Jacek B. Jasinski works mostly in the field of Citation, limiting it down to concerns involving World Wide Web and, occasionally, Download. Sapphire and Picosecond are the two main areas of interest in his Laser studies. He combines topics linked to Laser with his work on Sapphire. Reduction (mathematics) and Surface (topology) are all intertwined in Geometry research. Many of his studies on Surface (topology) involve topics that are commonly interrelated, such as Geometry. The study of Carrier lifetime and Deep-level transient spectroscopy are components of his Silicon research. His Deep-level transient spectroscopy study frequently draws connections to adjacent fields such as Metallurgy. His study connects Arsenic and Metallurgy. With his scientific publications, his incorporates both Arsenic and Silicon.
Other disciplines of study, such as Transmission electron microscopy and Molecular physics, are mixed together with his Nanotechnology studies. By researching both Transmission electron microscopy and Diffraction, Jacek B. Jasinski produces research that crosses academic boundaries. In his articles, Jacek B. Jasinski combines various disciplines, including Diffraction and Electron diffraction. He performs multidisciplinary studies into Molecular physics and Nanotechnology in his work. He regularly links together related areas like Doping in his Optoelectronics studies. Much of his study explores Doping relationship to Optoelectronics. Jacek B. Jasinski performs integrative Optics and Quantum mechanics research in his work. His work blends Quantum mechanics and Optics studies together. His research is interdisciplinary, bridging the disciplines of Dislocation and Composite material.
His study on Oceanography is mostly dedicated to connecting different topics, such as Substrate (aquarium). His Substrate (aquarium) study frequently intersects with other fields, such as Oceanography. As part of his studies on Particle (ecology), he often connects relevant areas like Ecology. Ecology is closely attributed to Particle (ecology) in his research. Jacek B. Jasinski performs integrative study on Diode and Schottky diode in his works. His work often combines Schottky diode and Schottky barrier studies. In his work, Jacek B. Jasinski performs multidisciplinary research in Schottky barrier and Diode. His research is interdisciplinary, bridging the disciplines of Optoelectronics and Wide-bandgap semiconductor. His research is interdisciplinary, bridging the disciplines of Wide-bandgap semiconductor and Optoelectronics.
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Structural Evolution of Zeolitic Imidazolate Framework-8
Surendar R. Venna;Jacek B. Jasinski;Moises A. Carreon.
Journal of the American Chemical Society (2010)
Fluorescence Manipulation by Gold Nanoparticles: From Complete Quenching to Extensive Enhancement
Kyung A Kang;Jianting Wang;Jacek B Jasinski;Samuel Achilefu.
Journal of Nanobiotechnology (2011)
Recent advances in synthesis, properties, and applications of phosphorene
Meysam Akhtar;George Anderson;Rong Zhao;Adel Alruqi.
npj 2D Materials and Applications (2017)
Phase-change recording medium that enables ultrahigh-density electron-beam data storage
G.A. Gibson;A. Chaiken;K. Nauka;C.C. Yang.
Applied Physics Letters (2005)
Donor and acceptor concentrations in degenerate InN
David C. Look;H. Lu;William J. Schaff;J. Jasinski.
Applied Physics Letters (2002)
Efficient hydrogen evolution in transition metal dichalcogenides via a simple one-step hydrazine reaction.
Dustin R. Cummins;Ulises Martinez;Andriy Sherehiy;Rajesh Kappera;Rajesh Kappera.
Nature Communications (2016)
Fluorine‐Enabled Cationic Gold Catalysis: Functionalized Hydration of Alkynes
Weibo Wang;Jacek Jasinski;Gerald B. Hammond;Bo Xu.
Angewandte Chemie (2010)
Quantized Growth of CdTe Quantum Dots; Observation of Magic-Sized CdTe Quantum Dots
Pinar Dagtepe;Viktor Chikan;Jacek Jasinski;Valerie J. Leppert.
Journal of Physical Chemistry C (2007)
Surface properties of SnO2nanowires for enhanced performance with dye-sensitized solar cells
Suresh Gubbala;Harry B. Russell;Hemant Shah;Biswapriya Deb.
Energy and Environmental Science (2009)
Inversion domains in AlN grown on (0001) sapphire
J. Jasinski;Z. Liliental-Weber;Q. S. Paduano;D. W. Weyburne.
Applied Physics Letters (2003)
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