Megha Acharya

Megha Acharya

University of California, Berkeley

H-index: 8

North America-United States

Contact Megha Acharya

About Megha Acharya

Megha Acharya, With an exceptional h-index of 8 and a recent h-index of 7 (since 2020), a distinguished researcher at University of California, Berkeley, specializes in the field of Electronic Materials, Ferroelectrics, Sustainable energy harvesting.

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

Direct Measurement of Inverse Piezoelectric Effects in Thin Films Using Laser Doppler Vibrometry

Defect‐induced, ferroelectric‐like switching and adjustable dielectric tunability in antiferroelectrics

3D Printing and processing of miniaturized transducers with near-pristine piezoelectric ceramics for localized cavitation

Size‐Induced Ferroelectricity in Antiferroelectric Oxide Membranes (Adv. Mater. 17/2023)

Exploring the Morphotropic Phase Boundary in Epitaxial PbHf1–xTixO3 Thin Films

Theory-Guided Exploration of the Sr2Nb2O7 System for Increased Dielectric and Piezoelectric Properties and Synthesis of Vanadium-Alloyed Sr2Nb2O7

Thin‐film Ferroelectrics

Enabling ultra-low-voltage switching in BaTiO3

Megha Acharya Information

University	University of California, Berkeley
Position	Graduate Student Researcher
Citations(all)	425
Citations(since 2020)	405
Cited By	56
hIndex(all)	8
hIndex(since 2020)	7
i10Index(all)	8
i10Index(since 2020)	7
Email	Access Email
University Profile Page	University of California, Berkeley
Google Scholar	View Google Scholar Profile

Megha Acharya Skills & Research Interests

Electronic Materials

Ferroelectrics

Sustainable energy harvesting

Top articles of Megha Acharya

Direct Measurement of Inverse Piezoelectric Effects in Thin Films Using Laser Doppler Vibrometry

Physical Review Applied

2023/7/11

Megha Acharya

H-Index: 4

Djamila Lou

H-Index: 2

Abel Fernandez

H-Index: 5

Jieun Kim

H-Index: 8

Zishen Tian

H-Index: 2

Defect‐induced, ferroelectric‐like switching and adjustable dielectric tunability in antiferroelectrics

Advanced Materials

2023/6

Hao Pan

H-Index: 5

Zishen Tian

H-Index: 2

Megha Acharya

H-Index: 4

Xiaoxi Huang

H-Index: 20

Pravin Kavle

H-Index: 5

Hongrui Zhang

H-Index: 4

Dongfang Chen

H-Index: 11

John Carroll

H-Index: 10

3D Printing and processing of miniaturized transducers with near-pristine piezoelectric ceramics for localized cavitation

Nature Communications

2023/4/27

Huachen Cui

H-Index: 8

Gengxi Lu

H-Index: 7

Ryan Hensleigh

H-Index: 7

Yushun Zeng

H-Index: 5

Megha Acharya

H-Index: 4

Zhen Wang

H-Index: 42

Andrei Irimia

H-Index: 22

Qifa Zhou

H-Index: 44

Size‐Induced Ferroelectricity in Antiferroelectric Oxide Membranes (Adv. Mater. 17/2023)

Advanced Materials

2023/4

Ruijuan Xu

H-Index: 19

Varun Harbola

H-Index: 2

Hui Cao

H-Index: 4

Lucas Caretta

H-Index: 10

Woo Jin Kim

H-Index: 26

Aarushi Khandelwal

H-Index: 1

Megha Acharya

H-Index: 4

Yin Liu

H-Index: 2

Hua Zhou

H-Index: 11

David A Muller

H-Index: 75

Exploring the Morphotropic Phase Boundary in Epitaxial PbHf1–xTixO3 Thin Films

Chemistry of Materials

2022/10/27

Megha Acharya

H-Index: 4

Djamila Lou

H-Index: 2

Theory-Guided Exploration of the Sr2Nb2O7 System for Increased Dielectric and Piezoelectric Properties and Synthesis of Vanadium-Alloyed Sr2Nb2O7

Chemistry of Materials

2022/9/22

Megha Acharya

H-Index: 4

Thin‐film Ferroelectrics

2022/7

Abel Fernandez

H-Index: 5

Megha Acharya

H-Index: 4

Yizhe Jiang

H-Index: 2

Djamila Lou

H-Index: 2

Zishen Tian

H-Index: 2

Enabling ultra-low-voltage switching in BaTiO3

Nature materials

2022/7

Yizhe Jiang

H-Index: 2

Wenbo Zhao

H-Index: 3

David Pesquera

H-Index: 11

Arvind Dasgupta

H-Index: 8

Megha Acharya

H-Index: 4

Hongrui Zhang

H-Index: 4

Hai Li

H-Index: 11

Exploring the Pb1−xSrxHfO3 System and Potential for High Capacitive Energy Storage Density and Efficiency

Advanced Materials

2022/1

Megha Acharya

H-Index: 4

Ella Banyas

H-Index: 1

Yizhe Jiang

H-Index: 2

Abel Fernandez

H-Index: 5

Arvind Dasgupta

H-Index: 8

High performance (ZT> 1) n-type oxide thermoelectric composites from earth abundant materials

Nano Energy

2021/6/1

Megha Acharya

H-Index: 4

Subhra Sourav Jana

H-Index: 2

Tanmoy Maiti

H-Index: 13

Searching for New Ferroelectric Materials Using High-Throughput Databases: An Experimental Perspective on BiAlO3 and BiInO3

Chemistry of Materials

2020/8/7

Megha Acharya

H-Index: 4

Abel Fernandez

H-Index: 5

Jieun Kim

H-Index: 8

Huaiyu Wang

H-Index: 1

Derek Meyers

H-Index: 20

Venkatraman Gopalan

H-Index: 43

Ultrahigh capacitive energy density in ion-bombarded relaxor ferroelectric films

Science

2020/7/3

Jieun Kim

H-Index: 8

Sahar Saremi

H-Index: 16

Megha Acharya

H-Index: 4

Patrick Donahue

H-Index: 3

David Garcia

H-Index: 5

Beyond Expectation: Advanced Materials Design, Synthesis, and Processing to Enable Novel Ferroelectric Properties and Applications

MRS Advances

2020/1

Jieun Kim

H-Index: 8

Eduardo Lupi

H-Index: 4

David Pesquera

H-Index: 11

Megha Acharya

H-Index: 4

Wenbo Zhao

H-Index: 3

See List of Professors in Megha Acharya University(University of California, Berkeley)

Co-Authors

H-index: 77

Lane W. Martin — Lane W. Martin
University of California, Berkeley

Visit Lane W. Martin Page

H-index: 29

Dr. Ritwik Sarkar — Dr. Ritwik Sarkar
National Institute of Technology, Rourkela

Visit Dr. Ritwik Sarkar Page

H-index: 23

Tanmoy Maiti — Tanmoy Maiti
Indian Institute of Technology Kanpur

Visit Tanmoy Maiti Page

H-index: 12

Khagesh Tanwar — Khagesh Tanwar
Deakin University

Visit Khagesh Tanwar Page

H-index: 10

Jieun Kim — Jieun Kim
University of California, Berkeley

Visit Jieun Kim Page

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