prof jawwad darr
Contacts
- Prof
- Jawwad
- Arshad
- Darr
- Prof Jawwad Darr
- j.a.darr@ucl.ac.uk
- https://iris.ucl.ac.uk/iris/extResource/image/01/JDARR17
- 2007-05-01
Appointment
- ACAPRO
- 2007-05-01
- 1
- Professor of Chemistry
- ME
- Dept of Chemistry
- MPS
- Faculty of Maths & Physical Sciences
Joined UCL
- 2007-05-01
Research Summary
Research of Dr Darr's Clean Materials Technology Group (about 10 researchers at present) is concerned with the application of green principles and clean technologies for the rapid and efficient syntheses of nanoparticles or new inorganic materials. Our research is very applied and multidisciplinary covering chemistry, nanomaterials, high pressure engineering, supercritical fluids and automation. Dr Darr is currently leading two large EPSRC/industry funded consortia in nanomaterials discovery and scale-up engineering of nanomaterials, respectively.Research Activities
- 3644
- Biomaterials
- 3604
- Continuous Hydrothermal Flow Synthesis (CHFS); A fast and continuous method for making inorganic nanoparticles
- 3625
- High Throughput Nanoceramics Discovery [EPSRC Reference: EP/D038499/1]
- 1735
- Materials for hard and soft tissue regneration
- 3624
- Nanoceramics
- 3645
- Scale-up consortium [EPSRC Reference: EP/E040551/1]
- 3664
- Supercritical fluids (SCFs); general information
1 - 10 of 81 Publications
Gas Sensing with Nano-Indium Oxides (In2O3) Prepared via Continuous Hydrothermal Flow Synthesis
Journal article
Ref Type: Journal article
In situ variable temperature X-ray diffraction studies on the transformations of nano-precursors to La-Ni-O phases
Journal article
Ref Type: Journal article
Hybrid chemical vapour and nanoceramic aerosol assisted deposition for multifunctional nanocomposite thin films
Journal article
Ref Type: Journal article
Publisher: ELSEVIER SCIENCE SA
Numerical modelling of hydrothermal fluid flow and heat transfer in a tubular heat exchanger under near critical conditions
Journal article
Ref Type: Journal article
Publisher: ELSEVIER SCIENCE BV
High-throughput powder diffraction on beamline I11 at Diamond
Journal article
Ref Type: Journal article
Publisher: WILEY-BLACKWELL
Ref Type: Journal article
Publisher: ROYAL SOC CHEMISTRY
High-strength nanograined and translucent hydroxyapatite monoliths via continuous hydrothermal synthesis and optimized spark plasma sintering.
Journal article
Ref Type: Journal article
Continuous syntheses of highly dispersed composite nanocatalysts via simultaneous co-precipitation in supercritical water
Journal article
Ref Type: Journal article
Publisher: ELSEVIER SCIENCE BV
Data flow modeling, data mining and QSAR in high-throughput discovery of functional nanomaterials
Journal article
Ref Type: Journal article
Publisher: PERGAMON-ELSEVIER SCIENCE LTD
Modelling and simulation of continuous hydrothermal flow synthesis process for nano-materials manufacture
Journal article
Ref Type: Journal article
Additional Information
- CMR
Collaborators
- JCKNO52
- prof jonathan knowles
