Skip navigation

Browsing by Author Jou J.-H.

Jump to: 0-9 A B C D E F G H I J K L M N O P Q R S T U V W X Y Z
or enter first few letters:  
Showing results 1 to 20 of 31  next >
Issue DateTitleAuthor(s)
2017A new molecular design based on hybridized local and charge transfer fluorescence for highly efficient (>6%) deep-blue organic light emitting diodesKumar Konidena R.; Justin Thomas, K. R.; Kumar Dubey D.; Sahoo S.; Jou J.-H.
2020Asymmetrically 2,7-difunctionalized carbazole-based donor-acceptor hybrids for deep blue electroluminescence applicationsJoseph V.; Justin Thomas, K. R.; Sahoo S.; Singh M.; Jou J.-H.
2018Cyano-functionalized carbazole substituted pyrene derivatives for promising organic light-emitting diodesJoseph V.; Justin Thomas, K. R.; Sahoo S.; Singh M.; Jou J.-H.
2015Deep-blue emitting pyrene-benzimidazole conjugates for solution processed organic light-emitting diodesKarthik D.; Justin Thomas, K. R.; Jou J.-H.; Kumar S.; Chen Y.-L.; Jou Y.-C.
2021Effect of Cyano on the Functional Properties of Phenanthroimidazole-Substituted Carbazole DerivativesSharma A.; Thomas K.R.J.; Kesavan K.K.; Siddiqui I.; Ram Nagar M.; Jou J.-H.
2021Effect of positional isomerism on the functional properties of carbazole-phenanthroimidazole-triphenylamine triadsSharma A.; Justin Thomas, K. R.; Kesavan K.K.; Siddiqui I.; Nagar M.R.; Jou J.-H.
2018Enabling a 6.5% External Quantum Efficiency Deep-Blue Organic Light-Emitting Diode with a Solution-Processable Carbazole-Based EmitterJou J.-H.; Li J.-L.; Sahoo S.; Dubey D.K.; Kumar Yadav R.A.; Joseph V.; Justin Thomas, K. R.; Wang C.-W.; Jayakumar J.; Cheng C.-H.
2017Fine-Tuning of Photophysical and Electroluminescence Properties of Benzothiadiazole-Based Emitters by Methyl SubstitutionPathak A.; Justin Thomas, K. R.; Singh M.; Jou J.-H.
2020Fine-Tuning the Physicochemical and Electroluminescence Properties of Multiply-Substituted Bipolar Carbazoles by Functional Group JugglingKonidena R.K.; Justin Thomas, K. R.; Dubey D.K.; Sahoo S.; Jou J.-H.
2018Highly efficient deep-blue organic light emitting diode with a carbazole based fluorescent emitterSahoo S.; Dubey D.K.; Singh M.; Joseph V.; Justin Thomas, K. R.; Jou J.-H.
2015Highly efficient ultra-deep blue organic light-emitting diodes with a wet- and dry-process feasible cyanofluorene acetylene based emitterJou J.-H.; Kumar S.; Fang P.-H.; Venkateswararao A.; Justin Thomas, K. R.; Shyue J.-J.; Wang Y.-C.; Li T.-H.; Yu H.-H.
2017Manipulation of Donor–Acceptor Interactions in Carbazole-Based Emitters by Chromophore Choice To Achieve Near-UV EmissionJoseph V.; Justin Thomas, K. R.; Singh M.; Sahoo S.; Jou J.-H.
2017Multi-substituted deep-blue emitting carbazoles: a comparative study on photophysical and electroluminescence characteristicsKonidena R.K.; Justin Thomas, K. R.; Sahoo S.; Dubey D.K.; Jou J.-H.
2021Phenanthroimidazole-based bipolar carbazoles featuring cyano substituents to realize efficient deep-blue electroluminescence with an external quantum efficiency of nearly 6%Sharma A.; Thomas K.R.J.; Nagar M.R.; Jou J.-H.
2015Phenothiazine Decorated Carbazoles: Effect of Substitution Pattern on the Optical and Electroluminescent CharacteristicsKonidena R.K.; Justin Thomas, K. R.; Kumar S.; Wang Y.-C.; Li C.-J.; Jou J.-H.
2015Phenothiazine-based bipolar green-emitters containing benzimidazole units: Synthesis, photophysical and electroluminescence propertiesBodedla G.B.; Justin Thomas, K. R.; Kumar, Sandeep; Jou J.-H.; Li C.-J.
2015Plant growth absorption spectrum mimicking light sourcesJou J.-H.; Lin C.-C.; Li T.-H.; Li C.-J.; Peng S.-H.; Yang F.-C.; Justin Thomas, K. R.; Kumar D.; Chi Y.; Hsu B.-D.
2019Polarity tuning of fluorene derivatives by chromophores to achieve efficient blue electroluminescent materialsJustin Thomas, K. R.; Venkateswararao A.; Joseph V.; Kumar S.; Jou J.-H.
2012Pyrene-fluorene hybrids containing acetylene linkage as color-tunable emitting materials for organic light-emitting diodesJustin Thomas, K. R.; Kapoor N.; Bolisetty M.N.K.P.; Jou J.-H.; Chen Y.-L.; Jou Y.-C.
2013Pyrenoimidazole-based deep-blue-emitting materials: Optical, electrochemical, and electroluminescent characteristicsKumar D.; Justin Thomas, K. R.; Lin C.-C.; Jou J.-H.