ProfessorsProfessors of Stanford UniversityBlanka Magyari-Kope

Blanka Magyari-Kope

Stanford University

H-index: 34

North America-United States

About Blanka Magyari-Kope

Blanka Magyari-Kope, With an exceptional h-index of 34 and a recent h-index of 22 (since 2020), a distinguished researcher at Stanford University, specializes in the field of Electronic Materials, Computational Physics, Materials Theory.

His recent articles reflect a diverse array of research interests and contributions to the field:

Semiconductor devices

Intercalated Graphene as Next Generation Back-end-of-Line Conductors

Quantum Mechanical Modeling Techniques for High-Performance Low-k Amorphous Material Engineering: a Showcase for aBN

Semiconductor device, ferroelectric capacitor and laminated structure

Suppressing the filament formation by aluminum doping in anatase titanium oxide

Ultralow‐k Amorphous Boron Nitride Based on Hexagonal Ring Stacking Framework for 300 mm Silicon Technology Platform

Towards accurate and efficient process simulations based on atomistic and neural network approaches

Interfacial dual passivation layer for a ferroelectric device and methods of forming the same

Blanka Magyari-Kope Information

University	Stanford University
Position	Electrical Engineering
Citations(all)	4915
Citations(since 2020)	2360
Cited By	3786
hIndex(all)	34
hIndex(since 2020)	22
i10Index(all)	65
i10Index(since 2020)	37
Email	Access Email
University Profile Page	Stanford University
Google Scholar	View Google Scholar Profile

Blanka Magyari-Kope Skills & Research Interests

Electronic Materials

Computational Physics

Materials Theory

Top articles of Blanka Magyari-Kope

Title	Journal	Author(s)	Publication Date
Semiconductor devices			1990/11/6
Intercalated Graphene as Next Generation Back-end-of-Line Conductors		SW Li YC Chan CH Hsu SY Yang KY Liao ...	2023/12/9
Quantum Mechanical Modeling Techniques for High-Performance Low-k Amorphous Material Engineering: a Showcase for aBN		Blanka Magyari-Köpe Hans Hsu Jeff Wu	2023/9/27
Semiconductor device, ferroelectric capacitor and laminated structure			2023/8/3
Suppressing the filament formation by aluminum doping in anatase titanium oxide	AIP Advances	Chih-Hung Chung Chiung-Yuan Lin Tsung-Fu Yang Hsin-Hui Huang Tuo-Hung Hou ...	2022/12/1
Ultralow‐k Amorphous Boron Nitride Based on Hexagonal Ring Stacking Framework for 300 mm Silicon Technology Platform	Advanced Materials Technologies	Cheng‐Ming Lin Chuang‐Han Hsu Wei‐Yu Huang Vincent Astie Po‐Hsien Cheng ...	2022/10
Towards accurate and efficient process simulations based on atomistic and neural network approaches		L Li M Agrawal SY Yeh KT Lam J Wu ...	2022/12/3
Interfacial dual passivation layer for a ferroelectric device and methods of forming the same			2021/12/23
Advances in atomistic modeling for predictive TCAD applications		J Wu B Magyari-Köpe	2021/9/27
Improving electric contacts to two-dimensional semiconductors	arXiv preprint arXiv:2105.10792	Saurabh V Suryavanshi Blanka Magyari-Kope Paul Lim Connor McClellan Kirby KH Smithe ...	2021/5/22

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