D-Index & Metrics Best Publications

D-Index & Metrics D-index (Discipline H-index) only includes papers and citation values for an examined discipline in contrast to General H-index which accounts for publications across all disciplines.

Discipline name D-index D-index (Discipline H-index) only includes papers and citation values for an examined discipline in contrast to General H-index which accounts for publications across all disciplines. Citations Publications World Ranking National Ranking
Electronics and Electrical Engineering D-index 33 Citations 7,300 86 World Ranking 4051 National Ranking 78

Overview

What is he best known for?

The fields of study he is best known for:

  • Semiconductor
  • Electrical engineering
  • Transistor

His primary areas of investigation include Optoelectronics, Nanowire, Transistor, Nanotechnology and Semiconductor. He has included themes like Layer, Electroluminescence and Electrical conductor in his Optoelectronics study. His Nanowire study combines topics in areas such as Field-effect transistor, Nanoelectronics, Electrical engineering, Electronics and Silicon on insulator.

His Field-effect transistor study combines topics from a wide range of disciplines, such as Microelectronics, Thin-film transistor, Quantum capacitance, Schottky barrier and MOSFET. His research in Transistor tackles topics such as Ambipolar diffusion which are related to areas like Voltage, Light intensity, Heterojunction and Light emission. His work on Molecular nanotechnology as part of his general Nanotechnology study is frequently connected to Physicist, thereby bridging the divide between different branches of science.

His most cited work include:

  • Nanowire-based one-dimensional electronics (593 citations)
  • Realization of a silicon nanowire vertical surround-gate field-effect transistor. (358 citations)
  • Nanoparticle printing with single-particle resolution (344 citations)

What are the main themes of his work throughout his whole career to date?

Walter Riess spends much of his time researching Optoelectronics, Layer, Nanowire, OLED and Field-effect transistor. His Optoelectronics research is multidisciplinary, incorporating perspectives in Transistor, Electroluminescence, Electrical engineering and Optics. His Transistor research incorporates elements of Nanoelectronics and Ambipolar diffusion.

His work deals with themes such as Crystallography and Dielectric, which intersect with Layer. His study on Nanowire also encompasses disciplines like

  • Semiconductor which is related to area like Electronics,
  • Dopant and related Analytical chemistry. The Field-effect transistor study combines topics in areas such as Gate dielectric and Charge carrier.

He most often published in these fields:

  • Optoelectronics (77.08%)
  • Layer (26.04%)
  • Nanowire (20.83%)

What were the highlights of his more recent work (between 2008-2019)?

  • Optoelectronics (77.08%)
  • Nanowire (20.83%)
  • Silicon (13.54%)

In recent papers he was focusing on the following fields of study:

His primary areas of study are Optoelectronics, Nanowire, Silicon, Field-effect transistor and Doping. He has researched Optoelectronics in several fields, including Transistor, Nanotechnology and Electrical engineering. His research ties MOSFET and Nanowire together.

He combines subjects such as Threshold voltage, Schottky diode, Schottky barrier and Ambipolar diffusion with his study of Silicon. The study incorporates disciplines such as Gate dielectric and Band gap in addition to Field-effect transistor. His Doping study integrates concerns from other disciplines, such as Electron holography and Optics.

Between 2008 and 2019, his most popular works were:

  • Donor deactivation in silicon nanostructures. (241 citations)
  • Quantum optimization using variational algorithms on near-term quantum devices (222 citations)
  • Doping limits of grown in situ doped silicon nanowires using phosphine. (94 citations)

In his most recent research, the most cited papers focused on:

  • Semiconductor
  • Electrical engineering
  • Transistor

His scientific interests lie mostly in Optoelectronics, Nanowire, Nanotechnology, Silicon and Field-effect transistor. His studies in Nanotechnology integrate themes in fields like Semiconductor and Dopant. His Silicon research integrates issues from Transistor, Doping and Electrical engineering.

His Transistor research includes elements of Tunnel effect, Nanoelectronics and Logic gate. His work on Threshold voltage as part of general Electrical engineering study is frequently linked to AND gate, bridging the gap between disciplines. His study focuses on the intersection of Field-effect transistor and fields such as Gate dielectric with connections in the field of Dielectric.

This overview was generated by a machine learning system which analysed the scientist’s body of work. If you have any feedback, you can contact us here.

Best Publications

Nanowire-based one-dimensional electronics

C. Thelander;P. Agarwal;S. Brongersma;J. Eymery.
Materials Today (2006)

858 Citations

Nanowire-based one-dimensional electronics

C. Thelander;P. Agarwal;S. Brongersma;J. Eymery.
Materials Today (2006)

858 Citations

Nanoparticle printing with single-particle resolution

Tobias Kraus;Tobias Kraus;Laurent Malaquin;Heinz Schmid;Walter Riess.
Nature Nanotechnology (2007)

532 Citations

Nanoparticle printing with single-particle resolution

Tobias Kraus;Tobias Kraus;Laurent Malaquin;Heinz Schmid;Walter Riess.
Nature Nanotechnology (2007)

532 Citations

Realization of a silicon nanowire vertical surround-gate field-effect transistor.

Volker Schmidt;Heike Riel;Stephan Senz;Siegfried Karg.
Small (2006)

490 Citations

Realization of a silicon nanowire vertical surround-gate field-effect transistor.

Volker Schmidt;Heike Riel;Stephan Senz;Siegfried Karg.
Small (2006)

490 Citations

Toward Nanowire Electronics

J. Appenzeller;J. Knoch;M.T. Bjork;H. Riel.
IEEE Transactions on Electron Devices (2008)

430 Citations

Toward Nanowire Electronics

J. Appenzeller;J. Knoch;M.T. Bjork;H. Riel.
IEEE Transactions on Electron Devices (2008)

430 Citations

Quantum optimization using variational algorithms on near-term quantum devices

Nikolaj Moll;Panagiotis Barkoutsos;Lev S Bishop;Jerry M Chow.
Quantum Science and Technology (2018)

395 Citations

Quantum optimization using variational algorithms on near-term quantum devices

Nikolaj Moll;Panagiotis Barkoutsos;Lev S Bishop;Jerry M Chow.
Quantum Science and Technology (2018)

395 Citations

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