about
Dimer formation during UV photolysis of diclofenac.A Bayesian analysis of mouse infectivity data to evaluate the effectiveness of using ultraviolet light as a drinking water disinfectant.Development of a fluorescence in situ hybridization protocol for the identification of micro-organisms associated with wastewater particles and flocs.Molecular indications of protein damage in adenoviruses after UV disinfection.Assessment of DNA damage and repair in Mycobacterium terrae after exposure to UV irradiation.Photocatalytic-based inactivation of E. coli by UV 282 nm XeBr Excilamp.Wavelength dependent UV inactivation and DNA damage of adenovirus as measured by cell culture infectivity and long range quantitative PCR.A qualitative comparative analysis of well-managed school sanitation in Bangladesh.Action spectra for validation of pathogen disinfection in medium-pressure ultraviolet (UV) systems.UV disinfection of adenoviruses: molecular indications of DNA damage efficiency.Photooxidation and subsequent biodegradability of recalcitrant tri-alkyl phosphates TCEP and TBP in waterUltraviolet photolysis of chlorpyrifos: developmental neurotoxicity modeled in PC12 cells.Temporal characterization of flowback and produced water quality from a hydraulically fractured oil and gas well.Characterization of hydraulic fracturing flowback water in Colorado: implications for water treatment.Inactivation of adenovirus using low-dose UV/H2O2 advanced oxidation.Inactivation of murine norovirus, feline calicivirus and echovirus 12 as surrogates for human norovirus (NoV) and coliphage (F+) MS2 by ultraviolet light (254 nm) and the effect of cell association on UV inactivation.Enhanced UV inactivation of adenoviruses under polychromatic UV lamps.Assessing point-of-use ultraviolet disinfection for safe water in urban developing communities.Experimental measurements of fluence distribution in a UV reactor using fluorescent microspheres.Evaluating UV-C LED disinfection performance and investigating potential dual-wavelength synergy.Application of metabolite profiling tools and time-of-flight mass spectrometry in the identification of transformation products of iopromide and iopamidol during advanced oxidation.Photolysis, oxidation and subsequent toxicity of a mixture of polycyclic aromatic hydrocarbons in natural waters.Advanced oxidation kinetics of aqueous trialkyl phosphate flame retardants and plasticizers.Photoreactivation of bacteriophages after UV disinfection: role of genome structure and impacts of UV source.Phototransformation of selected organophosphorus pesticides: roles of hydroxyl and carbonate radicalsPhotochemical fate of solvent constituents of Corexit oil dispersants.Aqueous photodegradation and toxicity of the polycyclic aromatic hydrocarbons fluorene, dibenzofuran, and dibenzothiophene.Identifying the factors that influence the reactivity of effluent organic matter with hydroxyl radicals.UV disinfection of indigenous aerobic spores: implications for UV reactor validation in unfiltered waters.Demonstration and evaluation of germicidal UV-LEDs for point-of-use water disinfection.UV/H(2)O(2) treatment of drinking water increases post-chlorination DBP formation.Relationship between physiochemical properties, aggregation and u.v. inactivation of isolated indigenous spores in water.Reactivation of Giardia lamblia cysts after exposure to polychromatic UV light.Demonstrating sucralose as a monitor of full-scale UV/AOP treatment of trace organic compounds.Degradation pathways of lamotrigine under advanced treatment by direct UV photolysis, hydroxyl radicals, and ozone.Impact of lamp shadowing and reflection on the fluence rate distribution in a multiple low-pressure UV lamp array.Degradation of the pharmaceutical metronidazole via UV, Fenton and photo-Fenton processes.Impact of UV disinfection combined with chlorination/chloramination on the formation of halonitromethanes and haloacetonitriles in drinking water.Spectral sensitivity of Bacillus subtilis spores and MS2 coliphage for validation testing of ultraviolet reactors for water disinfection.Treatment of volatile organic chemicals on the EPA Contaminant Candidate List using ozonation and the O3/H2O2 advanced oxidation process.
P50
Q30659004-7A1A53CB-9CC6-4474-A4F6-68332AF5FFB1Q31009142-46030342-AFBE-490E-82A5-93A32E0C897CQ33372379-7BE16D5F-A334-4E2D-A216-FC5D6601BE86Q34528689-27F2E323-7893-4286-9751-0658B051FC43Q34573788-F37E9B93-BB08-40B6-BBA9-7E313BE8F85BQ34943300-BB9B2BB0-C2DC-4389-94F8-C7A051C18078Q35050849-BA4CB90C-9AEC-41B4-BDDB-F9E4B6C6077CQ35084448-3D1A4354-D6FB-4849-88B2-809C385C1004Q35519612-FB61290A-8C70-4023-9E3F-65DED344A4F8Q37032941-4FAD42AA-17C5-449C-85CD-E5FBFD362082Q37136615-0F2B0A35-AA1B-41B8-AE4A-86CAD324AACDQ37142287-976FCF26-19B6-48AC-A35F-D8C4C9C3117FQ38690204-D98090B7-9BA4-49FD-9FB6-8EF7DC52972DQ39042436-8877A86C-C878-4960-8A5C-0767923EA928Q39265116-B7221439-DA72-4FAE-BDA0-4B7261EFA71CQ39610912-B44B0CBB-1E1C-43DD-932E-F68115BB3679Q40164440-62B1A2AA-44D3-46E4-9607-8F22889B86EFQ40241232-EC7C59CF-1A06-4492-9CCE-37708B5B3BA5Q40368143-E4A420F8-F04D-4CDC-8A02-5D5C0B9A383AQ40456157-62AD68AB-0709-4CBF-B96C-3F199CEDE22BQ41479956-73A63413-5D0E-42C2-9191-74CCECF51055Q41906909-938E1F5E-02E6-41DB-9F70-AE5556A8A227Q42150653-A505B8D3-AE40-402F-B52F-C5EBE4C5313EQ42232954-5BF18DA7-1591-40BB-ACA0-7717A1448125Q42579278-D77CF684-63DA-41A7-970E-AA4670E9145BQ42639600-C962EFFA-0F23-44E9-A844-BD2784A0E6C1Q42775817-50D2FE12-61F8-46AA-BAE7-BE52E36B35DDQ43309082-0C036C9D-5237-4AE6-A30C-77403500F4F4Q43312150-78CB3A9B-750D-4853-9BD0-5A9737A37EFCQ43316072-FEAEEAF9-C1F6-49E6-BCDB-78F5FBBDD1B9Q43317245-2F8F0D41-0A12-453D-85A7-442E41F46A93Q43318385-AA52F15A-0454-4EA0-8C49-AC75A7397A27Q43320020-B55A202B-E3E8-4A9B-92E6-0C4C9623E3BCQ43321987-6B96C3CA-B393-4E90-968B-B94357FBC975Q43322054-CDF2C7C0-7D00-4BF8-9108-DDA48AC30523Q43323881-C5729B18-3A6C-44B0-A60E-D031A60AD1FDQ43326714-2A52C30C-8554-4896-8DE5-336B70BEFCA6Q43327512-E4316187-EE50-4A73-8318-CB961DEBCB67Q43329115-5A83C18D-8F5E-4015-B48C-E27B3FD28A5CQ43334498-1AD3FF43-1A32-4554-8D35-1FE55B1B1660
P50
description
hulumtues
@sq
researcher
@en
wetenschapper
@nl
հետազոտող
@hy
name
Karl G. Linden
@ast
Karl G. Linden
@en
Karl G. Linden
@es
Karl G. Linden
@nl
Karl G. Linden
@sl
type
label
Karl G. Linden
@ast
Karl G. Linden
@en
Karl G. Linden
@es
Karl G. Linden
@nl
Karl G. Linden
@sl
prefLabel
Karl G. Linden
@ast
Karl G. Linden
@en
Karl G. Linden
@es
Karl G. Linden
@nl
Karl G. Linden
@sl
P108
P106
P1153
7006217064
P21
P31
P496
0000-0003-4301-7227