about
Theoretical Predictions of a New ∼14 kDa Core-Mass Thiolate-Protected Gold Nanoparticle: Au68(SR)36.The Nucleation and Growth Mechanism of Thiolate-Protected Au Nanoclusters.Combining the Single-Atom Engineering and Ligand-Exchange Strategies: Obtaining the Single-Heteroatom-Doped Au16Ag1(S-Adm)13 Nanocluster with Atomically Precise Structure.MoS2 Quantum Dot Growth Induced by S Vacancies in a ZnIn2S4 Monolayer: Atomic-Level Heterostructure for Photocatalytic Hydrogen Production.Molecular Dynamics Simulations of the Oil-Detachment from the Hydroxylated Silica Surface: Effects of Surfactants, Electrostatic Interactions and Water Flows on the Water Molecular Channel Formation.A ten-electron (10e) thiolate-protected Au29(SR)19 cluster: structure prediction and a 'gold-atom insertion, thiolate-group elimination' mechanism.Ag50(Dppm)6(SR)30 and Its Homologue AuxAg50-x(Dppm)6(SR)30 Alloy Nanocluster: Seeded Growth, Structure Determination, and Differences in Properties.Bonding of Two 8-Electron Superatom ClustersHighly Bright Self-Assembled Copper Nanoclusters: A Novel Photoluminescent Probe for Sensitive Detection of HistamineTellurium Surface Doping to Enhance the Structural Stability and Electrochemical Performance of Layered Ni-Rich CathodesGrowth-Rule-Guided Structural Exploration of Thiolate-Protected Gold NanoclustersNanocluster growth via "graft-onto": effects on geometric structures and optical propertiesMolecular Dynamics Simulation of Surfactant Flooding Driven Oil-Detachment in Nano-Silica ChannelsInsight into 6π Electrocyclic Reactions of 1,8-DioxatetraeneTotal Structure Determination of Au16(S-Adm)12 and Cd1Au14(S tBu)12 and Implications for the Structure of Au15(SR)13Tuning Pb(II) Adsorption from Aqueous Solutions on Ultrathin Iron Oxychloride (FeOCl) NanosheetsReversible nanocluster structure transformation between face-centered cubic and icosahedral isomersThree-Component Cascade Synthesis of Carbazoles through [1s,6s] Sigmatropic Shift under Metal-Free ConditionsControlling Nanoparticles with Atomic Precision
P50
Q46411116-CE040597-ACDD-47C6-92CD-A9489F05F719Q46633868-0B51D375-5F69-44FD-93D1-DE553E8D011BQ47231604-4D3F0328-0755-402A-B865-FDB5EB8C9FB7Q47231802-A8DD2B9B-C73D-49E0-AD2C-44F7F23EFB83Q47714839-3155AF6D-7E8B-43EB-9C86-D20876D0F0BEQ48263243-23C0809B-62BD-4743-A20C-B8418F923B72Q48325239-5ED94294-5F46-4205-98A3-860F39C25620Q57795493-10E4D26D-E485-4F9A-A3C1-A7DD34ED40B9Q89420599-280EDD77-92B7-4892-A8B0-48FF283F4703Q90434322-81596FF4-D956-4600-8E9C-EC6172271162Q90475061-CF308FA4-4D64-43A6-8875-CC932FBA7ABBQ90609963-5D5353D0-0CAC-4030-943C-F99A7D81DA31Q90774313-36EE0B51-F1AA-492A-AA3F-D28D99D99EB7Q90845850-831EEFDA-EE2D-432A-AF48-3FAACFCBCB89Q90855874-95E16B1A-FE39-4E25-B62A-9BF7324DAA04Q91270222-FB7F0D2E-99C4-448C-B799-32E1C2921E49Q91709972-816E101B-8CDF-4E83-89AF-ABB33B008887Q91718574-0B64D46F-84A3-4972-B934-3DE55B689603Q93126525-400BEEEC-8B0B-45F9-9BF8-DD300B6ADECD
P50
description
researcher
@en
name
Yong Pei
@en
type
label
Yong Pei
@en
prefLabel
Yong Pei
@en
P31
P496
0000-0003-0585-2045