G. J. Leusink

494 total citations
18 papers, 386 citations indexed

About

G. J. Leusink is a scholar working on Electrical and Electronic Engineering, Atomic and Molecular Physics, and Optics and Surfaces, Coatings and Films. According to data from OpenAlex, G. J. Leusink has authored 18 papers receiving a total of 386 indexed citations (citations by other indexed papers that have themselves been cited), including 16 papers in Electrical and Electronic Engineering, 4 papers in Atomic and Molecular Physics, and Optics and 3 papers in Surfaces, Coatings and Films. Recurrent topics in G. J. Leusink's work include Semiconductor materials and devices (14 papers), Ferroelectric and Negative Capacitance Devices (8 papers) and Advancements in Semiconductor Devices and Circuit Design (5 papers). G. J. Leusink is often cited by papers focused on Semiconductor materials and devices (14 papers), Ferroelectric and Negative Capacitance Devices (8 papers) and Advancements in Semiconductor Devices and Circuit Design (5 papers). G. J. Leusink collaborates with scholars based in United States, Germany and Belgium. G. J. Leusink's co-authors include Robert D. Clark, Steven Consiglio, Kandabara Tapily, Cory S. Wajda, Alain C. Diebold, Eric Bersch, Jeffrey Smith, D. Misra, Dina H. Triyoso and E. Kunnen and has published in prestigious journals such as Applied Physics Letters, Journal of Applied Physics and Journal of The Electrochemical Society.

In The Last Decade

G. J. Leusink

16 papers receiving 383 citations

Peers — A (Enhanced Table)

Peers by citation overlap · career bar shows stage (early→late) cites · hero ref

Name h Career Trend Papers Cites
G. J. Leusink United States 8 342 193 84 60 35 18 386
Tomo Ueno Japan 11 288 0.8× 217 1.1× 61 0.7× 61 1.0× 54 1.5× 36 358
Grazia Litrico Italy 11 323 0.9× 104 0.5× 80 1.0× 65 1.1× 37 1.1× 41 384
Cory S. Wajda United States 11 385 1.1× 172 0.9× 81 1.0× 55 0.9× 39 1.1× 46 419
D. Hrunski Germany 9 337 1.0× 262 1.4× 49 0.6× 28 0.5× 24 0.7× 14 369
M. Wimmer Germany 11 419 1.2× 377 2.0× 82 1.0× 78 1.3× 30 0.9× 19 475
Abdennaceur Karoui United States 12 230 0.7× 184 1.0× 59 0.7× 84 1.4× 63 1.8× 45 333
Dung-Ching Perng Taiwan 13 267 0.8× 182 0.9× 169 2.0× 53 0.9× 48 1.4× 27 368
J. Schaeffer United States 13 595 1.7× 189 1.0× 69 0.8× 96 1.6× 20 0.6× 32 628
M.-Y. Ho United States 5 577 1.7× 331 1.7× 76 0.9× 72 1.2× 14 0.4× 6 601
R. Lupták Germany 13 356 1.0× 182 0.9× 64 0.8× 67 1.1× 64 1.8× 33 415

Countries citing papers authored by G. J. Leusink

Since Specialization
Citations

This map shows the geographic impact of G. J. Leusink's research. It shows the number of citations coming from papers published by authors working in each country. You can also color the map by specialization and compare the number of citations received by G. J. Leusink with the expected number of citations based on a country's size and research output (numbers larger than one mean the country cites G. J. Leusink more than expected).

Fields of papers citing papers by G. J. Leusink

Since Specialization
Physical SciencesHealth SciencesLife SciencesSocial Sciences

This network shows the impact of papers produced by G. J. Leusink. Nodes represent research fields, and links connect fields that are likely to share authors. Colored nodes show fields that tend to cite the papers produced by G. J. Leusink. The network helps show where G. J. Leusink may publish in the future.

Co-authorship network of co-authors of G. J. Leusink

This figure shows the co-authorship network connecting the top 25 collaborators of G. J. Leusink. A scholar is included among the top collaborators of G. J. Leusink based on the total number of citations received by their joint publications. Widths of edges represent the number of papers authors have co-authored together. Node borders signify the number of papers an author published with G. J. Leusink. G. J. Leusink is excluded from the visualization to improve readability, since they are connected to all nodes in the network.

All Works

18 of 18 papers shown
1.
Triyoso, Dina H., Robert D. Clark, Wenke Weinreich, et al.. (2021). Ferroelectric and Antiferroelectric Hf/Zr oxide films: past, present and future. Publikationsdatenbank der Fraunhofer-Gesellschaft (Fraunhofer-Gesellschaft). 1–2.
2.
Nelson, Christopher T., Sebastian E. Reyes‐Lillo, Mengkun Tian, et al.. (2020). Atomic-Scale Imaging of Polarization Switching in an (Anti-)Ferroelectric Memory Material: Zirconia (ZrO2). OSTI OAI (U.S. Department of Energy Office of Scientific and Technical Information). 1–2. 20 indexed citations
3.
Misra, D., Dina H. Triyoso, Kandabara Tapily, et al.. (2020). Dielectrics and Metal Stack Engineering for Multilevel Resistive Random-Access Memory. ECS Journal of Solid State Science and Technology. 9(5). 53004–53004. 7 indexed citations
4.
Clark, Robert D., Kandabara Tapily, Steven Consiglio, et al.. (2018). Perspective: New process technologies required for future devices and scaling. APL Materials. 6(5). 154 indexed citations
5.
Yu, Hao, Marc Schaekers, S. Demuynck, et al.. (2017). Ultralow resistive wrap around contact to scaled FinFET devices by using ALD-Ti contact metal. 1–3. 24 indexed citations
6.
Misra, D., Kandabara Tapily, Robert D. Clark, et al.. (2017). Impact of Slot Plane Antenna Annealing on Carrier Transport Mechanism and Reliability on ZrO2/Al2O3/Ge Gate Stack. IEEE Transactions on Device and Materials Reliability. 17(2). 349–354.
7.
Consiglio, Steven, Kandabara Tapily, Robert D. Clark, et al.. (2016). In Situ Ramp Anneal X-ray Diffraction Study of Atomic Layer Deposited Ultrathin TaN and Ta1-xAlxNyFilms for Cu Diffusion Barrier Applications. ECS Journal of Solid State Science and Technology. 5(9). P509–P513. 3 indexed citations
8.
Misra, D., Kandabara Tapily, Robert D. Clark, et al.. (2015). Impact of cyclic plasma treatment on oxygen vacancy defects in TiN/HfZrO/SiON/Si gate stacks. Applied Physics Letters. 106(19). 12 indexed citations
9.
10.
Tapily, Kandabara, Steven Consiglio, Robert D. Clark, et al.. (2014). Electrical Enhancement and Higher-K Engineering in Ultra-Thin Atomic Layer Deposited Hf1-xAlxOyFilms. ECS Journal of Solid State Science and Technology. 4(2). N1–N5. 4 indexed citations
11.
Misra, D., Kandabara Tapily, Robert D. Clark, et al.. (2014). Cyclic Plasma Treatment during ALD Hf1-xZrxO2Deposition. ECS Journal of Solid State Science and Technology. 3(5). N83–N88. 8 indexed citations
12.
13.
Majumdar, Kausik, Chadwin D. Young, Chris Hobbs, et al.. (2012). Effective Schottky Barrier Height modulation using dielectric dipoles for source/drain specific contact resistivity improvement. 18.6.1–18.6.4. 15 indexed citations
14.
Consiglio, Steven, Robert D. Clark, Eric Bersch, et al.. (2012). Crystallinity of Electrically Scaled Atomic Layer Deposited HfO2from a Cyclical Deposition and Annealing Scheme. Journal of The Electrochemical Society. 159(6). G80–G88. 5 indexed citations
15.
Bersch, Eric, Steven Consiglio, Robert D. Clark, et al.. (2011). Multi-technique Approach for the Evaluation of the Crystalline Phase of Ultrathin High-k Gate Oxide Films. AIP conference proceedings. 154–160. 3 indexed citations
16.
Bersch, Eric, et al.. (2010). Complete band offset characterization of the HfO2/SiO2/Si stack using charge corrected x-ray photoelectron spectroscopy. Journal of Applied Physics. 107(4). 114 indexed citations
17.
Bersch, Eric, Steven Consiglio, Robert D. Clark, et al.. (2009). Characterization of HfO[sub 2] and Hafnium Silicate Films on SiO[sub 2]∕Si. AIP conference proceedings. 55–61. 3 indexed citations
18.
Bersch, Eric, Alain C. Diebold, Steven Consiglio, et al.. (2009). High-Resolution Rutherford Backscattering Analysis of Nanoscale Thin Films. AIP conference proceedings. 80–83. 1 indexed citations

Rankless uses publication and citation data sourced from OpenAlex, an open and comprehensive bibliographic database. While OpenAlex provides broad and valuable coverage of the global research landscape, it—like all bibliographic datasets—has inherent limitations. These include incomplete records, variations in author disambiguation, differences in journal indexing, and delays in data updates. As a result, some metrics and network relationships displayed in Rankless may not fully capture the entirety of a scholar's output or impact.

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