Because the Wizarding World of Harry Potter is in two theme parks, you can visit either Diagon Alley or Hogsmeade, or you can visit both. The Universal Orlando Resort is really two theme parks: One is the Universal Studios Florida, where you will find Diagon Alley two is Islands of Adventure, where you will find Hogsmeade Village and Hogwarts Castle. Before I conjure tips, however, I am going to mention a few more things for those of you who may not know. Because the flying car was in the shop, we chose to fly with Virgin America, but that is another blog post. So, after channeling Hermione for a few days and making sure my local Gringotts had not been broken into, my Muggle husband and I finally made the trip to the Universal Orlando Resort in Florida in December. In my case, the price has always been planning: I do my best magic with a nice dollop of planning. All I needed was to work a little magic, and (borrowing shamelessly from a famous villain) to keep in mind that all magic, Dearie, comes with a price. Sirringhaus†, Two-Dimensional Carrier Distribution in Top-Gate Polymer Field-Effect Transistors: Correlation between Width of Density of Localized States and Urbach Energy, Advanced Materials, 26, 728–733, 2014.DOI: 10.1002/adma.I love the Harry Potter stories, have read all the books, have seen all the movies, but I never had the opportunity to visit the Wizarding World of Harry Potter. Sirringhaus†, Approaching Disorder-Free Transport in High-Mobility Conjugated Polymers, Nature, 515, 384–388, 2014. Sirringhaus†, Scanning Kelvin Probe Microscopy Investigation of the Role of Minority Carriers on the Switching Characteristics of Organic Field-Effect Transistors, Advanced Materials, 28, 4713–4719, 2016. Sirringhaus†*, Trap Healing for High-Performance Low-Voltage Polymer Transistors and Solution-Based Analog Amplifiers on Foil, Advanced Materials, 29, 1606938, 2017. Sirringhaus, Inkjet Printed Nanocavities on a Photonic Crystal Template, Advanced Materials, 29 (47), 1704425, 2017. Pecunia†*, Efficiency and Spectral Performance of Narrowband Organic and Perovskite Photodetectors: a Cross-Sectional Review, Journal of Physics: Materials, 2, 042001, 2019. Li, Perovskite-Inspired Lead-Free Ag2BiI5 for Self-Powered NIR-Blind Visible Light Photodetection, Nano-Micro Letters, 12:27, 2020. Pecunia†*, Microstructural and Photoconversion Efficiency Enhancement of Compact Films of Lead-Free Perovskite Derivative Rb3Sb2I9, Journal of Materials Chemistry A, 8, 4396–4406, 2020. Pecunia†*, Narrowband-Absorption-Type Organic Photodetectors for the Far-Red Range Based on Fullerene-Free Bulk Heterojunctions, Advanced Optical Materials, 1902056, 2020. Pecunia†*, Enhanced photoconversion efficiency in cesium-antimony-halide perovskite derivatives by tuning crystallographic dimensionality, Applied Materials Today, 19, 100637, 2020. Pecunia†*, Ambipolar Deep-Subthreshold Printed-Carbon-Nanotube Transistors for Ultralow-Voltage and Ultralow-Power Electronics, ACS Nano, 14, 10, 14036–14046, 2020. Peng, Lead-Free Halide Perovskite Photovoltaics: Challenges, Open Questions and Opportunities, APL Materials, 8(10), 100901, 2020. Hoye†, V.Pecunia†, Lead-Free Perovskite-Inspired Absorbers for Indoor Photovoltaics, Advanced Energy Materials, 11(1), 2002761, 2021. Sirringhaus, Assessing the Impact of Defects on Lead-Free Perovskite-Inspired Photovoltaics via Photo-Induced Current Transient Spectroscopy, Advanced Energy Materials, 11(22), 2003968, 2021. Hoye†, Emerging Indoor Photovoltaic Technologies for Sustainable Internet of Things, Advanced Energy Materials, 2100698, 2021. Pecunia*†, Two-Dimensional Antimony-Based Perovskite-Inspired Materials for High-Performance Self-Powered Photodetectors, Advanced Functional Materials, 2106295, 2021.
0 Comments
Leave a Reply. |
AuthorWrite something about yourself. No need to be fancy, just an overview. ArchivesCategories |