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    1. Electron Microscopy Laboratory:

     

    1.1.      Scanning Electron Microscopy coupled with Energy Dispersive X-ray (SEM/EDX) Spectroscopy

     

     

    Nova Nano SEM 450 and Quanta 200 SEM

     

    In scanning electron microscopy (SEM), a highly energetic and focused electron beam scans the sample and normally provides an extremely enlarged image of the morphology of the sample, as well as information on its chemical composition using an energy dispersive spectrometer (EDS) detector. SEM-EDS is mainly used for the characterization of materials, but lately, its application has been extended to study organic-based specimens.

    1.1.1. Applications:

     

    • Detection and analysis of surface fractures.
    • Examination of surface contaminations.
    • Providing information in the microstructure.
    • Revelations of spatial variations in chemical compositions.
    • Wide applications in life science, biology, gemology, medical, forensic science, and metallurgy.

     

     

    Instrument

    Manufacture

    Model

    Location

    Person in charge

    Nova Nano Scanning Electron Microscopy with Bruker EDX Detector

    FEI

    Nova Nano SEM 450

    BCR Building - Corridor 4 - D114

    Mr. Essam Shabaan Mohamed Attia

    Senior Chemist

     Email: e.attia@qu.edu.qa 

    Phone No 4403-3937

    Quanta 200 Environmental Scanning Electron Microscope (ESEM) with EDAX-EDS

    FEI

    FEI Quanta 200 ESEM

    BCR Building - Corridor 4 - D114

    1.2.      Transmission Electron Microscopy (TEM)

      FEI TECNAI G2 TEM, TF20

     

     

                                                    

    TEM Microscopy technique whereby a beam of electrons is transmitted through an ultra-thin specimen, interacting with the specimen of the electrons transmitted through the specimen; the image is magnified and focused onto an imaging device, such as a fluorescent screen, on a layer of photographic film, or to be detected by a sensor such as s CCD camera.

     

    1.2.1. Applications:

     

    • Different fields such as life sciences, nanotechnology, medical, biological, and material research, forensic analysis, gemology, and metallurgy as well as industry and education.
    • TEM provides topographical, morphological, compositional, and crystalline information.

     

     

    Instrument

    Manufacture

    Model

    Location

    Person in charge

    Transmission Electron Microscope (TEM)

     

    FEI

    TECNAI G2 TEM, TF20

    BCR Building - Corridor 4 - D113

    Mr. Nandagopal Sivadas Pothuvattil

    Research Assistant

     Email: npothuvattil@qu.edu.qa 

    Phone No: 4403-3938

     

    2. Elemental Analysis Laboratory

     

    2.1.      Elemental  Analyzer (CHNS/O)

     

                                          Flash 2000 Elemental Analyzer (CHNS/O)

     

    The analyzer is a combustion technique that determines the weight of percent carbon, hydrogen, sulfur, or oxygen in a variety of sample types.

    2.1.1. Applications:

     

    • Organic, Inorganic chemistry and Pharmaceutical    
    • Material Characterization                          
    • Environmental Analysis                                     
    • Agronomy and Marine Science                     
    • Petro Chemistry and Energy      
    • Human and animal sample                          
    • Isotopic analyses.

    Instrument

    Manufacture

    Model

    Location

    Person in charge

    CHNS % Organic Elemental Analyzer

    Thermo Fisher

    Flash 2000

    BCR Building - Corridor 3 - C113

    Dr. Ahmed Easa

     Lab Technician

    Email: ahmedaali@qu.edu.qa

    Phone No: 4403 6782

    % NC Soil Elemental Analyzer

    Thermo Fisher

    Flash 2000

    BCR Building - Corridor 3 - C113

     

    2.2.      TOC/TN Analyzer

    TOC/TN Analyzer Skalar Primacs MCS - Formacs CA16

     

    TOC is an indirect measure of organic molecules present in water and measured as carbon. One approach used to measure TOC involves subtracting the measured inorganic carbon (IC) from the measured total carbon (TC).

    2.2.1.  Applications:

     

    • Drinking water                                 • Wastewater
    • Surface water                                  • Seawater
    • High saline waters                           • Process control
    • Pharmaceutical industry                  • Soil extracts

     

    Instrument

    Manufacture

    Model

    Location

    Person in charge

    Total Organic Carbon/Total Nitrogen Analyzer

    Skalar

    Primacs MCS - Formacs CA16

    BCR Building - Corridor 3 - C113

    Dr. Ahmed Easa

    Lab Technician

    Email: ahmedaali@qu.edu.qa

    Phone No: 4403 6782

     

    3.Thermal Analysis Laboratory

     

    3.1.      Thermo Gravimetric Analyzer (TGA) 

                                    

    TGA Perkin Elmer Pyris 6 TGA

     

    A technique in which the mass of the sample is monitored against time or temperature while the temperature of the sample, in a specified atmosphere.

    3.1.1. Application:

     

    • Ceramic application
    • Metal material application
    • Carbon capture
    • Polymer application
    • Pharmaceuticals
    • Food

     

    Instrument

    Manufacture

    Model

    Location

    Person in charge

    Thermogravimetric Analyzer (TGA)

    PerkinElmer

    Pyris 6 TGA

    BCR Building - Corridor 4 - D117

    Ms. Muneera Al-Qahtani

    Senior Lab Technician

    Email: mualqahtani@qu.edu.qa 

    Phone No: 4403 3935

     

    3.2.      Differential Scanning Calorimeter (DSC)

     

      (DSC) Perkin Elmer Jade DSC

     

     

    DSC is a thermos analytical technique used to study the thermal properties of the polymer using a differential scanning calorimeter. In this process, the difference for the heat required to increase the temperature of a sample and reference is measured as a function of temperature.

     

    3.2.1. Application:

     

    • DSC used in the study of liquid crystals
    • The study of the stability to oxidation of samples.
    • Used in the pharmaceutical and polymer industries.
    • Examination of polymers to check their composition.

     

    Instrument

    Manufacture

    model

    Location

        Person in charge

    Differential Scanning Calorimeter (DSC)

    PerkinElmer

    Jade DSC

    BCR Building - Corridor 4 - D117

    Ms. Muneera Al-Qahtani

    Senior Lab Technician

     Email: mualqahtani@qu.edu.qa 

    Phone No: 4403 3935

     

    3.3.      Thermogravimetric Analysis/Mass Spectrometry (TGA-MS) (TGA-MS) :

     

    (TGA-MS) TA SDTQ600

     

    Is a powerful technique that has been used for to characterize solid and liquid sample. Additional information about sample composition and thermal behavior can be obtained by analyzing the gases that leave the material as it is heated.

    3.3.1. Applications:

     

    • Ceramic application
    • Metal material application
    • Carbon capture
    • Polymer application
    • Pharmaceuticals
    • Food analysis

     

    Instrument

    Manufacture

    Model

    Location

    Person in charge

    Thermo Gravimetric Analyzer with Mass Spectrometry (TGA- MS)

    TA

    SDTQ600

    BCR Building - Corridor 4 - D117

    Ms. Muneera Al-Qahtani

    Senior Lab Technician

     Email: mualqahtani@qu.edu.qa Phone No: 4403 3935

     

    4. Molecular Spectroscopy Laboratory

     

    4.1.      Ultraviolet / Visible Spectrometer 

     

    (UV/VIS) Spectrometer, Lambda 25

     

    Ultraviolet and Visible Spectrometer is used to measure the intensity of light, and the intensity is proportional to the wavelength. UV is routinely used in analytical chemistry for the quantitative determination of different analyses.

    4.1.1. Applications:

     

    • Detection of the functional group.
    • Detection of the extent of conjugation.
    • Identification of an unknown compound.
    • Determination of configurations of geometrical isomers.
    • Determination of the purity of a substance.

     

    Instrument

    Manufacture

       Model

     Location

    Person in charge

     Ultraviolet-Visible (UV/VIS) Spectrometer

    PerkinElmer

    Lambda 25

    BCR Building - Corridor 3 - C113

    Eng. Sherin Abdel Fatah Mohammed

    Lab Technician

    Email: Sherin.a@qu.edu.qa 

    Phone No: 4403 3936

           

    4.2.      FTIR Spectrometer

                         

    FTIR Spectrometer, Spectrum 400 Perkin Elmer

     

    FTIR Spectrometer Is a technique used to obtain an infrared spectrum of absorption or emission of a solid, liquid, or gas. An FTIR spectrometer simultaneously collects high-spectral-resolution data over a wide spectral range. This confers a significant advantage over a dispersive spectrometer, which measures intensity over a narrow range of wavelengths at a time.

    4.2.1. Applications:

     

    • Materials Analysis                                   • Forensics
    • Pharmaceuticals                                      • Biomedical Research
    •  Academic Research                                • Biomaterials 

     

    Instrument

    Manufacture

    Model

    Location

    Person in charge

     Fourier Transform Infrared Spectroscopy (FTIR-NIR)

    PerkinElmer

    Spectrum 400

    BCR Building - Corridor 4 - D117

    Ms. Muneera Al-Qahtani

    Senior Lab Technician

    Email mualqahtani@qu.edu.qa 

    Phone No: 4403 3935

     

     

    4.3. Raman Spectrometer

    Raman Thermo Scientific DXR3

     

    Raman Spectrometer is one of the vibrational spectroscopic techniques used to provide information about molecular vibrations that can be used for sample identification and quantitation. This technique uses a laser light source to irradiate a sample and generates an infinitesimal amount of Raman scattered light, which is detected as a Raman spectrum using a CCD camera.

    4.3.1. Applications

     

    • Measurement of stress.
    • Measurement of mid-range order of solid.
    • The water content of silicate glasses and minerals.
    • Phase transition and order-disorder transitions in minerals.
    • Speciation of water in glasses.

     

    Instrument

    Manufacture

         Model

     Location

    Person in charge

    Raman Microscope

    Thermo Fisher

    DXR Dispersive Raman

    BCR Building - Corridor 3 - C113

    Eng. Sherin Abdel Fatah

    Lab Technician

    Sherin.a@qu.edu.qa 

    4403 3936

     

     

    5. Chromatography Laboratory

     

    5.1.      Ion Chromatography (IC)

     


    Metrohm 850 Professional IC

     

    Ion chromatography (or ion-exchange chromatography) separates ions and polar molecules based on their affinity to the ion exchanger. It works on almost any kind of charged molecule. The ion chromatography in the Central Laboratories Unit can analyze Anions (Fluoride, Chloride, Bromide, Nitrate, Phosphate, Sulfate) and for cations (Lithium, Sodium, Ammonium, Potassium, Calcium, Magnesium).

     

    5.1.1. Applications

     

    • Determination of cations and anions
    • Drinking water analysis
    • Process water analysis 
    • Waste water analysis 
    • Extracts 
    • Digested solutions
    • Diluted fruit and vegetable juice analysis

    Instrument

    Manufacture

        Model

      Location

    Person in charge

    Ion Chromatography (IC)

    Metrohm

    850 Professional IC

    BCR Building - Corridor 3 - C114

    Mr. Ahmad Ali Ahmadi

    Chemist

    aahmadi@qu.edu.qa 

    4403 6614

    Mr. Mohammed Akkbik

    Senior Lab Technician

    m.akkbik@qu.edu.qa

     

    5.2.      Ultra-performance liquid chromatography (UPLC)

    UPLC Waters Acquity

     

    UPLC is a technique in analytical chemistry used to separate, identify, and quantify organic components in a mixture. Chromatography can be described as a mass transfer process involving adsorption. HPLC relies on pumps to pass a pressurized liquid and a sample mixture through a column filled with adsorbent, leading to the separation of the sample components. Detectors used of the UPLC in CLU are Ultra Violate Detector (TUV), Photo Diode Array Detector (PDA), Fluorescence Detector (FLD), and Evaporative Light Scattering Detector (ELSD).

     

    5.2.1. Applications

     

    • Determination of Pesticides in Groundwater.
    • Multi-Residue Analysis of Pharmaceuticals in Waste Water.
    • Analysis of Contaminants in Foodstuffs.
    • During the drug development process, toxicity issue causes a fall out of drug candidates and this causes monetary loss to the organization.

     

    Instrument

    Manufacture

      Model

         Location

    Person in charge

     Ultra Performance Liquid Chromatography (UPLC)

    Waters

    Acquity

    BCR Building - Corridor 3 - C114

    Mr. Ahmad Ali Ahmadi

    Chemist

    aahmadi@qu.edu.qa 

    4403 6614

    Mr. Mohammed Akkbik

    Senior Lab Technician

    m.akkbik@qu.edu.qa

     

    5.3.      Liquid chromatography Tandom Mass LC-MS/MS

     

    (LC-MS/MS) Agilent Technologies 6460

     

     

     

    Liquid chromatography-mass spectrometry (LC-MS/MS) is an analytical chemistry technique that combines the physical separation capabilities of liquid chromatography or HPLC with the mass analysis capabilities of mass spectrometry (MS). Coupled chromatography - MS systems are popular in chemical analysis because the individual capabilities of each technique are enhanced synergistically. Wide applications are capable of the LC-MS/MS, which can analyze samples with high detection sensitivity.

    5.3.1.  Applications

     

    • Biomedical Applications.
    • Environmental Applications.
    • Biochemical Screening for Genetic Disorders.
    • Pharmaceuticals.
    • Therapeutic Drug Monitoring and Toxicology.
    • Vitamins and Related Metabolites.

     

    Instrument

    Manufacture

    Model

    Location

    Person in charge

    Liquid Chromatography Tandom Mass LC-MS/MS

    Agilent

    Agilent Technologies 6460

    BCR Building - Corridor 3 - C114

    Mr. Ahmad Ali Ahmadi

    Chemist

    aahmadi@qu.edu.qa 

    4403 6614

    Mr. Mohammed Akkbik

    Senior Lab Technician

    m.akkbik@qu.edu.qa

     

     

     

     

     

     

    5.4.      Gas Chromatography (GC-FID)

     

    Clarus 680 Gas Chromatography- PerkinElmer

     

    Gas Chromatography with a Flame ionization detector (GC-FID) is one of the most important instruments. Ionization detectors interact with solutes eluted from gas chromatography (GC) columns to produce a current that varies in proportion to the amount of solute present. FID is sensitive to molecules that are ionized in a hydrogen–air flame, including most carbon-containing compounds.

    5.4.1. Applications

     

    • Miscellaneous –analysis of food like carbohydrates, proteins, Lipids, Vitamins, steroids, drugs, and pesticides residues, trace elements.
    • Pollutants like formaldehyde, carbon monoxide, benzene, DDT.
    • Inorganic compound analysis.
    • Separation and identification of volatile materials, Plastics, natural and synthetic polymers, paints, and microbiological samples.

     

     

     

     

    Instrument

    Manufacture

            Model

      Location

       Person in charge

     Gas Chromatography (GC)

    PerkinElmer

    Clarus 680 Gas Chromatography

    BCR Building - Corridor 3 - C116

    Mr. Ahmad Ali Ahmadi

    Chemist

    aahmadi@qu.edu.qa 

    4403 6614

    Mr. Mohammed Akkbik

    Senior Lab Technician

    m.akkbik@qu.edu.qa

     

    6. Atomic Spectroscopy Laboratory

     

    6.1.      Inductively Coupled Plasma/ Mass Spectrometer (ICP/MS):

    ICP – MS PerkinElmer- NexIon 300 D

     

    Inductively coupled plasma mass spectrometry (ICP-MS) is a type of mass spectrometry that uses inductively coupled plasma to ionize the sample. It atomizes the sample and creates atomic and small polyatomic ions, which are then detected. It is known and used for its ability to detect metals and several non-metals in liquid samples at very low concentrations. It can detect different isotopes of the same element, which makes it a versatile tool in isotopic labeling.

     

    6.1.1. Applications

     

    • Water and wastewater treatment measurements,
    • Medical and forensic field, specifically, toxicology.
    • Geochemistry field for radiometric dating, in which for analyze the relative abundance of different isotopes.
    • Detecting inorganic impurities in pharmaceuticals.
    • Metal and semi-metal analysis in deionized water, chemicals, and on the wafer surface.
    • The applications include Environmental – Foods – Semiconductor – Clinical – Chemical/Petrochemical – Pharmaceutical – Consumer Goods – Forensic – Geological – Nuclear – Academic/Research

     

    Instrument

    Manufacture

      Model

    Location

                Person in charge

     Inductively Coupled Plasma Mass Spectrometry (ICP-MS)

     and Laser Ablation

    PerkinElmer

    NexIon 300 D

    BCR Building - Corridor 4 - D116

    Dr. Mohammad Ibrahim Ahmad

    Research Associate

    Mohammad.ibrahim@qu.edu.qa

     4403 5716

    Mr. Mohammad Sulaiman

    Lab Technician

    msulaiman@qu.edu.qa

     4403 3919

     

    6.2.      Inductively Coupled Plasma - Optical Emission (ICP- OES)

     

    ICP-OES PerkinElmer Optima 7300 DV

     

    Inductively Coupled Plasma Optical Emission Spectroscopy (ICP-OES) is an analytical technique used to determine how much certain elements are in a sample. The ICP-OES principle uses the fact that atoms and ions can absorb energy to move electrons from the ground state to an excited state.

    6.2.1 Applications

    • Soil, sediment, rocks, minerals, air analysis
    • Geochemistry researches
    • Mineralogical analysis
    • Agricultural analysis
    • Forestry analysis
    • Forensics analysis
    • Environmental sciences measurements
    • Food industry

     

    Instrument

    Manufacture

    Model

    Location

                Person in charge

     Inductively Coupled Plasma Optical Emission Spectroscopy (ICP-OES)

    PerkinElmer

    Optima 7300 DV

    BCR Building - Corridor 4 - D116

    Dr. Mohammad Ibrahim Ahmad

    Research Associate

    Mohammad.ibrahim@qu.edu.qa

     4403 5716

    Mr. Mohammad Sulaiman

    Lab Technician

    msulaiman@qu.edu.qa

     4403 3919

     

     

     

     

     

     

     

    6.3.      Microwave Digestion System

     

    MARS 6 - Microwave Digestion System

     

    Microwave digestion is an established technique that has been used for many years. Sample digestions are used to suspend samples in the liquid phase, as this facilitates trace metal analysis. Using a microwave digestion method provides two main benefits: Firstly, using microwave energy in a sealed vessel significantly increases the boiling point of an acid. This extra temperature means samples can be digested faster and more effectively. The other advantage is that it is impossible to completely digest some types of materials using just acids at atmospheric boiling points. In order to digest these types of materials, a higher temperature is necessary. Using the sealed container, as in microwave digestions, this is possible.

    6.3.1.  Applications

     

    • Sample preparation technique for metals, trace metals, and isotopic analysis in a different matrix.
    • Applied to a broad range of samples including soils, plastics, oils, pharmaceuticals, metals mining, wastewater, consumer products, foods & feed, environmental samples, petro & energy industry, and many more.

     

     

     

     

    Instrument

    Manufacture

    Model

    Location

           Person in charge

     Microwave Digestion System, One-Touch Technology

    CEM Corporation

    MARS 6

    BCR Building - Corridor 4 - D116

    Dr. Mohammad Ibrahim Ahmad

    Research Associate

    Mohammad.ibrahim@qu.edu.qa

     4403 5716

    Mr. Mohammad Sulaiman

    Lab Technician

    msulaiman@qu.edu.qa

     4403 3919

     

    7. Nuclear Magnetic Resonance Laboratory (NMR)

     

    NMR JEOL 600 MHz

     

     

     

    NMR spectrometer equipped with a broadband liquid probe, solid probe, and variable temperature (VT) unit. The NMR spectroscopy has become one of the essential and the most powerful analytical technologies in chemistry, especially in organic chemistry and organometallics, majorly for chemical structure identifications.

     

    7.1.      Applications

     

    • Determine the chemical synthesis and reaction monitoring.
    • Determine the molecular structures and dynamics.
    • Determine the molecular imaging.
    • Determine the agriculture and food industry.
    • Determine the polymers and solid materials.
    • Determine the low-throughput ligand screening.

     

     

    Instrument

    Manufacture

        Model

      Location

    Person in charge

    Nuclear Magnetic Resonance (NMR)

    JEOL

    JEOL 600 MHz

    BCR Building - Corridor 3 - C115

    Dr. Haw-Lih Su

    Research Associate

    hsu@qu.edu.qa

    4403 6776

    Eng. Sherin Abdel Fatah

    Lab Technician

    Sherin.a@qu.edu.qa

    4403 3936

     

     

     

     

     

     

     

    8. Liquid Nitrogen Generator 

    Cryogenic Liquid Nitrogen Generator LN2G

     

    An oil-free air compressor, internal PSA nitrogen generator combined with a Cryo-cooler, helium compressor, and internal Dewar all controlled through a color graphic HMI touch-screen and in-house designed control software gives a fully automated system at the touch of a button.

     

    8.1.      Applications

     

    • The freezing and transporting of food products
    • The cryopreservation of biological samples, such as sperm, eggs, and animal genetic samples
    • Use as a coolant for superconductors, vacuum pumps, and other materials and equipment
    • Use in cryotherapy to remove skin abnormalities
    • The shielding of materials from oxygen exposure
    • The quick freezing of water or pipes allow work on them
    • A source of extremely dry nitrogen gas
    • The molecular gastronomy preparation of unusual foods
    • The cooling of materials for easier machining or fracturing
    • Science projects, including making liquid nitrogen ice cream, creating nitrogen fog, and flash-freezing flowers and subsequently watching them shatter when tapped onto a hard surface.

     

     

     

    Instrument

    Manufacture

        Model

      Location

    Person in charge

    Liquid Nitrogen Generator LN2G

    Noblegen Cryogenics

    LN130

    Chemical Store Building

    Mr. Tageldin Elkhatat

    Laboratories Coordinator

    tageldin.elkhatat@qu.edu.qa

    4403 7397

    Dr. Ahmed Easa

    Lab Technician

    ahmedaali@qu.edu.qa

    4403 6782

     

    Spectroscopy the use of spectroscopes to analyze spectra More (Definitions, Synonyms, Translation)

    Chromatography a process used for separating mixtures by virtue of differences in absorbency More (Definitions, Synonyms, Translation)