|
Dataset
|
update: {"publication_state"=>["version candidate under curator review", "released"], "release_date"=>[nil, Thu, 07 Nov 2024]}
|
2024-11-07T22:10:40Z
|
|
RelatedMaterial
|
update: {"citation"=>["Heng Zheng, Yuanxi Fu, Ishita Sarraf, M. Janina Sarol, and Jodi Schneider. (2024). Addressing Unreliability Propagation in Scientific Digital\r\nLibraries. Proceedings of the ACM/IEEE Joint Conference on Digital Libraries in 2024. Accepted. 2024.", "Heng Zheng, Yuanxi Fu, M. Janina Sarol, Ishita Sarraf, and Jodi Schneider. 2024. Addressing Unreliability Propagation in Scientific Digital Libraries. The 2024 ACM/IEEE Joint Conference on Digital Libraries (JCDL ’24), December 16–20, 2024, Hong Kong, China. https://doi.org/10.1145/3677389.3702526"]}
|
2024-11-07T22:10:10Z
|
|
Dataset
|
update: {"description"=>["This dataset consists of the 286 publications retrieved from Web of Science and Scopus on July 6, 2023 as citations for Willoughby et al., 2014:\r\nPatrick H. Willoughby, Matthew J. Jansma, and Thomas R. Hoye (2014). A guide to small-molecule structure assignment through computation of (¹H and ¹³C) NMR chemical shifts. Nature Protocols, 9(3), Article 3. https://doi.org/10.1038/nprot.2014.042\r\n\r\nWe added the DOIs of the citing publications into a Zotero collection. Then we exported all 286 DOIs in two formats: a .csv file (data export) and an .rtf file (bibliography). \r\n\r\n<b>Willoughby2014_286citing_publications.csv</b> is a Zotero data export of the citing publications.\r\n\r\n<b>Willoughby2014_286citing_publications.rtf</b> is a bibliography of the citing publications, using a variation of the American Psychological Association style (7th edition) with full names instead of initials. \r\n\r\nTo create <b>Willoughby2014_citation_contexts.csv</b>, HZ manually extracted the paragraphs that contain a citation marker of Willoughby et al., 2014. We refer to these paragraphs as the citation contexts of Willoughby et al., 2014. Manual extraction started with 286 citing publications but excluded 2 publications that are not in English, those with DOIs 10.13220/j.cnki.jipr.2015.06.004 and 10.19540/j.cnki.cjcmm.20200604.201\r\n\r\nThe silver standard aimed to triage the citing publications of Willoughby et al., 2014 that are at risk of propagating unreliability due to a code glitch in a computational chemistry protocol introduced in Willoughby et al., 2014. The silver standard was created stepwise:\r\nFirst one chemistry expert (YF) manually annotated the corpus of 284 citing publications in English, using their full text and citation contexts. She manually categorized publications as either at risk of propagating unreliability or not at risk of propagating unreliability, with a rationale justifying each category. \r\n\r\nThen we selected a representative sample of citation contexts to be double annotated. To do this, MJS turned the full dataset of citation contexts (Willoughby2014_citation_contexts.csv) into word embeddings, clustered them using similarity measures using BERTopic's HDBS, and selected representative citation contexts based on the centroids of the clusters. \r\n\r\nNext the second chemistry expert (EV) annotated the 77 publications associated with the citation contexts, considering the full text as well as the citation contexts. \r\n\r\n<b>double_annotated_subset_77_before_reconciliation.csv</b> provides EV and YF's annotation before reconciliation.\r\n\r\nTo create the silver standard YF, EV, and JS discussed differences and reconciled most differences. YF and EV had principled reasons for disagreeing on 9 publications; to handle these, YF updated the annotations, to create the silver standard we use for evaluation in the remainder of our JCDL 2024 paper (<b>Silver_standard_triage_CitingPublication.csv</b>)\r\n\r\n<b>Inter_Annotator_Agreement.xlsx</b> indicates publications where the two annotators made opposite decisions and calculates the inter-annotator agreement before and after reconciliation together.\r\n\r\n<b>double_annotated_subset_77_before_reconciliation.csv</b> provides EV and YF's annotation after reconciliation, including applying the reconciliation policy. ", "This dataset consists of the 286 publications retrieved from Web of Science and Scopus on July 6, 2023 as citations for Willoughby et al., 2014:\r\nPatrick H. Willoughby, Matthew J. Jansma, and Thomas R. Hoye (2014). A guide to small-molecule structure assignment through computation of (¹H and ¹³C) NMR chemical shifts. Nature Protocols, 9(3), Article 3. https://doi.org/10.1038/nprot.2014.042\r\n\r\nWe added the DOIs of the citing publications into a Zotero collection. Then we exported all 286 DOIs in two formats: a .csv file (data export) and an .rtf file (bibliography). \r\n\r\n<b>Willoughby2014_286citing_publications.csv</b> is a Zotero data export of the citing publications.\r\n\r\n<b>Willoughby2014_286citing_publications.rtf</b> is a bibliography of the citing publications, using a variation of the American Psychological Association style (7th edition) with full names instead of initials. \r\n\r\nTo create <b>Willoughby2014_citation_contexts.csv</b>, HZ manually extracted the paragraphs that contain a citation marker of Willoughby et al., 2014. We refer to these paragraphs as the citation contexts of Willoughby et al., 2014. Manual extraction started with 286 citing publications but excluded 2 publications that are not in English, those with DOIs 10.13220/j.cnki.jipr.2015.06.004 and 10.19540/j.cnki.cjcmm.20200604.201\r\n\r\nThe silver standard aimed to triage the citing publications of Willoughby et al., 2014 that are at risk of propagating unreliability due to a code glitch in a computational chemistry protocol introduced in Willoughby et al., 2014. The silver standard was created stepwise:\r\nFirst one chemistry expert (YF) manually annotated the corpus of 284 citing publications in English, using their full text and citation contexts. She manually categorized publications as either at risk of propagating unreliability or not at risk of propagating unreliability, with a rationale justifying each category. \r\n\r\nThen we selected a representative sample of citation contexts to be double annotated. To do this, MJS turned the full dataset of citation contexts (Willoughby2014_citation_contexts.csv) into word embeddings, clustered them using similarity measures using BERTopic's HDBS, and selected representative citation contexts based on the centroids of the clusters. \r\n\r\nNext the second chemistry expert (EV) annotated the 77 publications associated with the citation contexts, considering the full text as well as the citation contexts. \r\n\r\n<b>double_annotated_subset_77_before_reconciliation.csv</b> provides EV and YF's annotation before reconciliation.\r\n\r\nTo create the silver standard YF, EV, and JS discussed differences and reconciled most differences. YF and EV had principled reasons for disagreeing on 9 publications; to handle these, YF updated the annotations, to create the silver standard we use for evaluation in the remainder of our JCDL 2024 paper (<b>silver_standard.csv</b>)\r\n\r\n<b>Inter_Annotator_Agreement.xlsx</b> indicates publications where the two annotators made opposite decisions and calculates the inter-annotator agreement before and after reconciliation together.\r\n\r\n<b>double_annotated_subset_77_before_reconciliation.csv</b> provides EV and YF's annotation after reconciliation, including applying the reconciliation policy. "]}
|
2024-11-07T22:07:14Z
|
|
Dataset
|
update: {"removed_private"=>["yes", "na"]}
|
2024-11-07T18:41:57Z
|
|
Dataset
|
update: {"description"=>["This dataset consists of the 286 publications retrieved from Web of Science and Scopus on July 6, 2023 as citations for Willoughby et al., 2014:\r\nPatrick H. Willoughby, Matthew J. Jansma, and Thomas R. Hoye (2014). A guide to small-molecule structure assignment through computation of (¹H and ¹³C) NMR chemical shifts. Nature Protocols, 9(3), Article 3. https://doi.org/10.1038/nprot.2014.042\r\n\r\nWe added the DOIs of the citing publications into a Zotero collection. Then we exported all 286 DOIs in two formats: a .csv file (data export) and an .rtf file (bibliography). \r\n\r\n<b>Willoughby2014_286citing_publications.csv</b> is a Zotero data export of the citing publications.\r\n\r\n<b>Willoughby2014_286citing_publications.rtf</b> is a bibliography of the citing publications, using a variation of the American Psychological Association style (7th edition) with full names instead of initials. \r\n\r\nTo create <b>Willoughby2014_citation_contexts.csv</b>, HZ manually extracted the paragraphs that contain a citation marker of Willoughby et al., 2014. We refer to these paragraphs as the citation contexts of Willoughby et al., 2014. Manual extraction started with 286 citing publications but excluded 2 publications that are not in English, those with DOIs 10.13220/j.cnki.jipr.2015.06.004 and 10.19540/j.cnki.cjcmm.20200604.201\r\n\r\nThe silver standard aimed to triage the citing publications of Willoughby et al., 2014 that are at risk of propagating unreliability due to a code glitch in a computational chemistry protocol introduced in Willoughby et al., 2014. The silver standard was created stepwise:\r\nFirst one chemistry expert (YF) manually annotated the corpus of 284 citing publications in English, using their full text and citation contexts. She manually categorized publications as either at risk of propagating unreliability or not at risk of propagating unreliability, with a rationale justifying each category. \r\n\r\nThen we selected a representative sample of citation contexts to be double annotated. To do this, MJS turned the full dataset of citation contexts (Willoughby2014_citation_contexts.csv) into word embeddings, clustered them using similarity measures using BERTopic's HDBS, and selected representative citation contexts based on the centroids of the clusters. \r\n\r\nNext the second chemistry expert (EV) annotated the 77 publications associated with the citation contexts, considering the full text as well as the citation contexts. \r\n\r\n<b>double_annotated_subset_77_before_reconciliation.csv</b> provides EV and YF's annotation before reconciliation.\r\n\r\nTo create the silver standard YF, EV, and JS discussed differences and reconciled most differences. YF and EV had principled reasons for disagreeing on 9 publications; to handle these, YF updated the annotations, to create the silver standard we use for evaluation in the remainder of our JCDL 2024 paper (<b>silver_standard.csv</b>)\r\n\r\n<b>Inter_Annotator_Agreement.xlsx</b> indicates publications where the two annotators made opposite decisions and calculates the inter-annotator agreement before and after reconciliation together.\r\n\r\n<b>double_annotated_subset_77_before_reconciliation.csv</b> provides EV and YF's annotation after reconciliation, including applying the reconciliation policy. ", "This dataset consists of the 286 publications retrieved from Web of Science and Scopus on July 6, 2023 as citations for Willoughby et al., 2014:\r\nPatrick H. Willoughby, Matthew J. Jansma, and Thomas R. Hoye (2014). A guide to small-molecule structure assignment through computation of (¹H and ¹³C) NMR chemical shifts. Nature Protocols, 9(3), Article 3. https://doi.org/10.1038/nprot.2014.042\r\n\r\nWe added the DOIs of the citing publications into a Zotero collection. Then we exported all 286 DOIs in two formats: a .csv file (data export) and an .rtf file (bibliography). \r\n\r\n<b>Willoughby2014_286citing_publications.csv</b> is a Zotero data export of the citing publications.\r\n\r\n<b>Willoughby2014_286citing_publications.rtf</b> is a bibliography of the citing publications, using a variation of the American Psychological Association style (7th edition) with full names instead of initials. \r\n\r\nTo create <b>Willoughby2014_citation_contexts.csv</b>, HZ manually extracted the paragraphs that contain a citation marker of Willoughby et al., 2014. We refer to these paragraphs as the citation contexts of Willoughby et al., 2014. Manual extraction started with 286 citing publications but excluded 2 publications that are not in English, those with DOIs 10.13220/j.cnki.jipr.2015.06.004 and 10.19540/j.cnki.cjcmm.20200604.201\r\n\r\nThe silver standard aimed to triage the citing publications of Willoughby et al., 2014 that are at risk of propagating unreliability due to a code glitch in a computational chemistry protocol introduced in Willoughby et al., 2014. The silver standard was created stepwise:\r\nFirst one chemistry expert (YF) manually annotated the corpus of 284 citing publications in English, using their full text and citation contexts. She manually categorized publications as either at risk of propagating unreliability or not at risk of propagating unreliability, with a rationale justifying each category. \r\n\r\nThen we selected a representative sample of citation contexts to be double annotated. To do this, MJS turned the full dataset of citation contexts (Willoughby2014_citation_contexts.csv) into word embeddings, clustered them using similarity measures using BERTopic's HDBS, and selected representative citation contexts based on the centroids of the clusters. \r\n\r\nNext the second chemistry expert (EV) annotated the 77 publications associated with the citation contexts, considering the full text as well as the citation contexts. \r\n\r\n<b>double_annotated_subset_77_before_reconciliation.csv</b> provides EV and YF's annotation before reconciliation.\r\n\r\nTo create the silver standard YF, EV, and JS discussed differences and reconciled most differences. YF and EV had principled reasons for disagreeing on 9 publications; to handle these, YF updated the annotations, to create the silver standard we use for evaluation in the remainder of our JCDL 2024 paper (<b>Silver_standard_triage_CitingPublication.csv</b>)\r\n\r\n<b>Inter_Annotator_Agreement.xlsx</b> indicates publications where the two annotators made opposite decisions and calculates the inter-annotator agreement before and after reconciliation together.\r\n\r\n<b>double_annotated_subset_77_before_reconciliation.csv</b> provides EV and YF's annotation after reconciliation, including applying the reconciliation policy. "]}
|
2024-11-07T18:21:51Z
|
|
Dataset
|
update: {"version_comment"=>["Added 6 new files", "Added 6 new files and updated Readme file"]}
|
2024-11-05T20:43:58Z
|
|
RelatedMaterial
|
update: {"uri"=>["", "10.1145/3677389.3702526"], "uri_type"=>["", "DOI"], "citation"=>["Heng Zheng, Yuanxi Fu, Ishita Sarraf, M. Janina Sarol, and Jodi Schneider. (2024). Addressing Unreliability Propagation in Scientific Digital\r\nLibraries. Proceedings of the ACM/IEEE Joint Conference on Digital Libraries in 2024.", "Heng Zheng, Yuanxi Fu, Ishita Sarraf, M. Janina Sarol, and Jodi Schneider. (2024). Addressing Unreliability Propagation in Scientific Digital\r\nLibraries. Proceedings of the ACM/IEEE Joint Conference on Digital Libraries in 2024. Accepted. 2024."], "datacite_list"=>["", "IsSupplementTo"]}
|
2024-11-05T20:43:10Z
|
|
RelatedMaterial
|
update: {"link"=>["", "https://hdl.handle.net/2142/124768"], "uri"=>["", "handle.net/2142/124768"], "uri_type"=>["", "Handle"], "datacite_list"=>["", "IsSupplementTo"]}
|
2024-11-05T20:43:10Z
|
|
Dataset
|
update: {"version_comment"=>["Deposit new datasets", "Added 6 new files"]}
|
2024-11-05T20:43:10Z
|
|
RelatedMaterial
|
update: {"note"=>[nil, ""]}
|
2024-11-05T16:20:29Z
|
|
RelatedMaterial
|
update: {"note"=>[nil, ""]}
|
2024-11-05T16:20:29Z
|
|
Funder
|
create: {"name"=>"Harvard Radcliffe Institute for Advanced Study", "identifier"=>"", "identifier_scheme"=>"", "grant"=>"2024–2025 Perrin Moorhead Grayson and Bruns Grayson Fellow", "dataset_id"=>2825, "code"=>"other"}
|
2024-11-03T20:06:41Z
|
|
Funder
|
create: {"name"=>"U.S. National Science Foundation (NSF)", "identifier"=>"10.13039/100000001", "identifier_scheme"=>"DOI", "grant"=>"1246649", "dataset_id"=>2825, "code"=>"NSF"}
|
2024-11-03T20:06:41Z
|
|
Funder
|
create: {"name"=>"U.S. National Science Foundation (NSF)", "identifier"=>"10.13039/100000001", "identifier_scheme"=>"DOI", "grant"=>"2046454", "dataset_id"=>2825, "code"=>"NSF"}
|
2024-11-03T20:06:41Z
|
|
Creator
|
create: {"family_name"=>"Schneider", "given_name"=>"Jodi", "identifier"=>"0000-0002-5098-5667", "email"=>"jodi@illinois.edu", "is_contact"=>false, "row_position"=>4}
|
2024-11-03T19:24:17Z
|
|
Creator
|
create: {"family_name"=>"Vandel", "given_name"=>"Ellie", "identifier"=>"", "email"=>"evandel2@illinois.edu", "is_contact"=>false, "row_position"=>3}
|
2024-11-03T19:24:17Z
|
|
RelatedMaterial
|
update: {"link"=>["", "https://doi.org/10.1145/3677389.3702526"], "citation"=>["Zheng, Heng, Fu, Yuanxi, Sarraf, Ishita, Sarol, M. Janina, & Schneider, Jodi. (2024). The Expert is Needed: Designing an Automation System to Triage Unreliability Propagation in Scientific Digital Libraries [manuscript in preparation].", "Heng Zheng, Yuanxi Fu, Ishita Sarraf, M. Janina Sarol, and Jodi Schneider. (2024). Addressing Unreliability Propagation in Scientific Digital\r\nLibraries. Proceedings of the ACM/IEEE Joint Conference on Digital Libraries in 2024."]}
|
2024-11-03T19:24:17Z
|
|
Dataset
|
update: {"description"=>["This dataset consists the 286 publications retrieved from Web of Science and Scopus on July 6, 2023 as citations for (Willoughby et al., 2014):\r\nWilloughby, Patrick H., Jansma, Matthew J., & Hoye, Thomas R. (2014). A guide to small-molecule structure assignment through computation of (¹H and ¹³C) NMR chemical shifts. Nature Protocols, 9(3), Article 3. https://doi.org/10.1038/nprot.2014.042\r\n\r\nWe added the DOIs of the citing publications into a Zotero collection, which we exported into a .csv file and an .rtf file. \r\n\r\nWilloughby2014_286citing_publications.csv is a Zotero data export of the citing publications.\r\n\r\nWilloughby2014_286citing_publications.rtf is a bibliography of the citing publications, using a variation of American Psychological Association style (7th edition) with full names instead of initials. \r\n\r\nWe developed an automation system to analyze unreliability propagation through the publications citing an unreliable publication: Willoughby et al., 2014 (one of the Python scripts that supported the protocol presented in this publication has a code glitch). We call a publication \"unreliable by propagation\" when its main findings have become unreliable by citing an unreliable source.\r\n\r\nThe system triaged the citing publications that are in English (284) according to whether they are at risk because of citing Willoughby et al., 2014. We excluded 2 publications that are not in English, their DOIs are 10.13220/j.cnki.jipr.2015.06.004 and 10.19540/j.cnki.cjcmm.20200604.201. We compared the accuracy of the system's triage with a separate manual analysis the chemistry expert (YF) conducted on the 284 citing publications.\r\n\r\n284_merged_decision_and_annotation.csv (new in this V2) shows the system triage results and the results of a chemistry domain expert (YF)'s manual analysis on the 284 citing publications. ", "This dataset consists of the 286 publications retrieved from Web of Science and Scopus on July 6, 2023 as citations for Willoughby et al., 2014:\r\nPatrick H. Willoughby, Matthew J. Jansma, and Thomas R. Hoye (2014). A guide to small-molecule structure assignment through computation of (¹H and ¹³C) NMR chemical shifts. Nature Protocols, 9(3), Article 3. https://doi.org/10.1038/nprot.2014.042\r\n\r\nWe added the DOIs of the citing publications into a Zotero collection. Then we exported all 286 DOIs in two formats: a .csv file (data export) and an .rtf file (bibliography). \r\n\r\nWilloughby2014_286citing_publications.csv is a Zotero data export of the citing publications.\r\n\r\nWilloughby2014_286citing_publications.rtf is a bibliography of the citing publications, using a variation of the American Psychological Association style (7th edition) with full names instead of initials. \r\n\r\nTo create Willoughby2014_citation_contexts.csv, HZ manually extracted the paragraphs that contain a citation marker of Willoughby et al., 2014. We refer to these paragraphs as the citation contexts of Willoughby et al., 2014. Manual extraction started with 286 citing publications but excluded 2 publications that are not in English, those with DOIs 10.13220/j.cnki.jipr.2015.06.004 and 10.19540/j.cnki.cjcmm.20200604.201\r\n\r\nThe silver standard aimed to triage the citing publications of Willoughby et al., 2014 that are at risk of propagating unreliability due to a code glitch in a computational chemistry protocol introduced in Willoughby et al., 2014. The silver standard was created stepwise:\r\nFirst one chemistry expert (YF) manually annotated the corpus of 284 citing publications in English, using their full text and citation contexts. She manually categorized publications as either at risk of propagating unreliability or not at risk of propagating unreliability, with a rationale justifying each category. \r\n\r\nThen we selected a representative sample of citation contexts to be double annotated. To do this, MJS turned the full dataset of citation contexts (Willoughby2014_citation_contexts.csv) into word embeddings, clustered them using similarity measures using BERTopic's HDBS, and selected representative citation contexts based on the centroids of the clusters. \r\n\r\nNext the second chemistry expert (EV) annotated the 77 publications associated with the citation contexts, considering the full text as well as the citation contexts. \r\n\r\ndouble_annotated_subset_77_before_reconciliation.csv provides EV and YF's annotation before reconciliation.\r\n\r\nTo create the silver standard YF, EV, and JS discussed differences and reconciled most differences. YF and EV had principled reasons for disagreeing on 9 publications; to handle these, YF updated the annotations, to create the silver standard we use for evaluation in the remainder of our JCDL 2024 paper (silver_standard.csv)\r\n\r\nInter_Annotator_Agreement.xlsx indicates publications where the two annotators made opposite decisions and calculates the inter-annotator agreement before and after reconciliation together.\r\n\r\ndouble_annotated_subset_77_before_reconciliation.csv provides EV and YF's annotation after reconciliation, including applying the reconciliation policy. "], "keywords"=>["scientific publications; arguments; citation contexts; defeasible reasoning; Zotero; Web of Science; Scopus; unreliable cited sources; automation systems; knowledge maintenance", "unreliable cited sources; knowledge maintenance; citations; scientific digital libraries; scholarly publications; reproducibility; unreliability propagation; citation contexts"]}
|
2024-11-03T19:24:17Z
|
|
Dataset
|
update: {"hold_state"=>["version candidate under curator review", "none"]}
|
2024-11-01T17:12:07Z
|
|
Dataset
|
update: {"version_comment"=>[nil, "Deposit new datasets"]}
|
2024-11-01T02:46:37Z
|
|
RelatedMaterial
|
create: {"material_type"=>"Dataset", "availability"=>nil, "link"=>"https://doi.org/10.13012/B2IDB-4610831_V2", "uri"=>"10.13012/B2IDB-4610831_V2", "uri_type"=>"DOI", "citation"=>"Zheng, Heng; Fu, Yuanxi (2024): Dataset of 286 publications citing the 2014 Willoughby-Jansma-Hoye protocol. University of Illinois at Urbana-Champaign. https://doi.org/10.13012/B2IDB-4610831_V2", "dataset_id"=>2825, "selected_type"=>"Dataset", "datacite_list"=>"IsNewVersionOf", "note"=>nil, "feature"=>nil}
|
2024-11-01T02:46:09Z
|
|
RelatedMaterial
|
create: {"material_type"=>"Presentation", "availability"=>nil, "link"=>"https://hdl.handle.net/2142/123192", "uri"=>"hdl.handle.net/2142/123192", "uri_type"=>"Handle", "citation"=>"Zheng, Heng, Fu, Yuanxi, & Schneider, Jodi. (2024). How does a piece of unreliable code affect its citing publications? An argumentation analysis. Presentation at The Thirteenth Conference of the Ontario Society for the Study of Argumentation (OSSA 13).", "dataset_id"=>2825, "selected_type"=>"Presentation", "datacite_list"=>"IsSupplementTo", "note"=>nil, "feature"=>nil}
|
2024-11-01T02:46:09Z
|
|
RelatedMaterial
|
create: {"material_type"=>"Poster", "availability"=>nil, "link"=>"", "uri"=>"", "uri_type"=>"", "citation"=>"Fu, Yuanxi, Zheng, Heng, & Schneider, Jodi. (2024). Assessing the impact of a computational chemistry protocol. Poster at Computers in Chemistry (COMP) poster session, American Chemical Society 2024 Fall Meeting.", "dataset_id"=>2825, "selected_type"=>"Other", "datacite_list"=>"", "note"=>"", "feature"=>nil}
|
2024-11-01T02:46:09Z
|
|
RelatedMaterial
|
create: {"material_type"=>"Article", "availability"=>nil, "link"=>"", "uri"=>"", "uri_type"=>"", "citation"=>"Zheng, Heng, Fu, Yuanxi, Sarraf, Ishita, Sarol, M. Janina, & Schneider, Jodi. (2024). The Expert is Needed: Designing an Automation System to Triage Unreliability Propagation in Scientific Digital Libraries [manuscript in preparation].", "dataset_id"=>2825, "selected_type"=>"Article", "datacite_list"=>"", "note"=>"", "feature"=>nil}
|
2024-11-01T02:46:08Z
|
|
RelatedMaterial
|
create: {"material_type"=>"Article", "availability"=>nil, "link"=>"https://doi.org/10.1038/nprot.2014.042", "uri"=>"10.1038/nprot.2014.042", "uri_type"=>"DOI", "citation"=>"Willoughby, Patrick H., Jansma, Matthew J., & Hoye, Thomas R. (2014). A guide to small-molecule structure assignment through computation of (¹H and ¹³C) NMR chemical shifts. Nature Protocols, 9(3), Article 3. https://doi.org/10.1038/nprot.2014.042", "dataset_id"=>2825, "selected_type"=>"Article", "datacite_list"=>"IsSupplementedBy", "note"=>"", "feature"=>nil}
|
2024-11-01T02:46:08Z
|
|
RelatedMaterial
|
create: {"material_type"=>"", "availability"=>nil, "link"=>"", "uri"=>"", "uri_type"=>"", "citation"=>"Zheng, Heng, Fu, Yuanxi, & Schneider, Jodi. (2024). How does a piece of unreliable code affect its citing publications? An argumentation analysis The Thirteenth Conference of the Ontario Society for the Study of Argumentation (OSSA 13).", "dataset_id"=>2825, "selected_type"=>"Article", "datacite_list"=>"IsSupplementTo", "note"=>"", "feature"=>false}
|
2024-11-01T02:46:08Z
|
|
Funder
|
create: {"name"=>"Alfred P. Sloan Foundation", "identifier"=>"", "identifier_scheme"=>"", "grant"=>"G-2022-19409", "dataset_id"=>2825, "code"=>"other"}
|
2024-11-01T02:46:08Z
|
|
Creator
|
create: {"family_name"=>"Fu", "given_name"=>"Yuanxi", "identifier"=>"0000-0003-2726-0999", "email"=>"fu5@illinois.edu", "is_contact"=>false, "row_position"=>2}
|
2024-11-01T02:46:08Z
|
|
Creator
|
create: {"family_name"=>"Zheng", "given_name"=>"Heng", "identifier"=>"0000-0001-5866-7746", "email"=>"zhenghz@illinois.edu", "is_contact"=>true, "row_position"=>1}
|
2024-11-01T02:46:08Z
|
|
Dataset
|
update: {"corresponding_creator_name"=>[nil, "Heng Zheng"], "corresponding_creator_email"=>[nil, "zhenghz@illinois.edu"]}
|
2024-11-01T02:46:08Z
|
