I. Personal Information:
Full name: TRAN
THI
MINH PHUONG
Gender: Female
Highest degree: Doctor of Philosophy
Year:
2022, Singapore
Position: Lecturer
Affiliation: Faculty of
Environment, University of Science and Technology,
The University of Danang
E-mail: ttmphuong@dut.udn.vn
II. Education Background:
1. Higher
Education, Undergraduate Level
Institution:
Faculty of Environment, University of Science and
Technology, The University of Danang, Vietnam
Graduated year: 2010
2. Higher
Education, Graduate Level (Master’s Course)
Institution: Institute
of Environmental Engineering, National Chiao Tung University -
Taiwan
Graduated year: 2015
3. Higher
Education, Graduate Level (Doctor’s Course)
Institution: Department
of Civil and Environmental Engineering, National University of Singapore -
Singapore
Graduated year: 2022
4.
Languages: English, Chinese
III. Employment Record:
1.
Employer: Faculty of Environment, University
of Science and Technology, The University of Danang, Vietnam
Position:
Lecturer
Period:
2010-now
2.
Employer: Department
of Civil and Environmental Engineering, Nanyang
Technological University, Singapore
Position:
Research Associate
Period:
2016-2017
3.
Employer: Department
of Civil and Environmental Engineering, National
University of Singapore, Singapore
Position:
Research Associate
Period:
2017-2019
4.
Employer: Department
of Civil and Environmental Engineering, National
University of Singapore, Singapore
Position:
Research Fellow
Period:
2022-now
IV. Research
achievements:
Research field: Air pollution control, Aerosol science and
technology, Environmental
and health risk assessment, Sustainable
urban development, Climate change
Research projects:
No.
|
Title
|
Year
|
Type of projects
|
Role
|
1
|
Effects of planting schemes on Particulate pollution exposure along
tropical urban streets
|
2021-now
|
A collaborative project involving National Parks Board and National University of Singapore,
Singapore
|
Lead researcher
|
2
|
Healthy Living in Cities: my Personal Exposure Quality
|
2018-2020
|
A
multi-institutional collaborative project involving National University of
Singapore; University of California Berkeley, USA; and University of
Cambridge, UK
|
Lead researcher
|
3
|
Energy and Environmental Sustainability
Solutions for Megacities - E2S2
|
2017-2018
|
A collaborative project involving National University of Singapore and
Shanghai Jiao Tong University, China
|
Researcher
|
4
|
Identifying Performance Indicators for Inclusive Streets
|
2016-2017
|
A
collaborative project involving Land Transport Authority and Nayang
Technological University, Singapore
|
Researcher
|
5
|
Study of New Electrostatic Precipitators
|
2014-2015
|
A project lead by National Chiao Tung University, Taiwan
|
Lead Researcher
|
Original papers:
1.Tran, P. T.,
Kalairasan, M., Beshay, P. F., Qi, Y., Ow, L. F., Govindasamy, V., ... &
Balasubramanian, R. (2022). Nature-Based Solution for Mitigation of Pedestrians’
Exposure to Airborne Particles of Traffic Origin in a Tropical city. Sustainable
Cities and Society, 104264. (2021
IF = 10.696, Q1 SCIE)
2. Hoang, A. N., Pham, T. T. K., Mai, D. T. T., Nguyen,
T., & Tran, P. T. (2022).
Health risks and perceptions of residents exposed to multiple sources of air
pollutions: A cross-sectional study on landfill and stone mining in Danang
city, Vietnam. Environmental Research, 113244. (2021 IF = 8.431, Q1 SCIE)
3. Tran, P. T., Adam, M.
G., & Balasubramanian, R. (2021). Assessment and mitigation of toddlers’
personal exposure to black carbon before and during the COVID-19 pandemic: A
case study in Singapore. Environmental Research, 111711. (2021 IF = 8.431, Q1 SCIE)
4.Tran, P.T., Adam,
M.G., Tham, K.W., Schiavon, S., Pantelic, J., Linden, P.F., Sofianopoulou, E.,
Sekhar, S.C., Cheong, D.K.W. and Balasubramanian, R., (2021). Assessment and
Mitigation of Personal Exposure to Particulate Air Pollution in Cities: An
Exploratory Study. Sustainable Cities and Society, 103052. (2021 IF = 10.696, Q1 SCIE)
5.Tran, P.T., Adam,
M.G. and Balasubramanian, R., (2020). Mitigation of Indoor Human Exposure to
Airborne Particles of Outdoor Origin in an Urban Environment During Haze and
Non-Haze Periods. Journal of Hazardous Material, 123555. (2021 IF = 14.224, Q1 SCIE)
6.Tran, P.T., Nguyen,
T. and Balasubramanian, R., (2020). Personal Exposure to Airborne Particles in
Transport Micro-Environments and Potential Health Impacts: A Tale of Two
Cities. Sustainable Cities and Society, 102470. (2021 IF = 10.696, Q1 SCIE)
7. Tran, P.T., Mushu
Zhao, Kohei Yamamoto, Laura Minet, Nguyen, T. and Balasubramanian, R., (2020). Cyclists’ exposure to traffic-related air pollution and its
influence on bikeability. Transportation Research Part D: Transport and
Environment, 102563 (2021 IF = 7.041,
Q1 SCIE)
8. Tran, P.T., Ngoh,
J.R. and Balasubramanian, R., (2020). Assessment of Integrated Personal
Exposure to Particulate Emissions in Urban Microenvironments: A Pilot Study. Aerosol
and Air Quality Research, 341-357. (2021
IF = 4.530, Q2 SCIE)
9.Adam, M. G., Tran,
P. T., Bolan, N., & Balasubramanian, R. (2020). Biomass
burning-derived airborne particulate matter in Southeast Asia: a critical
review. Journal of Hazardous Materials, 124760. (2021 IF = 14.224, Q1 SCIE)
10.Adam, M. G., Tran,
P. T., Cheong, D. K. W., Chandra Sekhar, S., Tham, K. W., &
Balasubramanian, R. (2021). Assessment of Home-Based and Mobility-Based
Exposure to Black Carbon in an Urban Environment: A Pilot Study. International
Journal of Environmental Research and Public Health, 18(9), 5028. (2021 IF = 4.614, Q1 SSCI)
11.Adam, M. G., Tran, P. T., and Balasubramanian, R.
(2021). Air quality changes in cities during the COVID-19 lockdown: A critical
review. Atmospheric Research, 105823. (2021 IF = 5.965, Q1 SCIE).
12. Li Z.Y, Liu Y.S, Xing Y, Tran, P.T, Thi-Cuc Le, and Chuen-Jinn Tsai (2015), Novel
Wire-on-Plate Electrostatic Precipitator (WOP-EP) for Controlling Fine Particle
and Nanoparticle Pollution, Environmental Science & Technology 49 (14), 8683-8690. (2021
IF = 11.357, Q1 SCIE)
13. Chien C.L, Tsai C.J, Tran, P.T (2014) Response to Comment on “Modeling and Validation
of Nanoparticle Charging Efficiency of a Single-Wire Corona Unipolar Charger”, Aerosol
Science and Technology, 48:12, iv-vi, (2021 IF = 4.809, Q1 SCIE)