Ting Wang at Georgia Institute of Technology

University	Georgia Institute of Technology
Position	PhD Candidate
Citations(all)	457
Citations(since 2020)	456
Cited By	85
hIndex(all)	12
hIndex(since 2020)	12
i10Index(all)	14
i10Index(since 2020)	14
Email	Access Email
University Profile Page	Georgia Institute of Technology
Google Scholar	View Google Scholar Profile

Bacteria and virus inactivation: Relative efficacy and mechanisms of peroxyacids and chlor (am) ine

Environmental Science & Technology

2023/3

Wensi Chen

H-Index: 4

Ting Wang

H-Index: 6

Elliot Reid

H-Index: 3

Juhee Kim

H-Index: 2

Tianqi Zhang

H-Index: 7

Ching-Hua Huang

H-Index: 41

A submillimeter bundled microtubular flow battery cell with ultrahigh volumetric power density

Proceedings of the National Academy of Sciences

2023/1/10

Yutong Wu

H-Index: 2

Ting Wang

H-Index: 6

Po-Wei Huang

H-Index: 1

Chao Wang

H-Index: 6

Nian Liu

H-Index: 54

Nanosecond bacteria inactivation realized by locally enhanced electric field treatment

Nature Water

2023/1

Ting Wang

H-Index: 6

Microalgae harvesting by self-driven 3D microfiltration with rationally designed porous superabsorbent polymer (PSAP) beads

Environmental Science & Technology

2021/11/5

Wensi Chen

H-Index: 4

Ting Wang

H-Index: 6

Operando investigation of locally enhanced electric field treatment (LEEFT) harnessing lightning-rod effect for rapid bacteria inactivation

Nano Letters

2021/11/4

Ting Wang

H-Index: 6

Self-Driven Pretreatment and Room-Temperature Storage of Water Samples for Virus Detection Using Enhanced Porous Superabsorbent Polymer Beads

Environmental Science & Technology

2021/10/5

Wensi Chen

H-Index: 4

Ting Wang

H-Index: 6

Self-driven “microfiltration” enabled by porous superabsorbent polymer (PSAP) beads for biofluid specimen processing and storage

ACS Materials Letters

2020/10/21

Wensi Chen

H-Index: 4

Ting Wang

H-Index: 6

Locally enhanced electric field treatment (LEEFT) for water disinfection

2020/10

Jianfeng Zhou

H-Index: 5

Ting Wang

H-Index: 6

Locally enhanced electric field treatment (LEEFT) promotes the performance of ozonation for bacteria inactivation by disrupting the cell membrane

Environmental Science & Technology

2020/9/17

Jianfeng Zhou

H-Index: 5

Ting Wang

H-Index: 6

Inactivation of bacteria by peracetic acid combined with ultraviolet irradiation: mechanism and optimization

Environmental Science & Technology

2020/7/9

Tianqi Zhang

H-Index: 7

Ting Wang

H-Index: 6

Ching-Hua Huang

H-Index: 41

Microfluidics for environmental applications

2020

Ting Wang

H-Index: 6

Efficient microalgae inactivation and growth control by locally enhanced electric field treatment (LEEFT)

Environmental Science: Nano

2020

Jianfeng Zhou

H-Index: 5

Ting Wang

H-Index: 6

Yu Hong

H-Index: 11

Emerging investigator series: locally enhanced electric field treatment (LEEFT) with nanowire-modified electrodes for water disinfection in pipes

Environmental Science: Nano

2020

Jianfeng Zhou

H-Index: 5

Ting Wang

H-Index: 6

Wensi Chen

H-Index: 4

Self-driven membrane filtration by core–shell polymer composites

Journal of Materials Chemistry A

2020

Ting Wang

H-Index: 6

Wensi Chen

H-Index: 4

Hai Dong

H-Index: 18

Wei Sun

H-Index: 7

Development of nanowire-modified electrodes applied in the locally enhanced electric field treatment (LEEFT) for water disinfection

2020

Jianfeng Zhou

H-Index: 5

Ting Wang

H-Index: 6

Ting Wang

Georgia Institute of Technology

About Ting Wang

Ting Wang Information

Ting Wang Skills & Research Interests

Top articles of Ting Wang

Bacteria and virus inactivation: Relative efficacy and mechanisms of peroxyacids and chlor (am) ine

Wensi Chen

Ting Wang

Elliot Reid

Juhee Kim

Tianqi Zhang

Ching-Hua Huang

A submillimeter bundled microtubular flow battery cell with ultrahigh volumetric power density

Yutong Wu

Ting Wang

Po-Wei Huang

Chao Wang

Nian Liu

Nanosecond bacteria inactivation realized by locally enhanced electric field treatment

Ting Wang

Microalgae harvesting by self-driven 3D microfiltration with rationally designed porous superabsorbent polymer (PSAP) beads

Wensi Chen

Ting Wang

Operando investigation of locally enhanced electric field treatment (LEEFT) harnessing lightning-rod effect for rapid bacteria inactivation

Ting Wang

Self-Driven Pretreatment and Room-Temperature Storage of Water Samples for Virus Detection Using Enhanced Porous Superabsorbent Polymer Beads

Wensi Chen

Ting Wang

Self-driven “microfiltration” enabled by porous superabsorbent polymer (PSAP) beads for biofluid specimen processing and storage

Wensi Chen

Ting Wang

Locally enhanced electric field treatment (LEEFT) for water disinfection

Jianfeng Zhou

Ting Wang

Locally enhanced electric field treatment (LEEFT) promotes the performance of ozonation for bacteria inactivation by disrupting the cell membrane

Jianfeng Zhou

Ting Wang

Inactivation of bacteria by peracetic acid combined with ultraviolet irradiation: mechanism and optimization

Tianqi Zhang

Ting Wang

Ching-Hua Huang

Microfluidics for environmental applications

Ting Wang

Efficient microalgae inactivation and growth control by locally enhanced electric field treatment (LEEFT)

Jianfeng Zhou

Ting Wang

Yu Hong

Emerging investigator series: locally enhanced electric field treatment (LEEFT) with nanowire-modified electrodes for water disinfection in pipes

Jianfeng Zhou

Ting Wang

Wensi Chen

Self-driven membrane filtration by core–shell polymer composites

Ting Wang

Wensi Chen

Hai Dong

Wei Sun

Development of nanowire-modified electrodes applied in the locally enhanced electric field treatment (LEEFT) for water disinfection

Jianfeng Zhou

Ting Wang

Co-Authors

Ching-Hua Huang

Xing XIE（谢兴）

Jianfeng Zhou

Tianqi Zhang

Wensi Chen