Name: mlearn_Li_train
License: https://creativecommons.org/publicdomain/zero/1.0/

Dataset

mlearn_Li_train

Name	mlearn_Li_train
Extended ID	mlearn_Li_train_ZuoChenLiDengChenBehlerCsanyiShapeevThompsonWoodOng__DS_5c9xknoouzof_0
Description	A comprehensive DFT data set was generated for six elements - Li, Mo, Ni, Cu, Si, and Ge. These elements were chosen to span a variety of chemistries (main group metal, transition metal, and semiconductor), crystal structures (bcc, fcc, and diamond) and bonding types (metallic and covalent). This dataset comprises only the Li configurations
Authors	Yunxing Zuo Chi Chen Xiangguo Li Zhi Deng Yiming Chen Jörg Behler Gábor Csányi Alexander V. Shapeev Aidan P. Thompson Mitchell A. Wood Shyue Ping Ong
Elements	Li (100.0%)
Number of Data Objects	241
Number of Configurations	241
Number of Atoms	11,576
Links	https://doi.org/10.1021/acs.jpca.9b08723 https://github.com/materialsvirtuallab/mlearn
Configuration Sets by Name	Li_ground — Ground state structure Li_vacancy — NVT AIMD simulations of the bulk supercells with a single vacancy performed at 300 K and 2.0x of the melting point of each element. The bulk supercells were heated from 0 K to the target temperatures and equilibrated for 20,000 time steps. A total of 40 snapshots were obtained from the subsequent production run of each AIMD simulation at an interval of 0.1 ps. Li_AIMD_NVT — NVT ab initio molecular dynamics (AIMD) simulations of the bulk supercells performed at 300 K and 0.5x, 0.9x, 1.5x, and 2.0x of the melting point of each element with a time step of 2 fs. The bulk supercells were heated from 0 K to the target temperatures and equilibrated for 20 000 time steps. A total of 20 snapshots were obtained from the subsequent production run in each AIMD simulation at an interval of 0.1 ps. Li_surface — Slab structures up to a maximum Miller index of three, including (100), (110), (111), (210), (211), (310), (311), (320), (321), (322), (331), and (332), as obtained from the Crystalium database. Li_strain — Strained structures constructed by applying strains of -10% to 10% at 2% intervals to the bulk supercell in six different modes. The supercells used are the 3 x 3 x 3, 3 x 3 x 3, and 2 x 2 x 2 of the conventional bcc, fcc, and diamond unit cells, respectively
Configuration Sets by ID	CS_rrn0ytfk8rws_0 CS_d43lo5hcu6qf_0 CS_fc1az79uk1hp_0 CS_35rsw9jgjo0f_0 CS_rfsooirj8jm4_0
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ColabFit ID	DS_5c9xknoouzof_0
Files	colabfitspec.json

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