Emily Hitz

University of Maryland

H-index: 48

North America-United States

About Emily Hitz

Emily Hitz, With an exceptional h-index of 48 and a recent h-index of 46 (since 2020), a distinguished researcher at University of Maryland, specializes in the field of renewable energy, energy storage, materials engineering, anode protection, solid electrolytes.

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

Ion‐Conducting, Electron‐Blocking Layer for High‐Performance Solid Electrolytes

Ionic Conductivity and Electronic Insulation in a Nanoscale Interlayer for Improved Solid Electrolyte Performance

High-temperature pulse method for nanoparticle redispersion

Strong and Superhydrophobic Wood with Aligned Cellulose Nanofibers as a Waterproof Structural Material†

Scalable aesthetic transparent wood for energy efficient buildings

Reversible short‐circuit behaviors in garnet‐based solid‐state batteries

High-performance, scalable wood-based filtration device with a reversed-tree design

Ultrathin Materials For Advanced Energy Storage

Emily Hitz Information

University	University of Maryland
Position	PhD Candidate
Citations(all)	12065
Citations(since 2020)	10899
Cited By	5784
hIndex(all)	48
hIndex(since 2020)	46
i10Index(all)	54
i10Index(since 2020)	53
Email	Access Email
University Profile Page	University of Maryland
Google Scholar	View Google Scholar Profile

Emily Hitz Skills & Research Interests

renewable energy

energy storage

materials engineering

anode protection

solid electrolytes

Emily Hitz

University of Maryland

About Emily Hitz

Emily Hitz Information

Emily Hitz Skills & Research Interests

Top articles of Emily Hitz

Ion‐Conducting, Electron‐Blocking Layer for High‐Performance Solid Electrolytes

Yi Lin

Liangbing Hu

Ionic Conductivity and Electronic Insulation in a Nanoscale Interlayer for Improved Solid Electrolyte Performance

Emily Hitz

Yi Lin

Liangbing Hu

High-temperature pulse method for nanoparticle redispersion

Min Hong

Xizheng Wang

Liangbing Hu

Strong and Superhydrophobic Wood with Aligned Cellulose Nanofibers as a Waterproof Structural Material†

Yongfeng Li

Jianwei Song

Chunpeng Yang

Azhar Vellore

Emily Hitz

Feng Jiang

Yonggang Yao

Amy Gong

Ashlie Martini

Liangbing Hu

Scalable aesthetic transparent wood for energy efficient buildings

Ruiyu Mi

Yong Pei

Dapeng Liu

Jiaqi Dai

Emily Hitz

Bao Yang

Liangbing Hu

Reversible short‐circuit behaviors in garnet‐based solid‐state batteries

Weiwei Ping

Chengwei Wang

Zhiwei Lin

Emily Hitz

Chunpeng Yang

Howard Wang

Liangbing Hu

High-performance, scalable wood-based filtration device with a reversed-tree design

Guang Chen

Fengjuan Chen

Jiaqi Dai

Jianwei Song

Feng Jiang

Chao Jia

Yonggang Yao

Emily Hitz

Ruiyu Mi

Siddhartha Das

Liangbing Hu

Ultrathin Materials For Advanced Energy Storage

An energy‐efficient, wood‐derived structural material enabled by pore structure engineering towards building efficiency

Tian Li

Jianwei Song

Xinpeng Zhao

Yang Liu

Yong Pei

Emily Hitz

Bao Yang

Liangbing Hu