about
Orientation determination of protein helical secondary structures using linear and nonlinear vibrational spectroscopy.Interactions of alamethicin with model cell membranes investigated using sum frequency generation vibrational spectroscopy in real time in situOrientation difference of chemically immobilized and physically adsorbed biological molecules on polymers detected at the solid/liquid interfaces in situ.Orientation determination of interfacial beta-sheet structures in situProbing the spontaneous membrane insertion of a tail-anchored membrane protein by sum frequency generation spectroscopyIn situ molecular level studies on membrane related peptides and proteins in real time using sum frequency generation vibrational spectroscopy.Molecular interactions between magainin 2 and model membranes in situIn Situ Investigation of Peptide-Lipid Interaction Between PAP248-286 and Model Cell Membranes.Suppressing interfacial water signals to assist the peak assignment of the N⁺-H stretching mode in sum frequency generation vibrational spectroscopy.An electronically enhanced chiral sum frequency generation vibrational spectroscopy study of lipid-bound cytochrome c.Interactions between halide anions and interfacial water molecules in relation to the Jones-Ray effect.Strong cooperative effect of oppositely charged surfactant mixtures on their adsorption and packing at the air-water interface and interfacial water structure.Design of a highly sensitive and specific nucleotide sensor based on photon upconverting particlesCombined Sum Frequency Generation and Thin Liquid Film Study of the Specific Effect of Monovalent Cations on the Interfacial Water StructureEffects of Ultrafine Bubbles on Gram-Negative Bacteria: Inhibition or Selection?New Evidence of Head-to-Tail Complex Formation of SDS-DOH Mixtures Adsorbed at the Air-Water Interface as Revealed by Vibrational Sum Frequency Generation Spectroscopy and Isotope Labelling
P50
Q33489814-ACF398B0-1349-404B-B4F9-A2371EF4E111Q33749973-00FACC21-C360-464C-98E2-0FFE8E33E8E4Q33814788-9A9AA89C-337C-4870-A508-525BB28C19FFQ33958543-FBE9FA16-F6DF-46A5-820C-DA74DC18A387Q34249882-5D2551BA-B177-4E54-B0DB-8A85C6F46428Q37366401-8B7D58EC-D247-4838-82EF-50F251372561Q37415674-39810970-1426-4A91-B3BE-450FA191037AQ39991895-17875505-789F-4220-BCBB-4F96E2BFF6B2Q46656184-15EAB0EE-2D75-46F0-915E-276B397240C3Q53393646-DC8B78AC-8A82-48E3-809E-1DDDDAA921C7Q53438991-4B49F0EC-BD7F-44BE-BA94-DF3E89D8B5BAQ53532143-8D7FF832-FF43-421B-B03E-2964D13F92E7Q80289995-5D1C8607-866D-4EC1-9F12-D641E06AACCCQ88726374-99B019EF-3667-4469-BD96-DB6BD18D2A97Q90275350-34E255A8-6188-4030-B470-F910AE1601ADQ92335876-D9351738-95EE-4A6A-86F0-0747ED208D66
P50
description
onderzoeker
@nl
researcher
@en
հետազոտող
@hy
name
Khoi Tan Nguyen
@ast
Khoi Tan Nguyen
@en
Khoi Tan Nguyen
@es
Khoi Tan Nguyen
@nl
Khoi Tan Nguyen
@sl
type
label
Khoi Tan Nguyen
@ast
Khoi Tan Nguyen
@en
Khoi Tan Nguyen
@es
Khoi Tan Nguyen
@nl
Khoi Tan Nguyen
@sl
prefLabel
Khoi Tan Nguyen
@ast
Khoi Tan Nguyen
@en
Khoi Tan Nguyen
@es
Khoi Tan Nguyen
@nl
Khoi Tan Nguyen
@sl
P1053
B-2730-2014
P106
P31
P3829
P496
0000-0003-3934-0371