Rachel C. Evans
Rachel C. Evans
Reader in Materials Chemistry. University of Cambridge
Verified email at cam.ac.uk
Cited by
Cited by
Coordination complexes exhibiting room-temperature phosphorescence: Evaluation of their suitability as triplet emitters in organic light emitting diodes
RC Evans, P Douglas, CJ Winscom
Coordination chemistry reviews 250 (15-16), 2093-2126, 2006
Towards efficient spectral converters through materials design for luminescent solar devices
B McKenna, RC Evans
Advanced Materials 29 (28), 1606491, 2017
All-conjugated polyelectrolyte block copolymers
A Gutacker, S Adamczyk, A Helfer, LE Garner, RC Evans, SM Fonseca, ...
Journal of Materials Chemistry 20 (8), 1423-1430, 2010
A novel luminescence-based colorimetric oxygen sensor with a “traffic light” response
RC Evans, P Douglas, JAG Williams, DL Rochester
Journal of fluorescence 16 (2), 201-206, 2006
Structure and “surfactochromic” properties of conjugated polyelectrolyte (CPE): Surfactant complexes between a cationic polythiophene and SDS in water
M Knaapila, RC Evans, VM Garamus, L Almásy, NK Székely, A Gutacker, ...
Langmuir 26 (19), 15634-15643, 2010
Cationic Polythiophene–Surfactant Self-Assembly Complexes: Phase Transitions, Optical Response, and Sensing
RC Evans, M Knaapila, N Willis-Fox, M Kraft, A Terry, HD Burrows, ...
Langmuir 28 (33), 12348-12356, 2012
Applied photochemistry
HD Burrow
Springer, 2013
Tuning the emission colour in mixed lanthanide microporous silicates: energy transfer, composition and chromaticity
RC Evans, LD Carlos, P Douglas, J Rocha
Journal of Materials Chemistry 18 (10), 1100-1107, 2008
Effects of heating and post-heating equilibration times on soil water repellency
SH Doerr, P Douglas, RC Evans, CP Morley, NJ Mullinger, R Bryant, ...
Soil Research 43 (3), 261-267, 2005
Harnessing self-assembly strategies for the rational design of conjugated polymer based materials
RC Evans
Journal of Materials Chemistry C 1 (27), 4190-4200, 2013
Design and response of high‐efficiency, planar, doped luminescent solar concentrators using organic–inorganic di‐ureasil waveguides
A Kaniyoor, B McKenna, S Comby, RC Evans
Advanced Optical Materials 4 (3), 444-456, 2016
Emission spectroscopy of uranium (IV) compounds: a combined synthetic, spectroscopic and computational study
E Hashem, AN Swinburne, C Schulzke, RC Evans, JA Platts, A Kerridge, ...
Rsc Advances 3 (13), 4350-4361, 2013
Chain confinement promotes β-phase formation in polyfluorene-based photoluminescent ionogels
RC Evans, PC Marr
Chemical Communications 48 (31), 3742-3744, 2012
Conjugated polyelectrolyte (CPE) poly [3-[6-(N-methylimidazolium) hexyl]-2, 5-thiophene] complexed with aqueous sodium dodecylsulfate amphiphile: synthesis, solution structure …
M Knaapila, RC Evans, A Gutacker, VM Garamus, NK Székely, U Scherf, ...
Soft Matter 7 (15), 6863-6872, 2011
Controlling the color space response of colorimetric luminescent oxygen sensors
RC Evans, P Douglas
Analytical chemistry 78 (16), 5645-5652, 2006
Cationic fluorene-thiophene diblock copolymers: Aggregation behaviour in methanol/water and its relation to thin film structures
A Gutacker, N Koenen, U Scherf, S Adamczyk, J Pina, SM Fonseca, ...
Polymer 51 (9), 1898-1903, 2010
Large area quantum dot luminescent solar concentrators for use with dye-sensitised solar cells
LJ Brennan, F Purcell-Milton, B McKenna, TM Watson, YK Gun'ko, ...
Journal of Materials Chemistry A 6 (6), 2671-2680, 2018
Fluorene Based Conjugated Polyelectrolyte/Silica Nanocomposites: Charge‐Mediated Phase Aggregation at the Organic–Inorganic Interface
RC Evans, AG Macedo, S Pradhan, U Scherf, LD Carlos, HD Burrows
Advanced Materials 22 (28), 3032-3037, 2010
Design and color response of colorimetric multilumophore oxygen sensors
RC Evans, P Douglas
ACS applied materials & interfaces 1 (5), 1023-1030, 2009
Solvent Dependent Assembly of a Polyfluorene− Polythiophene “Rod− Rod” Block Copolyelectrolyte: Influence on Photophysical Properties
M Knaapila, RC Evans, A Gutacker, VM Garamus, M Torkkeli, ...
Langmuir 26 (7), 5056-5066, 2010
The system can't perform the operation now. Try again later.
Articles 1–20