Publications
Found 226 results
Author [ Title] Type Year Filters: First Letter Of Last Name is S [Clear All Filters]
Layered Hybrid Lead Iodide Perovskites with Short Interlayer Distances." ACS Energy Letters 7 (2022).
"Ligand Coupling Symmetry Correlates with Thermopower Enhancement in Small-Molecule/Nanocrystal Hybrid Materials." ACS NANO 8 (2014): 10528-10536.
"Light-Switchable and Self-Healable Polymer Electrolytes Based on Dynamic Diarylethene and Metal-Ion Coordination." Journal of the American Chemical Society 143, no. 3 (2021): 1562-1569.
"Light-Switchable and Self-Healable Polymer Electrolytes Based on Dynamic Diarylethene and Metal-Ion Coordination." Journal of the American Chemical Society 143, no. 3 (2021): 1562-1569.
"Light-Switchable and Self-Healable Polymer Electrolytes Based on Dynamic Diarylethene and Metal-Ion Coordination." Journal of the American Chemical Society 143, no. 3 (2021): 1562-1569.
"Linking morphology and performance of organic solar cells based on decacyclene triimide acceptors." JOURNAL OF MATERIALS CHEMISTRY A 2 (2014): 1781-1789.
"Liquid-crystalline semiconducting polymers with high charge-carrier mobility." NATURE MATERIALS 5 (2006): 328-333.
"Liquid-crystalline semiconducting polymers with high charge-carrier mobility." NATURE MATERIALS 5 (2006): 328-333.
"Localized state effects in polymer thin film transistors." JOURNAL OF NON-CRYSTALLINE SOLIDS 338 (2004): 607-611.
"Localized state effects in polymer thin film transistors." JOURNAL OF NON-CRYSTALLINE SOLIDS 338 (2004): 607-611.
"Main-Group Halide Semiconductors Derived from Perovskite: Distinguishing Chemical, Structural, and Electronic Aspects." INORGANIC CHEMISTRY 56 (2017): 11-25.
"Materials and Novel Patterning Methods for Flexible Electronics." In FLEXIBLE ELECTRONICS: MATERIALS AND APPLICATIONS, edited by W.S. Wong and A. Salleo, 143-181. Electronic Materials Science and Technology. PO BOX 17, 3300 AA DORDRECHT, NETHERLANDS: SPRINGER, 2009.
"Materials and Novel Patterning Methods for Flexible Electronics." In FLEXIBLE ELECTRONICS: MATERIALS AND APPLICATIONS, edited by W.S. Wong and A. Salleo, 143-181. Electronic Materials Science and Technology. PO BOX 17, 3300 AA DORDRECHT, NETHERLANDS: SPRINGER, 2009.
"Materials, Processing, and Testing of Flexible Image Sensor Arrays." IEEE DESIGN & TEST OF COMPUTERS 28 (2011): 16-22.
"Materials requirements and fabrication of active matrix arrays of organic thin-film transistors for displays." CHEMISTRY OF MATERIALS 16 (2004): 4509-4521.
"Microstructural Characterization and Charge Transport in Thin Films of Conjugated Polymers." ADVANCED MATERIALS 22 (2010): 3812-3838.
"Micro-structural effects on the performance of poly(thiophene) field-effect transistors." In Organic Field-Effect Transistors V, edited by Z Bao and D.J. Gundlach, U46-U53. Vol. 6336. PROCEEDINGS OF THE SOCIETY OF PHOTO-OPTICAL INSTRUMENTATION ENGINEERS (SPIE) 6336. 1000 20TH ST, PO BOX 10, BELLINGHAM, WA 98227-0010 USA: SPIE, 2006.
"Microstructure formation in molecular and polymer semiconductors assisted by nucleation agents." NATURE MATERIALS 12 (2013): 628-633.
"Microstructure formation in molecular and polymer semiconductors assisted by nucleation agents." NATURE MATERIALS 12 (2013): 628-633.
"Microstructure formation in molecular and polymer semiconductors assisted by nucleation agents." NATURE MATERIALS 12 (2013): 628-633.
"Model-blind characterization of thin-film optical constants with momentum-resolved reflectometry." OPTICS EXPRESS 24 (2016): 28843-28858.
"Model-blind characterization of thin-film optical constants with momentum-resolved reflectometry." OPTICS EXPRESS 24 (2016): 28843-28858.
"Molecular rectification in a metal-insulator-metal junction based on self-assembled monolayers." JOURNAL OF THE AMERICAN CHEMICAL SOCIETY 124 (2002): 11730-11736.
"Mono- and Mixed-Valence Tetrathiafulvalene Semiconductors (TTF)BiI4 and (TTF)(4)BiI6 with 1D and OD Bismuth-Iodide Networks." INORGANIC CHEMISTRY 56 (2017): 395-401.
"Mono- and Mixed-Valence Tetrathiafulvalene Semiconductors (TTF)BiI4 and (TTF)(4)BiI6 with 1D and OD Bismuth-Iodide Networks." INORGANIC CHEMISTRY 56 (2017): 395-401.
"