Chemical measurement
Subordinate Areas
- Analytical Science
- Acoustic Analysis
- Acoustic Wave Spectroscopy
- Affinity Chromatography
- Analytical Biosensors
- Analytical Photochemistry
- Atomic Spectroscopy
- Capillary Electrophoresis (CE)
- Catalytic analytical methods
- Chemical Coupling Techniques
- Chemical Data Analysis
- Chemical Sampling Technologies
- Chiral Chromatography
- Dichroism
- Dielectric Techniques
- Electroanalysis
- Electrochromatography
- Electrophoresis
- Ellipsometry
- EPR
- Fluorescence-based analytical techniques
- FT Mass Spectrometry
- Gas Chromatography
- Gas Sensors
- Gel permeation chromatography
- HPLC
- Immunoassay
- Ion Chromatography
- Ion Trap Mass spectrometry
- Laser Induced Mass Analysis
- Luminescence
- Mass Spectrometry
- Microwave analysis
- Nuclear Magnetic Resonance (NMR)
- Phosphorescence Analytical Techniques
- Photoelectron Spectroscopy
- Pore Size Analysis
- Raman Spectroscopy
- Scanning Probe Microscopy
- Scanning Tunnelling Microscopy (STM)
- Second Harmonic Generation Spectroscopy
- Sum Frequency Spectroscopy
- Thermal Analytical Methods
- Ultra Trace Analysis
- UV/Visible Spectroscopy
- Vibrational spectroscopy
- Chemical Structure
- Bio-inorganic Molecular Structure
- Charge Density
- Chemical Shifts
- Chemical X-ray Crystallography
- Chemical X-ray Diffraction
- Chemical X-ray Reflection
- Chemical X-ray Scattering
- Chiral Structure
- Crystal structure
- Electron Diffraction
- EXAFS
- Hydrogen Bonding
- Intermolecular Forces
- Isomers
- Neutron Diffraction
- Nuclear Quadrupole Resonance
- Nucleation process
- Polarisability
- Single Crystal Diffraction
- Solid-state NMR
- Spin Coupling
- Structure of Clusters
- Structure of Dyes
- Structure of Films
- Structure of Fullerenes
- Structure of Ice
- Structure of Micelles
- Structure of Pigments
- Instrumentation Engineering and Development
- Adaptive Optics
- Audiology
- CCD
- Chemical Biosensors
- Chemical Sensors
- Chemometrics Instrumentation
- Coherent Optics
- Crystallography Instrumentation
- Data Collection
- Data Fusion Instrumentation
- Diffractive Optics
- Electromagnetic Sensors
- Endocrinology
- ENT
- Environmental Sensors
- Functional Electrical Stimulation
- Functional Imaging Instrumentation
- Gas Sensors Instrumentation
- Genito-urinary Medicine
- Holography Instrumentation
- Impedance Sensors
- Infrared Imaging Instrumentation
- Infrared Sensor Instrumentation
- Intelligent Instrument
- Intensive Care
- Micro-optics
- Microscopy - Electron/Proton (SEM/TEM/proton)(Instrumentation)
- Microscopy - Optical
- Microscopy - Probe (AFM/STM/thermal)
- Optical Fibres
- Optical Sensors
- Optical Systems
- Optics - Sol-gel
- Physical Biosensors
- Positron Emission Tomography (PET)
- Pressure Sensors
- Process Tomography
- Process/Manufacturing Sensors
- Radionucleide Imaging Instrumentation
- Reactor Technology
- Real-time Monitoring
- Safe Handling
- Sensor Arrays
- Sensor Integration
- Structural Health Monitoring Sensors
- Tomography Instrumentation
- Ultrasound Instrumentation
- X-ray Imaging
Projects
Related Datasets
- A quantitative approach to predicting rate constants for aqueous racemization allows pointless stereoselective syntheses to be avoided - Ballard A, Buurma NJ (2017). Cardiff University. 10.17035/d.2017.0043106638. Chemical reaction dynamics and mechanisms Chemical synthesis Catalysis and surfaces Chemical measurement
- Computational timings of Traditional and Quasi-Variational Coupled-Cluster methods - Black JA, Knowles PJ (2017). Cardiff University. 10.17035/d.2017.0038224453. Chemical measurement Tools technologies and methods
- Single point energies and statistics for the CRBH20, BHPERI, DARC, ISOMER20, O3ADD6 and CRIEGEE databases - Black JA, Knowles PJ (2017). Cardiff University. 10.17035/d.2017.0038224181. Chemical measurement Tools technologies and methods
- Spectroscopic constants for third-row diatomics, calculated with single- and multi-reference methods - Black JA, Knowles PJ (2017). Cardiff University. 10.17035/d.2017.0038224345. Chemical measurement Tools technologies and methods
- The deposition of metal nanoparticles on carbon surfaces: the role of specific functional groups - Bowden B, Davies M, Davies P, et al. (2018). Cardiff University. 10.17035/d.2018.0045183226. Catalysis and surfaces Chemical measurement Atomic Force Microscopy (AFM) X-ray Photoelectron Spectroscopy (XPS)