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Name: |
Dr MI Newton |
Organisation: |
Nottingham Trent University |
Department: |
School of Science & Technology |
Current EPSRC-Supported Research
Topics: |
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Current EPSRC Support |
There is no current EPSRC Support |
Previous EPSRC Support |
EP/R042276/1 | Dynamic Dewetting: Designing and Breaking Novel Morphologies of Liquid Films | (C) |
EP/L026341/1 | Lubricating Channel and Tube Flows - Fluid Sheathing using Textured Walls | (P) |
EP/K015192/1 | Dielectrowetting: Controlling Oleo- and Hydrophilicity and Shaping Liquid Surfaces | (C) |
EP/I016414/1 | Smart Materials - Designing for Functionality | (C) |
EP/H000704/1 | Particle based superhydrophobic surfaces: Lab models-to-field sample behaviour | (C) |
EP/G057265/1 | Engineering of surfaces for drag reduction in water with validation using computational and experimental methods | (C) |
EP/E063489/1 | Exploiting the solid-liquid interface | (C) |
EP/E043097/1 | Enhancing Water Sports Performance | (C) |
EP/D03826X/1 | An Integrated, Single Pass Analysis Chip for Ionic Liquids | (C) |
EP/C536630/1 | Next Generation Love Waves | (C) |
EP/D500826/1 | Drag Reduction & Slip at Solid-Liquid interfaces | (C) |
GR/T24524/01 | Acoustic wave technique to assess MHC-peptide interactions | (C) |
EP/C509161/1 | Extreme Soil Water Repellency | (C) |
GR/S34168/01 | Voltage switchable super-hydrophobicity | (C) |
GR/R36718/01 | Measurement of atmospheric particulate matter using surface acoustic wave devices | (P) |
GR/R02184/01 | Systematic Physical and Chemical Design of Surfaces With Controlled Super-Hydrophobicity/Hydrophility | (C) |
GR/L82090/01 | SURFACE ACOUSTIC WAVE-LIQUID INTERACTIONS | (C) |
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Key: (P)=Principal Investigator, (C)=Co-Investigator, (R)=Researcher Co-Investigator
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