Electron Microscopy of Advanced Materials
Lead Research Organisation:
University of St Andrews
Department Name: Chemistry
Abstract
The electron microscopy laboratory at University of St Andrews, equipped with a JEOL JEM-2011 transmission electron microscope (TEM) and a JEOL JSM-5600 scanning electron microscope (SEM), was established in 1999 and has been furnished with major accessories including a MacTempas Image Simulation System, a Gatan 656 Dimple Grinder, a Gatan 691 Precision Ion Polishing System and a fully equipped darkroom. Both TEM and SEM have an Oxford Instruments energy-dispersive X-ray spectrometer. TEM images are normally recorded with a Gatan CCD camera and can be transferred to user's own computer through the university network. This laboratory will open for external users of UK academic institutions and industry in order to optimise the use of the equipment and to enhance the collaboration between researchers in different universities.One day per week for each microscope will be reserved for external users and the availability of the service will be marketed on the school website. The process of the service and arrangement of materials research projects will be monitored by an Advisory Committee led by the Vice Principal for Research, Professor Alan Miller with other members from several universities. Lecture course on electron microscopy and one-to-one training course can be offered under requirement.
Organisations
Publications
Al-Abdullah ZT
(2010)
The influence of hydroxide on the initial stages of anodic growth of TiO2 nanotubular arrays.
in Nanotechnology
Alharthi A
(2014)
Iron ochre - a pre-catalyst for the cracking of methane.
in Journal of chemical technology and biotechnology (Oxford, Oxfordshire : 1986)
Aqeel T
(2016)
Novel Direct Synthesis of Mesoporous Tin Dioxide Network Intact up to 500 °C
in Journal of Nano Research
Bikkarolla S
(2014)
A three-dimensional Mn 3 O 4 network supported on a nitrogenated graphene electrocatalyst for efficient oxygen reduction reaction in alkaline media
in J. Mater. Chem. A
Chen J
(2017)
Chemistry of Hydrolysis of FeCl 3 in the Presence of Phosphate to Form Hematite Nanotubes and Nanorings
in Crystal Growth & Design
Chen W
(2009)
Robust Antiferromagnetism and Structural Disorder in Bi x Ca 1- x FeO 3 Perovskites
in Chemistry of Materials
Chiang C
(2016)
Formation, crystal growth and colour appearance of Mimetic Tianmu glaze
in Ceramics International
Geng J
(2008)
Crystal structure and growth mechanism of unusually long fullerene (C60) nanowires.
in Journal of the American Chemical Society
Green A
(2017)
Growth Mechanism of Dendritic Hematite via Hydrolysis of Ferricyanide
in Crystal Growth & Design
Greer H
(2017)
Nanocone Decorated ZnO Microspheres Exposing the (0001) Plane and Enhanced Photocatalytic Properties
in Advanced Materials Interfaces
Greer H
(2016)
Dipole field driven morphology evolution in biomimetic vaterite
in CrystEngComm
Greer H
(2011)
Early stages of non-classic crystal growth
in Science China Chemistry
Greer H
(2017)
Reversed Crystal Growth of Calcite in Naturally Occurring Travertine Crust
in Crystals
Greer H
(2012)
Hidden crystalline components in mesoporous silicate
in Journal of Materials Chemistry
Greer H
(2015)
Phase transformation of Mg-calcite to aragonite in active-forming hot spring travertines
in Mineralogy and Petrology
Greer H
(2016)
Synthesis and Formation Mechanism of Textured MOF-5
in Crystal Growth & Design
Hill A
(2011)
Neutron powder diffraction and magnetic studies of mesoporous Co3O4
in Journal of Magnetism and Magnetic Materials
Huang WY
(2013)
Nanosegregation and neighbor-cation control of photoluminescence in carbidonitridosilicate phosphors.
in Angewandte Chemie (International ed. in English)
Jin X
(2007)
Nanoscale microelectrochemical cells on carbon nanotubes.
in Small (Weinheim an der Bergstrasse, Germany)
Liu S
(2017)
Metal-Organic-Framework-Derived Hybrid Carbon Nanocages as a Bifunctional Electrocatalyst for Oxygen Reduction and Evolution.
in Advanced materials (Deerfield Beach, Fla.)
Liu Z
(2015)
The role of surface hydrolysis of ferricyanide anions in crystal growth of snowflake-shaped a-Fe2O3.
in Chemical communications (Cambridge, England)
McMullan M
(2011)
Aptamer conjugated Mo6S9-I nanowires for direct and highly sensitive electrochemical sensing of thrombin
in Biosensors and Bioelectronics
Ritchie A
(2013)
Reversed crystal growth of rhombohedral calcite in the presence of chitosan and gum arabic
in CrystEngComm
Self K
(2016)
Surface Charge Driven Growth of Eight-Branched Cu 2 O Crystals
in Crystal Growth & Design
Self K
(2015)
Reversed Crystal Growth of RHO Zeolitic Imidazolate Framework (ZIF).
in Chemistry (Weinheim an der Bergstrasse, Germany)
Shang N
(2012)
Vertical graphene nanoflakes for the immobilization, electrocatalytic oxidation and quantitative detection of DNA
in Electrochemistry Communications
Shang NG
(2012)
Controllable selective exfoliation of high-quality graphene nanosheets and nanodots by ionic liquid assisted grinding.
in Chemical communications (Cambridge, England)
Sushil S
(2010)
Carbon deposition and phase transformations in red mud on exposure to methane.
in Journal of hazardous materials
Wainwright S
(2013)
True liquid crystal templating of SBA-15 with reduced microporosity
in Microporous and Mesoporous Materials
Wu S
(2017)
Formation Mechanism of CaCO3 Spherulites in the Myostracum Layer of Limpet Shells
in Crystals
Yu F
(2014)
One-step synthesis and shape-control of CuPd nanowire networks.
in Nanoscale
Yu F
(2014)
Surface ligand mediated growth of CuPt nanorods
in CrystEngComm
Yu F
(2015)
Facile Synthesis of (110)-Plane-Exposed Au Microflowers as High Sensitive Hydrogen Peroxide Sensors
in European Journal of Inorganic Chemistry
Zhao X
(2016)
Highly efficient synthesis of LTA-type aluminophosphate molecular sieve by improved ionothermal method
in New Journal of Chemistry
Zhao Y
(2011)
One-step synthesis of bismuth telluride nanosheets of a few quintuple layers in thickness.
in Angewandte Chemie (International ed. in English)
Zheng C
(2014)
Microstructural study of the formation mechanism of metal-organic framework MOF-5
in CrystEngComm
Zhou W
(2016)
What Can Electron Microscopy Tell Us Beyond Crystal Structures?
in European Journal of Inorganic Chemistry
Zhou W
(2012)
Electron microscopic studies of growth of nanoscale catalysts and soot particles in a candle flame
in Applied Petrochemical Research
Švrcek V
(2013)
Semiconducting quantum confined silicon-tin alloyed nanocrystals prepared by ns pulsed laser ablation in water.
in Nanoscale
Description | This service centre has been used by more than 100 researchers from more than 20 UK universities. Some joined publications are listed (not completed because many papers were published by the users). |
Exploitation Route | The services offered to the UK university users have certainly strengthened their research in solid state chemistry and materials science. The training of electron microscope users led to more than 20 independent operators. |
Sectors | Chemicals,Energy,Environment |
Description | This program offers free access to the electron microscopes at St Andrews. A large number of UK university researchers have been benefited. It is the most economic way to share large research facilities. Collaboration between groups and universities have been encouraged and a healthy research atmosphere was created. Almost all the users sent positive comments on the service and wished to see possible continuance of the project. |
First Year Of Impact | 2007 |
Sector | Chemicals,Energy,Environment |
Impact Types | Societal,Economic,Policy & public services |