J.P. Clarkson
University of Rochester
10 Papers
78 Citations
J.P. Clarkson is an academic researcher from University of Rochester. The author has contributed to research in topics: Silicon & Diode. The author has an hindex of 5, co-authored 10 publications. Previous affiliations of J.P. Clarkson include Rochester Institute of Technology.
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Papers
Betavoltaic and photovoltaic energy conversion in three-dimensional macroporous silicon diodes
TL;DR: In this paper, a 3D p-n diode structure for the generation of energy via photovoltaic and betavoltaic modes of operation was presented for a tritium gas source.
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On the scaling behavior of dipole and quadrupole modes in coupled plasmonic nanoparticle pairs
TL;DR: In this paper, the authors investigated universal scaling of the dipole mode in coupled particle pairs greater than 100 nm in diameter where higher-order modes of resonance (i.e. both dipole and quadrupole modes of Resonance) are present.
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Solvent Detection and Water Monitoring With a Macroporous Silicon Field-Effect Sensor
TL;DR: In this paper, a monolithic integration strategy makes use of macroporous silicon (MPS) as a gateway to interface the electrical and fluidic domains for the design and fabrication of a system-on-chip (SOC) capable of sensing various liquid phase solvents.
17
Conformal P-N junctions in macroporous silicon for photovoltaic energy conversion
J.P. Clarkson,Gloria G. See,Bharat Veeramachaneni,Larry L. Gadeken,Karl D. Hirschman,Philippe M. Fauchet +5 more
TL;DR: In this paper, a macroporous silicon diode that successfully operates in a photovoltaic mode of energy conversion is reported, which exhibits an extremely high internal surface area up to ∼6690 cm2/cm3.
6
Macroporous Silicon Sensor Arrays for Chemical and Biological Detection
J.P. Clarkson,Vimalan Rajalingam,Karl D. Hirschman,Huimin Ouyang,Wei Sun,Philippe M. Fauchet +5 more
TL;DR: In this article, a new class of silicon-based chemical and biological sensors that offer an electrical response to a variety of substances is described, which is similar to chemiresistors and chemically sensitive field effect transistors (chemFETs).
5