 'subjectScheme': 'Strunz code'}, {'subject': 'Raman scattering', 'subjectScheme': 'variables'}, {'subject': 'MIR', 'subjectScheme': 'variables'}, {'subject': 'FIR', 'subjectScheme': 'variables'}, {'subject': 'band frequency', 'subjectScheme': 'variables'}, {'subject': 'band width', 'subjectScheme': 'variables'}, {'subject': 'band intensity', 'subjectScheme': 'variables'}, {'subject': 'transition and vibration modes', 'subjectScheme': 'variables'}]",,['ASCII'],,,"['IsPartOf', 'IsPartOf', 'IsDerivedFrom', 'Cites', 'IsSourceOf', 'Cites', 'IsSourceOf', 'Cites', 'IsDerivedFrom', 'Cites', 'IsSourceOf', 'Cites', 'IsSourceOf', 'Cites']",
+10.6084/m9.figshare.c.7602799,Aseismic deformation within fold-and-thrust belts: example from the Tsengwen River section of southwest Taiwan,figshare,2024,,Collection,Creative Commons Attribution 4.0 International,"Abstract We report a rarely observed case of steady aseismic deformation in the context of a fold-and-thrust belt, with a well-documented structural and lithological background. We focus on a 12-km-long section across the foothills of southwestern Taiwan, where about 23 mm/yr of westward compression is observed. From west to east, the surface geological structures include an anticline, a thrust and a backthrust. We determine Holocene uplift rates based on fluvial terraces, invert the interseismic 3D velocity field using existing geodetic datasets, and build a geological cross-section to constrain the possible deep geometry for the structure responsible for the observed surface deformation. Geodetic vertical velocities and Holocene uplift rates show a similar pattern, with rates rapidly increasing eastward, then remaining relatively constant across the fold axis and thrust, and finally sharply decreasing across the backthrust, across which InSAR (Interferometric Synthetic Aperture Radar) observations suggest a velocity discontinuity. Our observations show that active deformation is occurring mainly aseismically and involves the anticline and backthrust. Our cross-section illustrates a 4–5 km deep wedge with a passive roof thrust corresponding to the backthrust, on the hanging wall of which the anticline is located. A classical fault-bend fold model with a slip rate of 21 ± 2 mm/yr can explain most of the observations, yet local misfit suggests a possible contribution to uplift from pure shear of clayey rocks in the anticline core. Based on published records from a deep well drilled across the fold core and backthrust, clay-rich lithology and elevated fluid content are likely to favor aseismic slip.",mds,True,findable,0,0,0,0,0,2024-12-29T04:21:38.000Z,2024-12-29T04:21:38.000Z,figshare.ars,otjm,"Geology,FOS: Earth and related environmental sciences","[{'subject': 'Geology'}, {'subject': 'FOS: Earth and related environmental sciences', 'schemeUri': 'http://www.oecd.org/science/inno/38235147.pdf', 'subjectScheme': 'Fields of Science and Technology (FOS)'}]",,,,,,
+10.26302/sshade/bandlist_raman_coalingite,Raman bandlist of Coalingite,SSHADE/BANDLIST (OSUG Data Center),2024,en,Dataset,"Any use of downloaded SSHADE data in a scientific or technical paper or a presentation is free but you should cite both SSHADE and the used data in the text ( 'first author' et al., year) with its full reference (with its DOI) in the main reference section of the paper (or in a special 'data citation' section) and, when available, the original paper(s) presenting the data.",MIR-FIR Raman bandlist of natural Coalingite at 295K,mds,True,findable,0,0,1,0,0,2024-12-26T21:32:36.000Z,2024-12-26T21:32:37.000Z,inist.sshade,mgeg,"Coalingite,Magnesium(II) cation,Iron(III) cation,Carbonate anion,Hydroxide anion,Water,Magnesium(2+) cation,Iron(3+) cation,Water, Oxidane,22537-22-0,20074-52-6,7732-18-5,Mg2+,Fe3+,(CO3)2-,(OH)-,H2O,Mg10Fe3+2(CO3)(OH)24•2(H2O),Coalingite,non-silicate mineral,carbonate,carbonates, nitrates, borates,carbonates - hydroxyl or halogen,-Coalingite- group,16b.07.06.01,05.DA.55,Raman scattering,MIR,FIR,band frequency,band width,band intensity,transition and vibration modes","[{'subject': 'Coalingite', 'subjectScheme': 'name'}, {'subject': 'Magnesium(II) cation', 'subjectScheme': 'name'}, {'subject': 'Iron(III) cation', 'subjectScheme': 'name'}, {'subject': 'Carbonate anion', 'subjectScheme': 'name'}, {'subject': 'Hydroxide anion', 'subjectScheme': 'name'}, {'subject': 'Water', 'subjectScheme': 'name'}, {'subject': 'Magnesium(2+) cation', 'subjectScheme': 'IUPAC name'}, {'subject': 'Iron(3+) cation', 'subjectScheme': 'IUPAC name'}, {'subject': 'Water, Oxidane', 'subjectScheme': 'IUPAC name'}, {'subject': '22537-22-0', 'subjectScheme': 'CAS number'}, {'subject': '20074-52-6', 'subjectScheme': 'CAS number'}, {'subject': '7732-18-5', 'subjectScheme': 'CAS number'}, {'subject': 'Mg2+', 'subjectScheme': 'formula'}, {'subject': 'Fe3+', 'subjectScheme': 'formula'}, {'subject': '(CO3)2-', 'subjectScheme': 'formula'}, {'subject': '(OH)-', 'subjectScheme': 'formula'}, {'subject': 'H2O', 'subjectScheme': 'formula'}, {'subject': 'Mg10Fe3+2(CO3)(OH)24•2(H2O)', 'subjectScheme': 'formula'}, {'subject': 'Coalingite', 'subjectScheme': 'IMA name'}, {'subject': 'non-silicate mineral', 'subjectScheme': 'mineral class'}, {'subject': 'carbonate', 'subjectScheme': 'compound type'}, {'subject': 'carbonates, nitrates, borates', 'subjectScheme': 'Dana class'}, {'subject': 'carbonates - hydroxyl or halogen', 'subjectScheme': 'Dana class'}, {'subject': '-Coalingite- group', 'subjectScheme': 'Dana group'}, {'subject': '16b.07.06.01', 'subjectScheme': 'Dana code'}, {'subject': '05.DA.55', 'subjectScheme': 'Strunz code'}, {'subject': 'Raman scattering', 'subjectScheme': 'variables'}, {'subject': 'MIR', 'subjectScheme': 'variables'}, {'subject': 'FIR', 'subjectScheme': 'variables'}, {'subject': 'band frequency', 'subjectScheme': 'variables'}, {'subject': 'band width', 'subjectScheme': 'variables'}, {'subject': 'band intensity', 'subjectScheme': 'variables'}, {'subject': 'transition and vibration modes', 'subjectScheme': 'variables'}]",,['ASCII'],,,"['IsPartOf', 'IsPartOf', 'IsDerivedFrom', 'Cites', 'IsSourceOf', 'Cites', 'IsSourceOf', 'Cites']",
+10.26302/sshade/bandlist_raman_brugnatellite,Raman bandlist of Brugnatellite,SSHADE/BANDLIST (OSUG Data Center),2024,en,Dataset,"Any use of downloaded SSHADE data in a scientific or technical paper or a presentation is free but you should cite both SSHADE and the used data in the text ( 'first author' et al., year) with its full reference (with its DOI) in the main reference section of the paper (or in a special 'data citation' section) and, when available, the original paper(s) presenting the data.",MIR-FIR Raman bandlist of natural Brugnatellite at 295K,mds,True,findable,0,0,1,0,0,2024-12-26T20:23:13.000Z,2024-12-26T20:23:14.000Z,inist.sshade,mgeg,"Brugnatellite,Magnesium(II) cation,Iron(III) cation,Carbonate anion,Hydroxide anion,Water,Magnesium(2+) cation,Iron(3+) cation,Water, Oxidane,22537-22-0,20074-52-6,7732-18-5,Mg2+,Fe3+,(CO3)2-,(OH)-,H2O,Mg6Fe3+(CO3)(OH)13•4(H2O),Brugnatellite,non-silicate mineral,carbonate,carbonates, nitrates, borates,carbonates - hydroxyl or halogen,-Brugnatellite- group,16b.07.05.01,05.DA.45,Raman scattering,MIR,FIR,band frequency,band width,band intensity,transition and vibration modes","[{'subject': 'Brugnatellite', 'subjectScheme': 'name'}, {'subject': 'Magnesium(II) cation', 'subjectScheme': 'name'}, {'subject': 'Iron(III) cation', 'subjectScheme': 'name'}, {'subject': 'Carbonate anion', 'subjectScheme': 'name'}, {'subject': 'Hydroxide anion', 'subjectScheme': 'name'}, {'subject': 'Water', 'subjectScheme': 'name'}, {'subject': 'Magnesium(2+) cation', 'subjectScheme': 'IUPAC name'}, {'subject': 'Iron(3+) cation', 'subjectScheme': 'IUPAC name'}, {'subject': 'Water, Oxidane', 'subjectScheme': 'IUPAC name'}, {'subject': '22537-22-0', 'subjectScheme': 'CAS number'}, {'subject': '20074-52-6', 'subjectScheme': 'CAS number'}, {'subject': '7732-18-5', 'subjectScheme': 'CAS number'}, {'subject': 'Mg2+', 'subjectScheme': 'formula'}, {'subject': 'Fe3+', 'subjectScheme': 'formula'}, {'subject': '(CO3)2-', 'subjectScheme': 'formula'}, {'subject': '(OH)-', 'subjectScheme': 'formula'}, {'subject': 'H2O', 'subjectScheme': 'formula'}, {'subject': 'Mg6Fe3+(CO3)(OH)13•4(H2O)', 'subjectScheme': 'formula'}, {'subject': 'Brugnatellite', 'subjectScheme': 'IMA name'}, {'subject': 'non-silicate mineral', 'subjectScheme': 'mineral class'}, {'subject': 'carbonate', 'subjectScheme': 'compound type'}, {'subject': 'carbonates, nitrates, borates', 'subjectScheme': 'Dana class'}, {'subject': 'carbonates - hydroxyl or halogen', 'subjectScheme': 'Dana class'}, {'subject': '-Brugnatellite- group', 'subjectScheme': 'Dana group'}, {'subject': '16b.07.05.01', 'subjectScheme': 'Dana code'}, {'subject': '05.DA.45', 'subjectScheme': 'Strunz code'}, {'subject': 'Raman scattering', 'subjectScheme': 'variables'}, {'subject': 'MIR', 'subjectScheme': 'variables'}, {'subject': 'FIR', 'subjectScheme': 'variables'}, {'subject': 'band frequency', 'subjectScheme': 'variables'}, {'subject': 'band width', 'subjectScheme': 'variables'}, {'subject': 'band intensity', 'subjectScheme': 'variables'}, {'subject': 'transition and vibration modes', 'subjectScheme': 'variables'}]",,['ASCII'],,,"['IsPartOf', 'IsPartOf', 'IsDerivedFrom', 'Cites', 'IsSourceOf', 'Cites', 'IsSourceOf', 'Cites']",
+10.6084/m9.figshare.28104916,Additional file 2 of Aseismic deformation within fold-and-thrust belts: example from the Tsengwen River section of southwest Taiwan,figshare,2024,,Dataset,Creative Commons Attribution 4.0 International,Additional file 2.,mds,True,findable,0,0,0,1,0,2024-12-29T04:21:32.000Z,2024-12-29T04:21:32.000Z,figshare.ars,otjm,"Geology,FOS: Earth and related environmental sciences","[{'subject': 'Geology'}, {'subject': 'FOS: Earth and related environmental sciences', 'schemeUri': 'http://www.oecd.org/science/inno/38235147.pdf', 'subjectScheme': 'Fields of Science and Technology (FOS)'}]",['5091 Bytes'],,,,['IsSupplementTo'],
+10.6084/m9.figshare.28104922,Additional file 4 of Aseismic deformation within fold-and-thrust belts: example from the Tsengwen River section of southwest Taiwan,figshare,2024,,Text,Creative Commons Attribution 4.0 International,Additional file 4.,mds,True,findable,0,0,0,1,0,2024-12-29T04:21:35.000Z,2024-12-29T04:21:35.000Z,figshare.ars,otjm,"Geology,FOS: Earth and related environmental sciences","[{'subject': 'Geology'}, {'subject': 'FOS: Earth and related environmental sciences', 'schemeUri': 'http://www.oecd.org/science/inno/38235147.pdf', 'subjectScheme': 'Fields of Science and Technology (FOS)'}]",['4584520 Bytes'],,,,['IsSupplementTo'],
+10.6084/m9.figshare.28104913,Additional file 1 of Aseismic deformation within fold-and-thrust belts: example from the Tsengwen River section of southwest Taiwan,figshare,2024,,Dataset,Creative Commons Attribution 4.0 International,Additional file 1.,mds,True,findable,0,0,0,1,0,2024-12-29T04:21:31.000Z,2024-12-29T04:21:31.000Z,figshare.ars,otjm,"Geology,FOS: Earth and related environmental sciences","[{'subject': 'Geology'}, {'subject': 'FOS: Earth and related environmental sciences', 'schemeUri': 'http://www.oecd.org/science/inno/38235147.pdf', 'subjectScheme': 'Fields of Science and Technology (FOS)'}]",['15827 Bytes'],,,,['IsSupplementTo'],
+10.26302/sshade/bandlist_raman_nahcolite,Raman bandlist of Nahcolite,SSHADE/BANDLIST (OSUG Data Center),2024,en,Dataset,"Any use of downloaded SSHADE data in a scientific or technical paper or a presentation is free but you should cite both SSHADE and the used data in the text ( 'first author' et al., year) with its full reference (with its DOI) in the main reference section of the paper (or in a special 'data citation' section) and, when available, the original paper(s) presenting the data.",FIR-MIR Raman bandlist of natural Nahcolite at 295K,mds,True,findable,0,0,1,0,0,2024-12-27T12:04:36.000Z,2024-12-27T12:04:37.000Z,inist.sshade,mgeg,"Nahcolite,Sodium cation,Bicarbonate anion,Sodium(1+) cation,17341-25-2,Na+,(HCO3)-,NaHCO3,Nahcolite,non-silicate mineral,carbonate,carbonates, nitrates, borates,acid carbonates,-Nahcolite- group,13.01.01.01,05.AA.15,Raman scattering,MIR,FIR,band frequency,band width,band intensity,transition and vibration modes","[{'subject': 'Nahcolite', 'subjectScheme': 'name'}, {'subject': 'Sodium cation', 'subjectScheme': 'name'}, {'subject': 'Bicarbonate anion', 'subjectScheme': 'name'}, {'subject': 'Sodium(1+) cation', 'subjectScheme': 'IUPAC name'}, {'subject': '17341-25-2', 'subjectScheme': 'CAS number'}, {'subject': 'Na+', 'subjectScheme': 'formula'}, {'subject': '(HCO3)-', 'subjectScheme': 'formula'}, {'subject': 'NaHCO3', 'subjectScheme': 'formula'}, {'subject': 'Nahcolite', 'subjectScheme': 'IMA name'}, {'subject': 'non-silicate mineral', 'subjectScheme': 'mineral class'}, {'subject': 'carbonate', 'subjectScheme': 'compound type'}, {'subject': 'carbonates, nitrates, borates', 'subjectScheme': 'Dana class'}, {'subject': 'acid carbonates', 'subjectScheme': 'Dana class'}, {'subject': '-Nahcolite- group', 'subjectScheme': 'Dana group'}, {'subject': '13.01.01.01', 'subjectScheme': 'Dana code'}, {'subject': '05.AA.15', 'subjectScheme': 'Strunz code'}, {'subject': 'Raman scattering', 'subjectScheme': 'variables'}, {'subject': 'MIR', 'subjectScheme': 'variables'}, {'subject': 'FIR', 'subjectScheme': 'variables'}, {'subject': 'band frequency', 'subjectScheme': 'variables'}, {'subject': 'band width', 'subjectScheme': 'variables'}, {'subject': 'band intensity', 'subjectScheme': 'variables'}, {'subject': 'transition and vibration modes', 'subjectScheme': 'variables'}]",,['ASCII'],,,"['IsPartOf', 'IsPartOf', 'IsDerivedFrom', 'Cites', 'IsSourceOf', 'Cites', 'IsSourceOf', 'Cites']",
+10.5281/zenodo.10926005,Julia constitutive model integration replication files,Zenodo,2024,en,Dataset,Creative Commons Attribution 4.0 International,"These files allow the user to check that their local version of Julia and the codes provided in the repository at https://github.com/nickcollins-craft/julia_constitutive_model_integration have successfully performed the integration and bifurcation analysis of a Cosserat Breakage Mechanics model. Each file is labelled with the integrator (h² or hyperplastic), the load condition (constant volume or constant confining stress) and whether it is an integration result (containing the mechanical information such as stresses and strains) or a localisation result (the wavelength corresponding to the largest value of the Lyapunov exponent, and a Boolean vector stating whether localisation has occurred or not). The files are in the jld2 format, which is read by Julia using the JLD2 and FileIO packages.",api,True,findable,0,0,0,0,0,2024-04-04T11:30:17.000Z,2024-04-04T11:30:17.000Z,cern.zenodo,cern,Solid mechanics,"[{'subject': 'Solid mechanics', 'subjectScheme': 'EuroSciVoc'}]",,,,,['HasVersion'],"[['IsVersionOf', '10.5281/zenodo.10926005']]"
+10.5281/zenodo.14562024,"Codes: Comparing an idealized deterministic-stochastic model (SUP model, version 1) of the tide-and-wind driven sea surface currents in the Gulf of Trieste to HF Radar observations",Zenodo,2024,en,Model,Creative Commons Attribution 4.0 International,,api,True,findable,0,0,0,0,0,2024-12-27T12:24:46.000Z,2024-12-27T12:24:47.000Z,cern.zenodo,cern,"Oceanography,FOS: Earth and related environmental sciences,Model","[{'subject': 'Oceanography', 'subjectScheme': 'MeSH'}, {'subject': 'FOS: Earth and related environmental sciences', 'schemeUri': 'http://www.oecd.org/science/inno/38235147.pdf', 'subjectScheme': 'Fields of Science and Technology (FOS)'}, {'subject': 'Model', 'subjectScheme': 'GEMET'}]",,,,,"['IsDescribedBy', 'HasVersion']","[['IsVersionOf', '10.5281/zenodo.14562024']]"
+10.6084/m9.figshare.28104919,Additional file 3 of Aseismic deformation within fold-and-thrust belts: example from the Tsengwen River section of southwest Taiwan,figshare,2024,,Dataset,Creative Commons Attribution 4.0 International,Additional file 3.,mds,True,findable,0,0,0,1,0,2024-12-29T04:21:33.000Z,2024-12-29T04:21:34.000Z,figshare.ars,otjm,"Geology,FOS: Earth and related environmental sciences","[{'subject': 'Geology'}, {'subject': 'FOS: Earth and related environmental sciences', 'schemeUri': 'http://www.oecd.org/science/inno/38235147.pdf', 'subjectScheme': 'Fields of Science and Technology (FOS)'}]",['9431088 Bytes'],,,,['IsSupplementTo'],