about
Fabrication and Wettability Study of WO3 Coated Photocatalytic Membrane for Oil-Water Separation: A Comparative Study with ZnO Coated MembraneMonitoring and assessment of toxic metals in Gulf War oil spill contaminated soil using laser-induced breakdown spectroscopy.Identification of different kinds of plastics using laser-induced breakdown spectroscopy for waste management.Measurement of nutrients in green house soil with laser induced breakdown spectroscopy.Determination of toxic metals in petroleum, cultivated land and ore samples using laser-induced breakdown spectroscopy.Study of hazardous metals in iron slag waste using laser induced breakdown spectroscopy.Detection of contaminants in ore samples using laser-induced breakdown spectroscopy.Laser-enhanced photocatalytic degradation of organic pollutants from water using ZnO semiconductor catalyst.Laser photo-oxidative degradation of 4,6-dimethyldibenzothiophene.Rapid disinfection of E-Coliform contaminated water using WO3 semiconductor catalyst by laser-induced photo-catalytic process.Detection of toxic metals in waste water from dairy products plant using laser induced breakdown spectroscopy.Identification of different type of polymers in plastics waste.Photoacoustic spectrometry for trace gas analysis and leak detection using different cell geometries.Determination of poisonous metals in wastewater collected from paint manufacturing plant using laser-induced breakdown spectroscopy.Determination of trace elements in volcanic rock samples collected from cenozoic lava eruption sites using LIBS.Determination of trace metals using laser induced breakdown spectroscopy in insoluble organic materials obtained from pyrolysis of plastics waste.Laser-induced removal of a dye C.I. Acid Red 87 using n-type WO3 semiconductor catalyst.A study of laser-induced blue emission with nanosecond decay of silicon nanoparticles synthesized by a chemical etching method.Detection of hazardous pollutants in chrome-tanned leather using locally developed laser-induced breakdown spectrometer.Design, fabrication, and optimization of photo acoustic gas sensor for the trace level detection of NO2 in the atmosphere.Preparation of a MWCNT/ZnO nanocomposite and its photocatalytic activity for the removal of cyanide from water using a laser.Laser induced photocatalytic degradation of hazardous dye (Safranin-O) using self synthesized nanocrystalline WO3.Sensitivity enhancement at 594.8 nm atomic transition of Cl I for chloride detection in the reinforced concrete using LIBS.Laser-induced efficient reduction of Cr(VI) catalyzed by ZnO nanoparticles.GaN thin films growth and their application in photocatalytic removal of sulforhodamine B from aqueous solution under UV pulsed laser irradiation.Detection of chloride in reinforced concrete using a dualpulsed laser-induced breakdown spectrometer system: comparative study of the atomic transition lines of Cl I at 594.85 and 837.59 nm.Facile preparation of magnetic separable powdered-activated-carbon/Ni adsorbent and its application in removal of perfluorooctane sulfonate (PFOS) from aqueous solution.Pulsed laser-induced photocatalytic reduction of greenhouse gas CO2 into methanol: A value-added hydrocarbon product over SiC.Removal of sulfur compounds from diesel using ArF laser and oxygen.Nanocatalyst support of laser-induced photocatalytic degradation of MTBE.Facile preparation of g-C3N4 modified BiOCl hybrid photocatalyst and vital role of frontier orbital energy levels of model compounds in photoactivity enhancement.Detection of carcinogenic chromium in synthetic hair dyes using laser induced breakdown spectroscopy.Detection of trace elements in nondegradable organic spent clay waste using optimized dual-pulsed laser induced breakdown spectrometer.Study of factors governing oil-water separation process using TiO₂ films prepared by spray deposition of nanoparticle dispersions.Detection of carcinogenic metals in kidney stones using ultraviolet laser-induced breakdown spectroscopy.Synthesis of Gd2O3:Eu nanoplatelets for MRI and fluorescence imaging.Determination of carcinogenic fluorine in cigarettes using pulsed UV laser-induced breakdown spectroscopy.Insights into the growth of bismuth nanoparticles on 2D structured BiOCl photocatalysts: an in situ TEM investigation.Detection of toxic elements using laser-induced breakdown spectroscopy in smokers' and nonsmokers' teeth and investigation of periodontal parameters.Analysis of heterogeneous gallstones using laser-induced breakdown spectroscopy (LIBS) and wavelength dispersive X-ray fluorescence (WD-XRF).
P50
Q29994707-FDE55F6E-308A-4993-B696-A4C6A9B59909Q30830908-139A6F6D-B70A-4A4F-A3C3-A50CF7211D1AQ30835579-D9086012-B4DD-4FC2-A1ED-5D6FF24CEA8EQ33256503-B2A07BB4-51E8-4EC3-B631-2B4A0D7424FEQ33282540-3D5FA155-172F-4F0F-8569-436101A4744CQ33283415-C87292BA-5204-4260-BCF4-2C20D5E420A5Q33287161-2ED172D7-F458-4EA2-90C5-D2F25AB5E0EFQ33312471-4ED8FEAF-2139-4FA5-945A-DDE41EA52816Q33321747-82C89669-D4F0-4E10-A824-3B8113EC5094Q33322895-00EF5922-58DB-462B-9CD2-3838FC8F82A4Q33328516-B4063DAE-9597-4631-B3D9-CA24334F9471Q33353409-5C7FF551-6F66-4A22-89B0-E1112CCD94B6Q33381020-691B11AF-D894-4F35-A26F-AFF5B460BE29Q33391874-EA8C2577-8F14-4CCE-9F13-F0D30BCF26DEQ33412197-1C32531B-A9A8-4B7F-92BD-76F61DDBDE6CQ33440691-7E891CF4-E3DC-4A84-9D4F-B785B76D1CD5Q33470977-EC1D1840-6DA5-48DB-A5C9-F777EA3F1FC5Q33492712-89511A49-981B-4D57-A010-C0A9B609D960Q33607918-AF653FA2-4740-4BA1-BAA6-63A2D8423F38Q33643079-7C14832C-B0DF-4998-BD36-FB62C553131FQ33747397-181610A8-EE0C-4D8A-BAF6-F069E20CE9FEQ33777830-525BBB7C-5F3F-42B1-BD2C-591E955B601AQ33795038-882AA1C6-8033-4260-B9E0-BCEDEF2558E9Q33804662-F058556C-545C-4F45-99A8-F76748807E14Q33842460-D831D028-AD71-48AD-A87C-1AA1354E0852Q33956880-FC7E543E-B516-4EA4-8E94-799FA51D3E4EQ34036056-5F4C1BD8-3787-4CF1-895C-A20F5BE30B47Q34306166-21FCF84A-9999-46F5-A830-79903C30EBA3Q34943286-95CAFFA9-F1A3-497C-81AF-5F62D59BBB08Q35015358-70EE970F-DF8D-4073-9929-4EC8211D22A4Q35076438-8765A82F-A2BE-4DD6-A406-2BF2DB451AE5Q35129408-11278905-FBB1-4A36-A77F-041D9615465DQ35129415-3A35667E-FD8B-4F2E-B74C-86D5A0E22E58Q35212597-2270714F-4EC2-4A3F-B440-2225659AF9D8Q35629291-B0A18A33-9FD8-494D-91A8-3BBFE031E872Q35661682-80D30E12-241B-4DD0-9162-99C5B56950DCQ35699257-9ED62DD3-505B-4723-822D-1B9F986F29F5Q35747526-4D5D42A3-C3DD-476C-8946-239B5EC7A932Q35774412-5B9D01E5-C840-49C7-A20D-16692DA43483Q35926218-96DA4D6F-1D5F-4B71-8A7E-3DCB2AEF5FF9
P50
description
hulumtues
@sq
onderzoeker
@nl
researcher
@en
հետազոտող
@hy
name
Mohammed A Gondal
@ast
Mohammed A Gondal
@en
Mohammed A Gondal
@es
Mohammed A Gondal
@sl
type
label
Mohammed A Gondal
@ast
Mohammed A Gondal
@en
Mohammed A Gondal
@es
Mohammed A Gondal
@sl
altLabel
Mohammad A Gondal
@en
Mohammed A Gondal,
@en
Mohammed Ashraf Gondal,\
@en
Muhammed A Gondal
@en
prefLabel
Mohammed A Gondal
@ast
Mohammed A Gondal
@en
Mohammed A Gondal
@es
Mohammed A Gondal
@sl
P1053
A-9249-2010
P106
P21
P31
P3829
P496
0000-0001-9570-4569