Mythili Surendran

University of Southern California

H-index: 5

North America-United States

About Mythili Surendran

Mythili Surendran, With an exceptional h-index of 5 and a recent h-index of 5 (since 2020), a distinguished researcher at University of Southern California, specializes in the field of Materials Science, Chalcogenide Perovskites, Thin films, Epitaxy.

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

A hybrid pulsed laser deposition approach to grow thin films of chalcogenides

Hydrogen is not necessary for superconductivity in topotactically reduced nickelates

Epitaxial Rare-Earth-Doped Complex Oxide Thin Films for Infrared Applications

Ruddlesden-Popper chalcogenides push the limit of mechanical stiffness and glass-like thermal conductivity in crystals

Charge Density Wave Order and Electronic Phase Transitions in a Dilute d‐Band Semiconductor

Unconventional Charge-density-wave Order in a Dilute d-band Semiconductor

Hydrogen incorporation during reduction to the infinite-layer phase of superconducting nickelates

Quasi-epitaxial growth of BaTiS3 films

Mythili Surendran Information

University	University of Southern California
Position	___
Citations(all)	78
Citations(since 2020)	76
Cited By	8
hIndex(all)	5
hIndex(since 2020)	5
i10Index(all)	2
i10Index(since 2020)	2
Email	Access Email
University Profile Page	University of Southern California
Google Scholar	View Google Scholar Profile

Mythili Surendran Skills & Research Interests

Materials Science

Chalcogenide Perovskites

Thin films

Epitaxy

Top articles of Mythili Surendran

Title	Journal	Author(s)	Publication Date
A hybrid pulsed laser deposition approach to grow thin films of chalcogenides	Advanced Materials	Mythili Surendran Shantanu Singh Huandong Chen Claire Wu Amir Avishai ...	2024/1/30
Hydrogen is not necessary for superconductivity in topotactically reduced nickelates	arXiv preprint arXiv:2403.01796	Purnima P Balakrishnan Dan Ferenc Segedin Lin Er Chow P Quarterman Shin Muramoto ...	2024/3/4
Epitaxial Rare-Earth-Doped Complex Oxide Thin Films for Infrared Applications	arXiv preprint arXiv:2402.12358	Mythili Surendran Joshua Rollag Christopher E Stevens Ching-Tai Fu Harish Kumarasubramanian ...	2024/2/19
Ruddlesden-Popper chalcogenides push the limit of mechanical stiffness and glass-like thermal conductivity in crystals	arXiv preprint arXiv:2312.02534	Md Shafkat Bin Hoque Eric R Hoglund Boyang Zhao De-Liang Bao Hao Zhou ...	2023/12/5
Charge Density Wave Order and Electronic Phase Transitions in a Dilute d‐Band Semiconductor	Advanced Materials	Huandong Chen Boyang Zhao Josh Mutch Gwan Yeong Jung Guodong Ren ...	2023/12
Unconventional Charge-density-wave Order in a Dilute d-band Semiconductor	arXiv preprint arXiv:2207.11622	Huandong Chen Batyr Ilyas Boyang Zhao Emre Ergecen Josh Mutch ...	2022/7/23
Hydrogen incorporation during reduction to the infinite-layer phase of superconducting nickelates	APS March Meeting Abstracts	Purnima Balakrishnan Patrick Quarterman Shin Muramoto Dan Ferenc Segedin Mythili Surendran ...	2022
Quasi-epitaxial growth of BaTiS3 films	Journal of Materials Research	Mythili Surendran Boyang Zhao Guodong Ren Shantanu Singh Amir Avishai ...	2022/11/14
A Polymeric Planarization Strategy for Versatile Multiterminal Electrical Transport Studies on Small, Bulk Crystals	ACS Applied Electronic Materials	Huandong Chen Amir Avishai Mythili Surendran Jayakanth Ravichandran	2022/10/27
Epitaxial Thin Films of a Chalcogenide Perovskite	Chemistry of Materials	Mythili Surendran Huandong Chen Boyang Zhao Arashdeep Singh Thind Shantanu Singh ...	2021/5/24
Direct observation and control of surface termination in perovskite oxide heterostructures	Nano Letters	Thomas Orvis Tengfei Cao Mythili Surendran Harish Kumarasubramanian Arashdeep Singh Thind ...	2021/5/11
In Situ Monitoring of Composition and Sensitivity to Growth Parameters of Pulsed Laser Deposition	ACS Applied Electronic Materials	Thomas Orvis Harish Kumarasubramanian Mythili Surendran Shanmukh Kutagulla Austin Cunniff ...	2021/2/25