A.R. Brown
A.R. Brown
Nexperia Semiconductors
Verified email at
Cited by
Cited by
Light-emitting diodes based on conjugated polymers
JH Burroughes, DDC Bradley, AR Brown, RN Marks, K Mackay, ...
nature 347 (6293), 539-541, 1990
Stability of n-type doped conducting polymers and consequences for polymeric microelectronic devices
DM De Leeuw, MMJ Simenon, AR Brown, REF Einerhand
Synthetic Metals 87 (1), 53-59, 1997
Chemical tuning of electroluminescent copolymers to improve emission efficiencies and allow patterning
PL Burn, AB Holmes, A Kraft, DDC Bradley, AR Brown, RH Friend, ...
Nature 356 (6364), 47-49, 1992
Molecular beam deposited thin films of pentacene for organic field effect transistor applications
CD Dimitrakopoulos, AR Brown, A Pomp
Journal of Applied Physics 80 (4), 2501-2508, 1996
Poly(p‐phenylenevinylene) light‐emitting diodes: Enhanced electroluminescent efficiency through charge carrier confinement
AR Brown, DDC Bradley, JH Burroughes, RH Friend, NC Greenham, ...
Applied Physics Letters 61 (23), 2793-2795, 1992
Field-effect transistors made from solution-processed organic semiconductors
AR Brown, CP Jarrett, DM De Leeuw, M Matters
Synthetic metals 88 (1), 37-55, 1997
Logic gates made from polymer transistors and their use in ring oscillators
AR Brown, A Pomp, CM Hart, DM De Leeuw
Science 270 (5238), 972-974, 1995
Chemical tuning of the electronic properties of poly (p-phenylenevinylene)-based copolymers
PL Burn, A Kraft, D Baigent, DDC Bradley, AR Brown, RH Friend, ...
Journal of the American Chemical Society 115 (22), 10117-10124, 1993
Optical spectroscopy of triplet excitons and charged excitations in poly (p-phenylenevinylene) light-emitting diodes
AR Brown, K Pichler, NC Greenham, DDC Bradley, RH Friend, ...
Chemical physics letters 210 (1-3), 61-66, 1993
Precursor route pentacene metal‐insulator‐semiconductor field‐effect transistors
AR Brown, A Pomp, DM de Leeuw, DBM Klaassen, EE Havinga, P Herwig, ...
Journal of Applied Physics 79 (4), 2136-2138, 1996
A universal relation between conductivity and field-effect mobility in doped amorphous organic semiconductors
AR Brown, DM De Leeuw, EE Havinga, A Pomp
Synthetic metals 68 (1), 65-70, 1994
Organic n-type field-effect transistor
AR Brown, DM De Leeuw, EJ Lous, EE Havinga
Synthetic metals 66 (3), 257-261, 1994
Bias-stress induced instability of organic thin film transistors
M Matters, DM De Leeuw, PT Herwig, AR Brown
Synthetic Metals 102 (1-3), 998-999, 1999
Electroluminescent devices
RH Friend, AB Holmes, DDC Bradley, PL Burn, A Kraft, AR Brown, ...
US Patent 5,807,627, 1998
Electroluminescence-detected magnetic-resonance study of polyparaphenylenevinylene (PPV)-based light-emitting diodes
LS Swanson, J Shinar, AR Brown, DDC Bradley, RH Friend, PL Burn, ...
Physical Review B 46 (23), 15072, 1992
Electroluminescence from multilayer conjugated polymer devices: spatial control of exciton formation and emission
AR Brown, NC Greenham, JH Burroughes, DDC Bradley, RH Friend, ...
Chemical physics letters 200 (1-2), 46-54, 1992
Electroluminescent device comprising a chromophoric polymeric composition
AB Holmes, A Kraft, PL Burn, SC Moratti, RH Friend, DDC Bradley, ...
US Patent 5,653,914, 1997
Semiconductive copolymers for use in luminescent devices
A Holmes, DD Bradley, RH Friend, A Kraft, P Burn, A Brown
US Patent 5,401,827, 1995
Semiconductive copolymers for use in luminescent devices
A Holmes, DD Bradley, RH Friend, A Kraft, P Burn, A Brown
US Patent 5,672,678, 1997
Electroluminescence in poly (3-alkylthienylene) s
NC Greenham, AR Brown, DDC Bradley, RH Friend
Synthetic metals 57 (1), 4134-4138, 1993
The system can't perform the operation now. Try again later.
Articles 1–20