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Fabrication of bismuth subcarbonate nanotube arrays from bismuth citrateProteomic identification of the Cus system as a major determinant of constitutive Escherichia coli silver resistance of chromosomal origin.Hydrothermal synthesis of platinum-group-metal nanoparticles by using HEPES as a reductant and stabilizer.Tuning the composition of AuPt bimetallic nanoparticles for antibacterial applicationIntestinal metabolite compound K of panaxoside inhibits the growth of gastric carcinoma by augmenting apoptosis via Bid-mediated mitochondrial pathway.Silver nanoparticles fabricated in Hepes buffer exhibit cytoprotective activities toward HIV-1 infected cells.Size-tunable fabrication of multifunctional Bi2O3 porous nanospheres for photocatalysis, bacteria inactivation and template-synthesis.Size-dependent antibacterial activities of silver nanoparticles against oral anaerobic pathogenic bacteria.Microwave-assisted facile synthesis of palladium nanoparticles in HEPES solution and their size-dependent catalytic activities to Suzuki reaction.Shape-dependent photocatalytic activities of bismuth subcarbonate nanostructures.Highly selective antibacterial activities of silver nanoparticles against Bacillus subtilis.BiOX (X=Cl, Br, I) nanostructures: mannitol-mediated microwave synthesis, visible light photocatalytic performance, and Cr(VI) removal capacity.Template-free fabrication of Bi2O3 and (BiO)2CO3 nanotubes and their application in water treatment.Large-scale synthesis of bismuth hollow nanospheres for highly efficient Cr(VI) removal.Microwave synthesis of BiPO4 nanostructures and their morphology-dependent photocatalytic performances.Hydrothermal synthesis and properties of controlled α-Fe2O3 nanostructures in HEPES solution.Silver nanoparticles: partial oxidation and antibacterial activities.Proteomic analysis of the mode of antibacterial action of silver nanoparticles.A chiral [2]catenane precursor of the antiarthritic gold(I) drug auranofinPd-Mediated Synthesis of Ag33 Chiral Nanocluster with Core-Shell Structure in T Point GroupCorrection to "Pd-Mediated Synthesis of Ag33 Chiral Nanocluster with Core-Shell Structure in T Point Group"
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Q28241830-68AE22A1-27B2-461B-8BC6-715019AEA19CQ33328916-2A09E56C-2250-4DD9-9C2E-AD2589E2DD49Q33446612-DF989825-089E-4040-A795-7CF4BBC49C5DQ35061102-80B1654D-4DC5-4555-A477-E03D3FD199D7Q37295219-77C00181-E6D8-4CF6-9D15-6BD99D8DB382Q40362843-2E9D97B3-8F72-4799-BA6F-2F98E3FB5A0DQ47176001-B348F329-75E4-4BFB-8CCE-1F420DC9978CQ47252090-72C9A4A8-3211-4E05-B325-2611E19D4E29Q47343252-E6C0DC3E-1827-4FA1-9843-F8841EA75F40Q50243278-69814A29-E7F5-43C6-9C42-1CC2CD60F658Q50468697-01AB54CB-D5F0-4E11-820D-395E41C85B86Q50473787-53D7F4B5-543F-4969-96BF-F7AFCC4B8971Q50488823-FE613E29-5FCB-428F-B98F-47B6C2A2E9CCQ50492162-EB4B2BF4-C5EF-4200-87DD-B0D178A29CB5Q50513513-D0C51598-B8AE-44D5-A656-B544248A78F6Q50518996-6386EA4F-3479-48C7-A7C9-31A27337E88DQ54445376-D927FC9B-E1FD-431D-B17F-2FBDCE8F6678Q54467286-2D59684D-C784-4CB6-B827-4F2172E1B391Q82414822-095898EE-AB9C-48E0-85A4-77B067586239Q92900600-A5A85A33-BCE2-43A0-8D91-EA49BDF0ECF3Q93117915-D3E4D547-5799-40DD-9D66-20E7F580AA3F
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description
onderzoeker
@nl
researcher
@en
հետազոտող
@hy
name
Rong Chen
@ast
Rong Chen
@en
Rong Chen
@es
Rong Chen
@nl
Rong Chen
@sl
type
label
Rong Chen
@ast
Rong Chen
@en
Rong Chen
@es
Rong Chen
@nl
Rong Chen
@sl
altLabel
陈嵘
@en
prefLabel
Rong Chen
@ast
Rong Chen
@en
Rong Chen
@es
Rong Chen
@nl
Rong Chen
@sl
P214
P106
P214
P31
P496
0000-0003-1455-5093
P7859
lccn-nr2002006847