Crystal growth
TLDR
This report introduces briefly some concepts and materials on crystal growth presented by Dr. Zhen-yu Zhang from the Oak Ridge (TN) National Laboratory, and Dr. En-ge Wang from the Institute of Physics, Chinese Academy of Sciences in a session on Crystal growth at the first Chinese-American Frontiers of Science Symposium.Abstract:
This report introduces briefly some concepts and materials on crystal growth presented by Dr. Zhen-yu Zhang from the Oak Ridge (TN) National Laboratory, and Dr. En-ge Wang from the Institute of Physics, Chinese Academy of Sciences, in a session on crystal growth at the first Chinese-American Frontiers of Science Symposium.
Crystal growth involves a variety of research fields ranging from surface physics, crystallography, and material sciences to condenser mater physics. Though it has been studied extensively more than 100 years, crystal growth still plays an important role in both theoretical and experimental research fields, as well as in applications. For example, how to growth ideal high Tc superconductor crystal has become an dominant subject both for testing of superconductor theories and physical properties. Furthermore, carbon 60 and carbon nano-tubes have opened a new field to both condensed mater physics and chemistry. From the recent discoveries in high Tc superconductors and C60, which brought the Nobel prize to the pioneer researchers in this field, one can understand the importance of crystal growth today.
As the development of scientific instruments and analytical methods, such as x-rays, electron microscopy, NMR, and scanning tunneling microscopy continues, research on crystal growth and structure characterization has entered an atomic level, which makes it possible for further understanding of the physical, chemical, and other properties of the structure nature of various crystals. Especially for the crystals with low dimension and nano-structures, such as carbon nanotubes, blue-light emitting GaN thin films, and magnetic multilayers with giant magneto-resistance, their abnormal properties that have great potential in application can be understood only with the knowledge of structure at the atomic level. Moreover, a further improvement of crystal quality also depends on the structure characterizations.
Based on its importance described above, crystal growth had been chosen as one of the topics …read more
Citations
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Ni(OH)2 Nanoplates Grown on Graphene as Advanced Electrochemical Pseudocapacitor Materials
TL;DR: Ni(OH)2 nanocrystals grown on graphene sheets with various degrees of oxidation are investigated as electrochemical pseudocapacitor materials for potential energy storage applications in this paper, where they exhibit a high specific capacitance of ∼1335 F/g at a charge and discharge current density of 2.8 A/g and ∼953 F/m at 45.7 A/m with excellent cycling ability.
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Optical excitations in electron microscopy
TL;DR: In this paper, a quantum-mechanical description of the interaction between the electrons and the sample is discussed, followed by a powerful classical dielectric approach that can be in practice applied to more complex systems.
Journal ArticleDOI
Crystal Growth of the Perovskite Semiconductor CsPbBr3: A New Material for High-Energy Radiation Detection
Constantinos C. Stoumpos,Christos D. Malliakas,John A. Peters,Zhifu Liu,Maria Sebastian,Jino Im,Thomas C. Chasapis,Arief Wibowo,Duck Young Chung,Arthur J Freeman,Bruce W. Wessels,Mercouri G. Kanatzidis +11 more
TL;DR: The perovskite compound CsPbBr3 as mentioned in this paper is a direct band gap semiconductor which meets most of the requirements for successful detection of X and γ-ray radiation, such as high attenuation, high resistivity, and significant photoconductivity response, with detector resolution comparable to that of commercial, state-of-the-art materials.
Journal ArticleDOI
High-throughput crystallization: polymorphs, salts, co-crystals and solvates of pharmaceutical solids
Sherry L. Morissette,Orn Almarsson,Matthew Peterson,Julius F. Remenar,Michael Read,Anthony V. Lemmo,Steve Ellis,Michael J. Cima,Colin R. Gardner +8 more
TL;DR: The impact of form diversity encompasses issues of stability and bioavailability, as well as development considerations such as process definition, formulation design, patent protection and regulatory control.
Journal ArticleDOI
Hunting for Monolayer Boron Nitride: Optical and Raman Signatures
Roman V. Gorbachev,Ibtsam Riaz,Rahul R. Nair,Rashid Jalil,L. Britnell,Branson D. Belle,Ernie W. Hill,Kostya S. Novoselov,Kenji Watanabe,Takashi Taniguchi,Andre K. Geim,Peter Blake +11 more
TL;DR: The identification of single- and few- layer boron nitride is described, its optical contrast is much smaller than that of graphene but even monolayers are discernable by optimizing viewing conditions.
References
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Journal ArticleDOI
Atomistic Processes in the Early Stages of Thin-Film Growth
Zhenyu Zhang,Max G. Lagally +1 more
TL;DR: The atomic nature of the most important kinetic mechanisms of film growth is explored, which include adatom diffusion on terraces, along steps, and around island corners; nucleation and dynamics of the stable nucleus; atom attachment to and detachment from terraces and islands; and interlayer mass transport.
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Experimental Realization of the Covalent Solid Carbon Nitride
TL;DR: Qualitative tests indicate that the C-N solids are thermally robust and hard and Rutherford backscattering measurements show that up to 40 percent nitrogen can be incorporated on average into these solids under the present reaction conditions.
Journal ArticleDOI
Observation of crystalline C3N4.
Kin Man Yu,Marvin L. Cohen,Marvin L. Cohen,Eugene E. Haller,Eugene E. Haller,William L. Hansen,Amy Y. Liu,Amy Y. Liu,I. C. Wu,I. C. Wu +9 more
TL;DR: Strong experimental evidence is presented suggesting that there is strong experimental evidence suggesting that this material predicted by theory to have bulk moduli comparable to diamond has been synthesized.
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alpha beta Experimental evidence for alpha - and beta -phases of pure crystalline C3N4 in films deposited on nickel substrates
TL;DR: In this article, the experimental lattice constants of alpha-C3N4 (a = 6.38 Angstrom; c = 4.648 degrees) and beta-C 3N4(a =6.24 Angstrom, c = 2.36 Angstrom) agree with ab-initio calculations to within 1.3% and 2.5% respectively.
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Novel materials from theory
Marvin L. Cohen,Marvin L. Cohen +1 more
TL;DR: In this article, the structures of crystals can be predicted using information about their chemical composition as the only input, which will greatly aid the search for new materials, such as new materials.