ProfessorsProfessors of University of California, DavisGergely Zimanyi

Gergely Zimanyi

University of California, Davis

H-index: 45

North America-United States

About Gergely Zimanyi

Gergely Zimanyi, With an exceptional h-index of 45 and a recent h-index of 19 (since 2020), a distinguished researcher at University of California, Davis, specializes in the field of Energy science: nanostructured solar cells and permanent magnets, FORC method, Vortex systems, Spin/electron/dislocation-glasses.

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

Pinhole Formation by Nucleation-Driven Phase Separation in TOPCon and POLO Solar Cells: Structural Dynamics and Optimization

TOPCon Solar Cell Degradation via Pinhole Nucleation

Machine Learning-Based Defect Identification Method at the c-Si/a-Si: H Interface

Hydrogen-induced degradation dynamics in silicon heterojunction solar cells via machine learning

High-Mobility Hole Transport in Single-Grain PbSe Quantum Dot Superlattice Transistors

Exploring Si Heterojunction Solar Cell Degradation: Bulk and Interface Processes Analyzed by Simulations and Experiments in Order to Develop Mitigation Strategies

Full-spin-wave-scaled stochastic micromagnetism for mesh-independent simulations of ferromagnetic resonance and reversal

Gaussian approximation potential for amorphous Si: H

Gergely Zimanyi Information

University	University of California, Davis
Position	Physics Department
Citations(all)	6607
Citations(since 2020)	1172
Cited By	5939
hIndex(all)	45
hIndex(since 2020)	19
i10Index(all)	98
i10Index(since 2020)	34
Email	Access Email
University Profile Page	University of California, Davis
Google Scholar	View Google Scholar Profile

Gergely Zimanyi Skills & Research Interests

Energy science: nanostructured solar cells and permanent magnets

FORC method

Vortex systems

Spin/electron/dislocation-glasses

Top articles of Gergely Zimanyi

Title	Journal	Author(s)	Publication Date
Pinhole Formation by Nucleation-Driven Phase Separation in TOPCon and POLO Solar Cells: Structural Dynamics and Optimization	ACS Applied Energy Materials	Andrew Diggs Zack Crawford Adam Goga Zitong Zhao Josua Stuckelberger ...	2024/4/11
TOPCon Solar Cell Degradation via Pinhole Nucleation		Andrew Diggs Adam Goga Zachary Crawford Gergely T Zimanyi	2023/6/11
Machine Learning-Based Defect Identification Method at the c-Si/a-Si: H Interface		Zitong Zhao Gonglin Chen Reza Vatan Meidanshahi Gergely T Zimányi	2023/6/11
Hydrogen-induced degradation dynamics in silicon heterojunction solar cells via machine learning	Communications Materials	Andrew Diggs Zitong Zhao Reza Vatan Meidanshahi Davis Unruh Salman Manzoor ...	2023/4/12
High-Mobility Hole Transport in Single-Grain PbSe Quantum Dot Superlattice Transistors	Nano letters	Alex Abelson Caroline Qian Zachary Crawford Gergely T Zimanyi Matt Law	2022/11/21
Exploring Si Heterojunction Solar Cell Degradation: Bulk and Interface Processes Analyzed by Simulations and Experiments in Order to Develop Mitigation Strategies		Gergely Zimanyi Mariana Bertoni	2022/10/27
Full-spin-wave-scaled stochastic micromagnetism for mesh-independent simulations of ferromagnetic resonance and reversal	npj Computational Materials	Harald Oezelt Luman Qu Alexander Kovacs Johann Fischbacher Markus Gusenbauer ...	2022/3/8
Gaussian approximation potential for amorphous Si: H	Physical Review Materials	Davis Unruh Reza Vatan Meidanshahi Stephen M Goodnick Gábor Csányi Gergely T Zimányi	2022/6/27
From Femtoseconds to Gigaseconds: The SolDeg Project to Analyze Si Heterojunction Cell Degradation with Machine Learning		Gergely Zimanyi Davis Unruh Reza Vatan Zitong Zhao Andrew Diggs ...	2022/6/5
Critical transport behavior in quantum dot solids		Michael Kovtun Zachary Crawford Adam Goga Gergely T Zimanyi	2022/6/5
Structural characterization of a polycrystalline epitaxially-fused colloidal quantum dot superlattice by electron tomography		Xiaolei Chu Hamed Heidari Alex Abelson Davis Unruh Chase Hansen ...	2021/8/5
Hierarchical carrier transport simulator for defected nanoparticle solids	Scientific reports	Chase Hansen Davis Unruh Miguel Alba Caroline Qian Alex Abelson ...	2021/4/2
From femtoseconds to gigaseconds: performance degradation in silicon heterojunction solar cells		Davis G Unruh Chase M Hansen Reza Vatan Meidanshahi Stephen Goodnick Gergely T Zimanyi	2021/6/20
From femtoseconds to gigaseconds: The soldeg platform for the performance degradation analysis of silicon heterojunction solar cells	ACS Applied Materials & Interfaces	Davis Unruh Reza Vatan Meidanshahi Chase Hansen Salman Manzoor Mariana I Bertoni ...	2021/6/29
Full-Spin-Wave-Scaled Finite Element Stochastic Micromagnetism: Mesh-Independent FUSSS LLG Simulations of Ferromagnetic Resonance and Reversal	arXiv preprint arXiv:2108.10582	Harald Oezelt Luman Qu Alexander Kovacs Johann Fischbacher Markus Gusenbauer ...	2021/8/24
Percolative charge transport in binary nanocrystal solids	Physical Review B	Luman Qu Davis Unruh Gergely T Zimanyi	2021/5/3
Machine Learning Driven Studies of Performance Degradation in a-Si: H/c-Si Heterojunction Solar Cells		Davis Unruh Reza Vatan Meidanshahi Chase Hansen Stephen M Goodnick Gergely T Zimanyi	2021/6/20
Atomistic study on the pressure dependence of the melting point of NdFe12	AIP Advances	C Skelland SC Westmoreland Thomas Ostler RFL Evans RW Chantrell ...	2020/2/1
Erratum: Structural characterization of a polycrystalline epitaxially-fused colloidal quantum dot superlattice by electron tomography (Journal of Materials Chemistry A (2020	Journal of Materials Chemistry A	Xiaolei Chu Hamed Heidari Alex Abelson Davis Unruh Chase Hansen ...	2020/10/28
Performance degradation in aSi/cSi Heterjunction Solar Cells by Glassy Dynamics		Davis Unruh Chase M Hansen Gergely T Zimanyi	2020/6/15