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[1].  Highly Efficient Deep-Blue Electrophosphorescence Enabled by Solution-Processed Bipolar Tetraarylsilane Host with Both a High Triplet Energy and a High-Lying HOMO Level.  ADVANCED MATERIALS.  23 (42).  2011. 
[2].  Extension of Molecular Structure toward Solution-Processable Hosts for Efficient Blue Phosphorescent Organic Light-Emitting Diodes.  JOURNAL OF PHYSICAL CHEMISTRY C.  117 (1).  2013. 
[3].  High-performance blue and green electrophosphorescence achieved by using carbazole-containing bipolar tetraarylsilanes as host materials.  JOURNAL OF MATERIALS CHEMISTRY.  21 (30).  2011. 
[4].  Highly Efficient Simple-Structure Blue and All-Phosphor Warm-White Phosphorescent Organic Light-Emitting Diodes Enabled by Wide-Bandgap Tetraarylsilane-Based Functional Materials.  ADVANCED FUNCTIONAL MATERIALS.  24 (36).  2014. 
[5].  Bipolar Tetraarylsilanes as Universal Hosts for Blue, Green, Orange, and White Electrophosphorescence with High Efficiency and Low Efficiency Roll-Off.  ADVANCED FUNCTIONAL MATERIALS.  21 (6).  2011. 
[6].  High-Power-Efficiency Blue Electrophosphorescence Enabled by the Synergistic Combination of Phosphine-Oxide-Based Host and Electron-Transporting Materials.  CHEMISTRY OF MATERIALS.  26 (3).  2014. 
[7].  Solution-Processed Double-Silicon-Bridged Oxadiazole/Arylamine Hosts for High-Efficiency Blue Electrophosphorescence.  CHEMISTRY OF MATERIALS.  24 (16).  2012. 
[8].  Tuning the Photophysical Properties and Energy Levels by Linking Spacer and Topology between the Benzimidazole and Carbazole Units: Bipolar Host for Highly Efficient Phosphorescent OLEDs.  JOURNAL OF PHYSICAL CHEMISTRY C.  114 (11).  2010. 
[9].  Simple CBP isomers with high triplet energies for highly efficient blue electrophosphorescence.  JOURNAL OF MATERIALS CHEMISTRY.  22 (7).  2012. 
[10].  Efficient phosphorescent polymer light-emitting diodes by suppressing triplet energy back transfer.  CHEMICAL SOCIETY REVIEWS.  41 (14).  2012. 
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