about
The generic enhancement of photochromic dye switching speeds in a rigid polymer matrixSurfactant enhanced lipase containing films characterized by confocal laser scanning microscopy.A tuneable switch for controlling environmental degradation of bioplastics: addition of isothiazolinone to polyhydroxyalkanoates.Copper Complex in Poly(vinyl chloride) as a Nitric Oxide-Generating Catalyst for the Control of Nitrifying Bacterial Biofilms.Novel Applications for Oxalate-Phosphate-Amine Metal-Organic-Frameworks (OPA-MOFs): Can an Iron-Based OPA-MOF Be Used as Slow-Release Fertilizer?High-efficiency cogeneration boiler bagasse-ash geochemistry and mineralogical change effects on the potential reuse in synthetic zeolites, geopolymers, cements, mortars, and concretes.Arsenic solid-phase speciation and reversible binding in long-term contaminated soils.Photochromic spirooxazines functionalized with oligomers: investigation of core-oligomer interactions and photomerocyanine isomer interconversion using NMR spectroscopy and DFT.Development of a treatment solution for reductive dechlorination of hexachloro-1,3-butadiene in vadose zone soil.Iron Complex Facilitated Copper Redox Cycling for Nitric Oxide Generation as Nontoxic Nitrifying Biofilm Inhibitor.Ferrous ion as reducing agent in the generation of antibiofilm nitric oxide from copper-based catalytic system.Arsenic bio-accessibility and bioaccumulation in aged pesticide contaminated soils: A multiline investigation to understand environmental risk.Extraction and Quantification of Bioactive Tyrian Purple Precursors: A Comparative and Validation Study from the Hypobranchial Gland of a Muricid Dicathais orbita.Inhibition of fouling by marine bacteria immobilised in κ-carrageenan beadsFactors Influencing Photochromism of Spiro-Compounds Within Polymeric MatricesTermination Rate Coefficient of Dimethyl Itaconate: Comparison of Modeling and Experimental Results
P50
Q28306332-B327B8AD-9F3D-408B-BFE6-CCAE1F368FDCQ33735519-399369EB-8785-4794-A852-0D87157AF774Q35022485-4A437253-2D5C-4B22-88F7-14A046C716BCQ35791914-2BB5BF47-91EF-4D16-B556-D8B4E64A060EQ35859952-8C87429B-83E7-4D46-A60A-2937DAA56CF3Q38811514-A7B5E103-694C-4E38-AE18-7F74DA24C441Q39132642-64C10501-75D4-44D5-9450-10B8C17182D7Q43103168-7DD62812-8A29-46DD-910E-FA7F63FB7C2EQ43103425-9D7FF19F-D863-48DC-8029-B8F89CBFA98BQ46468968-AD82A488-6587-407D-8F29-00967030D890Q50165192-6D9D1A90-88B4-449D-AF70-59D80A574495Q51055660-08C6F98B-D7C7-4530-8BCA-963DE0DA3E40Q51084134-BE1E9F90-6559-4684-8C9F-BE1EF93ED8AFQ58056370-5A5419A2-28BA-4BC6-9231-FA1F7C580096Q60286713-9D6AA85A-E278-4135-A9C9-775BB40236ACQ60421022-4ABB19BB-7859-4615-AF59-D91ADB39249C
P50
description
researcher
@en
wetenschapper
@nl
հետազոտող
@hy
name
Lachlan Hartley Yee
@ast
Lachlan Hartley Yee
@en
Lachlan Hartley Yee
@es
Lachlan Hartley Yee
@nl
type
label
Lachlan Hartley Yee
@ast
Lachlan Hartley Yee
@en
Lachlan Hartley Yee
@es
Lachlan Hartley Yee
@nl
prefLabel
Lachlan Hartley Yee
@ast
Lachlan Hartley Yee
@en
Lachlan Hartley Yee
@es
Lachlan Hartley Yee
@nl
P106
P1153
56727799500
P31
P496
0000-0002-7258-2076