2009 - Fellow of American Physical Society (APS) Citation For pioneering contributions to the integration of nanometerscale polymer selfassembly in the fabrication of highperformance semiconductor microelectronic devices
Charles T. Black mainly focuses on Nanotechnology, Copolymer, Thin film, Self-assembly and Optoelectronics. The Copolymer study combines topics in areas such as Polystyrene, Direct current, Polymer chemistry and Nanostructure. His Nanostructure research integrates issues from Chemical modification, Coercivity and Nanopore.
His Thin film study combines topics in areas such as Wafer, Mössbauer spectroscopy, Semiconductor and Nanocrystal, Chemical engineering. His research investigates the link between Self-assembly and topics such as Polymer that cross with problems in Photolithography, Nanometre and Reactive-ion etching. Charles T. Black has researched Optoelectronics in several fields, including Broadband and Self assembled.
Charles T. Black focuses on Nanotechnology, Optoelectronics, Copolymer, Chemical engineering and Thin film. His Nanotechnology research includes themes of Lithography, Silicon and Polymer. His work deals with themes such as Layer and Electrical engineering, which intersect with Optoelectronics.
His Copolymer study combines topics from a wide range of disciplines, such as Self-assembly, Nanowire, Polymer chemistry and Nanostructure. His research in Self-assembly intersects with topics in Semiconductor device fabrication and Polymer blend. His studies deal with areas such as Wafer, Scattering, Nanoporous, Composite material and Reactive-ion etching as well as Thin film.
His scientific interests lie mostly in Copolymer, Nanotechnology, Optoelectronics, Chemical engineering and Nanolithography. His biological study spans a wide range of topics, including Self-assembly, Isotropy, Reactive-ion etching and Vacancy defect. The Thin film and Electrokinetic phenomena research he does as part of his general Nanotechnology study is frequently linked to other disciplines of science, such as Broad spectrum, therefore creating a link between diverse domains of science.
He combines subjects such as Substrate, Quantum optics and Display device with his study of Optoelectronics. His work on Nano- and Crystallization is typically connected to Fast ion conductor and Ionic conductivity as part of general Chemical engineering study, connecting several disciplines of science. As part of the same scientific family, Charles T. Black usually focuses on Nanolithography, concentrating on Electron-beam lithography and intersecting with Length scale, Scanning transmission electron microscopy and Lithography.
His main research concerns Nanotechnology, Thin film, Optics, Nanolithography and Broad spectrum. His work carried out in the field of Nanotechnology brings together such families of science as Chemical engineering, Nanometre and Knudsen diffusion. Charles T. Black interconnects Chemical physics, Copolymer and Nitride in the investigation of issues within Thin film.
His work in the fields of Aperture and Oil immersion overlaps with other areas such as Purcell effect and Emission spectrum. His Nanolithography study incorporates themes from Optical coating, Display device and Optoelectronics, Photocurrent, Photoconductivity. His work in Broad spectrum incorporates the disciplines of Light reflectance, Anti-reflective coating, Texture and Scaling.
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Ultrahigh-Density Nanowire Arrays Grown in Self-Assembled Diblock Copolymer Templates
T. Thurn-Albrecht;J. Schotter;G. A. Kästle;N. Emley.
Spin-Dependent Tunneling in Self-Assembled Cobalt-Nanocrystal Superlattices
C. T. Black;C. B. Murray;R. L. Sandstrom;Shouheng Sun.
Spectroscopic measurements of discrete electronic states in single metal particles.
DC Ralph;CT Black;M Tinkham.
Physical Review Letters (1995)
Molecular helices as electron acceptors in high-performance bulk heterojunction solar cells
Yu Zhong;M. Tuan Trinh;Rongsheng Chen;Rongsheng Chen;Geoffrey E. Purdum.
Nature Communications (2015)
Polymer self assembly in semiconductor microelectronics
C. T. Black;R. Ruiz;Gregory Breyta;J. Y. Cheng.
Ibm Journal of Research and Development (2007)
Method for making three dimensional circuit integration
블랙 찰스 토마스;버가츠 조침 노버트;타이워리 산딥;웰서 제프리 존.
Spectroscopy of the Superconducting Gap in Individual Nanometer-Scale Aluminum Particles
C. T. Black;D. C. Ralph;M. Tinkham.
Physical Review Letters (1996)
Integration of self-assembled diblock copolymers for semiconductor capacitor fabrication
C. T. Black;K. W. Guarini;K. R. Milkove;S. M. Baker.
Applied Physics Letters (2001)
Magnetic, electronic, and structural characterization of nonstoichiometric iron oxides at the nanoscale.
Franz X. Redl;Charles T. Black;Georgia C. Papaefthymiou;Robert L. Sandstrom.
Journal of the American Chemical Society (2004)
Gate-Voltage Studies of Discrete Electronic States in Aluminum Nanoparticles
D. C. Ralph;C. T. Black;M. Tinkham.
Physical Review Letters (1997)
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