Karine Florent

566 total citations
20 papers, 479 citations indexed

About

Karine Florent is a scholar working on Electrical and Electronic Engineering, Materials Chemistry and Atomic and Molecular Physics, and Optics. According to data from OpenAlex, Karine Florent has authored 20 papers receiving a total of 479 indexed citations (citations by other indexed papers that have themselves been cited), including 19 papers in Electrical and Electronic Engineering, 9 papers in Materials Chemistry and 3 papers in Atomic and Molecular Physics, and Optics. Recurrent topics in Karine Florent's work include Semiconductor materials and devices (14 papers), Ferroelectric and Negative Capacitance Devices (12 papers) and MXene and MAX Phase Materials (5 papers). Karine Florent is often cited by papers focused on Semiconductor materials and devices (14 papers), Ferroelectric and Negative Capacitance Devices (12 papers) and MXene and MAX Phase Materials (5 papers). Karine Florent collaborates with scholars based in Belgium, United States and France. Karine Florent's co-authors include Luca Piazza, M. Popovici, Simone Lavizzari, G. Groeseneken, Jan Van Houdt, Umberto Celano, Goedele Potoms, A. Subirats, S. R. C. McMitchell and Kaustuv Banerjee and has published in prestigious journals such as Journal of Applied Physics, Nanoscale and IEEE Transactions on Electron Devices.

In The Last Decade

Karine Florent

19 papers receiving 469 citations

Peers

Countries citing papers authored by Karine Florent

Since Specialization

Citations

This map shows the geographic impact of Karine Florent'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 Karine Florent with the expected number of citations based on a country's size and research output (numbers larger than one mean the country cites Karine Florent more than expected).

Fields of papers citing papers by Karine Florent

Since Specialization

Physical SciencesHealth SciencesLife SciencesSocial Sciences

This network shows the impact of papers produced by Karine Florent. 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 Karine Florent. The network helps show where Karine Florent may publish in the future.

Co-authorship network of co-authors of Karine Florent

This figure shows the co-authorship network connecting the top 25 collaborators of Karine Florent. A scholar is included among the top collaborators of Karine Florent 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 Karine Florent. Karine Florent is excluded from the visualization to improve readability, since they are connected to all nodes in the network.

All Works

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20 of 20 papers shown

#	Work	Indexed citations
1	Wide Memory Window and Steep ISPP Slope (13.2 V and 2.7) of an Aggressively Scaled 3D Ferroelectric NAND (Fenand) Cell for lt;30\text{nm}$ Tier Pitch Scaling 2025 ·Pankaj Sharma, Karine Florent, (unknown), A. Mauri, Jianling Yue, J. S. Ahn, (unknown), E. Camerlenghi, Paolo Fantini, Akira Goda, Tae‐Wan Kim, Richard J. Hill	2
2	Modeling BTI Reliability in CMOS DRAM Periphery Device: A Review of BTI Analysis Tool (BAT) 2025 ·A. Subirats, (unknown), Giovanni Ferrari, Uma Sharma, (unknown), (unknown), Saket Srivastava, Karine Florent, (unknown), (unknown), Souvik Mahapatra	0
3	4F² Stackable Polysilicon Channel Access Device for Ultra-Dense NVDRAM 2024 ·Albert Liao, Matthew Jerry, (unknown), Matthew J. Hollander, Pankaj Sharma, (unknown), Tengda Zhao, (unknown), (unknown), Mario Calabrese, (unknown), (unknown), Thomas Rossi, Karine Florent, (unknown), Claus Jacob, Alessandro Calderoni, Sameer Chhajed, (unknown), Nirmal Ramaswamy	2
4	Evaluation of DRAM CMOS Reliability during BTI and TDDB under AC and DC conditions 2024 ·A. Subirats, (unknown), Giovanni Ferrari, Uma Sharma, (unknown), (unknown), (unknown), Karine Florent, (unknown)	1
5	Ferroelectricity in Si-Doped Hafnia: Probing Challenges in Absence of Screening Charges 2020 ·Nanomaterials ·Umberto Celano, Andrés Gómez, (unknown), Sabine M. Neumayer, Liam Collins, M. Popovici, Karine Florent, S. R. C. McMitchell, Paola Favia, (unknown), H. Bender, Kristof Paredis, Luca Piazza, Stephen Jesse, Jan Van Houdt, Paul van der Heide	17
6	New Insights into the Imprint Effect in FE-HfO₂ and its Recovery 2019 ·Y. Higashi, Karine Florent, A. Subirats, B. Kaczer, Luca Piazza, Sergiu Clima, N. Ronchi, S. R. C. McMitchell, Kaustuv Banerjee, Umberto Celano, Mariko Suzuki, D. Linten, Jan Van Houdt	18
7	First-Principles Perspective on Poling Mechanisms and Ferroelectric/Antiferroelectric Behavior of Hf<inf>1</inf>-<inf>x</inf>Zr<inf>x</inf>O2 for FEFET Applications 2018 ·Sergiu Clima, S. R. C. McMitchell, Karine Florent, Laura Nyns, M. Popovici, N. Ronchi, Luca Piazza, Jan Van Houdt, Geoffrey Pourtois	8
8	Investigation of the endurance of FE-HfO<inf>2</inf> devices by means of TDDB studies 2018 ·Karine Florent, A. Subirats, Simone Lavizzari, R. Degraeve, Umberto Celano, B. Kaczer, Luca Piazza, M. Popovici, G. Groeseneken, Jan Van Houdt	27
9	Investigation of the endurance of FE-HfO 2 devices by means of TDDB studies 2018 ·Karine Florent, A. Subirats, Simone Lavizzari, R. Degraeve, Umberto Celano, B. Kaczer, Luca Piazza, M. Popovici, G. Groeseneken, Jan Van Houdt	10
10	Vertical Ferroelectric HfO<inf>2</inf> FET based on 3-D NAND Architecture: Towards Dense Low-Power Memory 2018 ·Karine Florent, (unknown), A. Subirats, Kaustuv Banerjee, Simone Lavizzari, A. Arreghini, Luca Piazza, Goedele Potoms, Farid Sebaai, S. R. C. McMitchell, M. Popovici, G. Groeseneken, Jan Van Houdt	125
11	The flexoelectric effect in Al-doped hafnium oxide 2018 ·Nanoscale ·Umberto Celano, M. Popovici, Karine Florent, Simone Lavizzari, Paola Favia, (unknown), H. Bender, Luca Piazza, Jan Van Houdt, Wilfried Vandervorst	27
12	Thermal Stability of Copper–Nickel and Copper–Nickel Silicide Contacts for Crystalline Silicon 2018 ·ACS Applied Energy Materials ·(unknown), William Nemeth, Craig L. Perkins, David L. Young, (unknown), Karine Florent, Santosh Kurinec, Paul Stradins, Sumit Agarwal	14
13	First demonstration of vertically stacked ferroelectric Al doped HfO<inf>2</inf> devices for NAND applications 2017 ·Karine Florent, Simone Lavizzari, Luca Piazza, M. Popovici, E. Vecchio, Goedele Potoms, G. Groeseneken, (unknown)	64
14	Understanding ferroelectric Al:HfO2 thin films with Si-based electrodes for 3D applications 2017 ·Journal of Applied Physics ·Karine Florent, Simone Lavizzari, M. Popovici, Luca Piazza, Umberto Celano, G. Groeseneken, Jan Van Houdt	74
15	Reliability Study of Ferroelectric Al:HfO₂Thin Films for DRAM and NAND Applications 2017 ·IEEE Transactions on Electron Devices ·Karine Florent, Simone Lavizzari, Luca Piazza, M. Popovici, (unknown), G. Groeseneken, Jan Van Houdt	65
16	From planar to vertical capacitors: A step towards ferroelectric V-FeFET integration 2017 ·Karine Florent, Simone Lavizzari, Luca Piazza, M. Popovici, Goedele Potoms, (unknown), G. Groeseneken, Jan Van Houdt	3
17	Nickel silicide metallization for passivated tunneling contacts for silicon solar cells 2016 ·(unknown), Karine Florent, (unknown), Benjamin G. Lee, Santosh Kurinec, David L. Young	5
18	Study of nickel silicide as a copper diffusion barrier in monocrystalline silicon solar cells 2016 ·Digital Collections of Colorado (Colorado State University) ·(unknown), (unknown), (unknown), Emily L. Warren, William Nemeth, David L. Young, (unknown), Karine Florent, Santosh Kurinec, Sumit Agarwal, (unknown)	5
19	Ferroelectric HfO2 for Emerging Ferroelectric Semiconductor Devices 2015 ·RIT Scholar Works (Rochester Institute of Technology) ·Karine Florent	2
20	Layered structure of MoS2 investigated using electron energy loss spectroscopy 2015 ·Materials Letters ·(unknown), (unknown), Karine Florent, Santosh Kurinec	10

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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