Meiping Gao | Social Media and Digital Marketing | Best Researcher Award

Posted on by ScienceFather

Meiping Gao | Social Media and Digital Marketing | Best Researcher Award

Ms Meiping Gao Beijing Municipal Research Institute of Eco Environmental Protection, China

She pursued her Master’s degree in Chemical Engineering and Technology at Beijing University of Chemical Technology from September 2009 to June 2012, specializing in wastewater treatment. As a Master’s candidate, she delved into research in the Department of Chemical Engineering. Following her academic pursuits, she has established herself as a prominent researcher in environmental protection.

šŸŽ“Education:

During the period from September 2009 to June 2012, she pursued her Master’s degree in Chemical Engineering and Technology at Beijing University of Chemical Technology. Engaging with the Department of Chemical Engineering, she dedicated her research efforts to the critical domain of wastewater treatment. Her academic journey during this time laid the foundation for her expertise in addressing environmental challenges through innovative solutions in chemical engineering and technology.

šŸŒ Profile Links:

Experience:

In her professional journey, she commenced her environmental engineering career at Beijing Lideheng Environmental Protection Engineering Co., Ltd. from July 2012 to January 2024, specializing in the prevention and control of air pollution. This foundational experience was followed by her current tenure at the Beijing Municipal Research Institute of Eco-Environmental Protection, starting from February 2024. Here, she is dedicated to pioneering research focused on the prevention and control of air pollution alongside the critical domain of indoor air quality control. Her commitment to environmental protection spans across various roles, emphasizing her expertise in combating air pollution through extensive research and practical applications. Her academic pursuits, culminating in a Master’s degree in Chemical Engineering and Technology from Beijing University of Chemical Technology, serve as a robust foundation for her impactful work in environmental engineering.

Academic achievements:

She has made significant contributions to environmental science and air quality research, establishing herself as the first author in several impactful publications. Her work includes investigating the emission factors and characteristics of volatile organic compounds (VOCs) from hair product applications in Beijing hair salons, as well as from adhesive applications in indoor decoration in China, both published in the Science of the Total Environment (2023 and 2021, respectively). Additionally, her research on source profiles and emission factors of VOCs from solvent-based architectural coatings and their contributions to ozone and secondary organic aerosol formation in China has been published in Chemosphere in 2021. She has also explored innovative approaches to environmental challenges, such as the ozonation of azo dye Acid Red 14 in a microporous tube-in-tube microchannel reactor, published in Chemosphere in 2012. Furthermore, she played a pivotal role in the formulation of the mandatory local standards in Beijing titled “Limit Standard of Volatile Organic Compounds of Architectural Coatings and Adhesives” (DB11/1983-2022). Her diverse research portfolio showcases her expertise in air quality, environmental protection, and her leadership in shaping local standards for volatile organic compounds in architectural coatings and adhesives.

šŸ“ŠPublications:

  1. Ozonation of azo dye Acid Red 14 in a microporous tube-in-tube microchannel reactor: Decolorization and mechanism Cited By : 73, Published By : 2012

  2. Emission factors and characteristics of volatile organic compounds (VOCs) from adhesive application in indoor decoration in China Cited By : 24, published By : 2021

  3. Source profiles and emission factors of VOCs from solvent-based architectural coatings and their contributions to ozone and secondary organic aerosol formation in China Cited By : 38, Published By : 2021

  4. Emission factors and emission inventory of volatile organic compounds (VOCs) from hair products application in hair salons in Beijing through measurement Published By : 2023

  5. High Temperature Adsorption of SO2 on Mixed Oxides Derived from CaAl Hydrotalcite-Like Compounds Published By : 2021

  6. Physico-chemical characterization and source tracking of black carbon at a suburban site in Beijing Cited By : 14, Published By : 2015Ā  Ā 

  7. Influence of temperature on formaldehyde emission parameters of solvent-based coatings Published By : 2021

  8. Ozonation of Acid Red 14 in the Presence of Inorganic Salts in a Microporous Tube-in-Tube Microchannel Reactor Published By : 2014

  9. VOCs emission characteristics of water-based architectural coatings in my country and their environmental impact Published By : 2021Ā  Ā  Ā Ā 

Yuanyuan Tian | Social Media and Digital Marketing Strategy

Posted on by ScienceFather

Yuanyuan Tian – Leading Researcher in Social Media and Digital Marketing Strategy

Dr Yuanyuan Tian, a distinguished academic and researcher in the field of renewable energy, Academician/Research Nanyang Technological University, Singapore. His academic journey has been marked by a profound dedication to Autonomous Vehicles into Social Media and Digital Marketing applications.

šŸ“š Research Experience:

She has an extensive research background, currently serving as a Research Fellow at the Singapore Centre for 3D Printing in Nanyang Technological University since October 2023, under the guidance of Prof. Kun Zhou. Prior to this, she held the position of Research Fellow at the HP-NTU Digital Manufacturing Corporate Lab from January 2023 to October 2023, also working with Prof. Kun Zhou. Her earlier roles include being a Project Officer and an Exchanged Ph.D. student at the School of Mechanical & Aerospace Engineering, Nanyang Technological University, from October 2022 to January 2023 and August 2021 to August 2022, respectively, under the supervision of Prof. Kun Zhou. She completed her Ph.D. in Engineering Mechanics at Hunan University, China, from September 2016 to October 2022, achieving an impressive GPA of 89/100, ranking in the top 3%, with Prof. Qihong Fang and Prof. Jia Li as her supervisors.

šŸŒ Profile Links:

šŸ¤ Project Experience:

She has been actively involved in various research projects, showcasing her expertise in materials science and engineering. Notably, she hosted the research project titled “Study on the mechanism of the subsurface and interface damages induced by the high-speed grinding of multilayer materials,” which received support from theHunan Graduate Research Innovation Project, spanning from May 2019 to May 2021. Additionally, she has made significant contributions to projects such as “Study on the dislocation mechanism of toughening and deformation of ultra-fine refractory high entropy alloy” (supported by the National Natural Science Foundation of China since January 2017) and “Study on microstructure and mechanical property of high entropy alloys based on high flux end quenching” (supported by the Fundamental Research Funds for the Central Universities since October 2017). Her commitment to advancing knowledge in these areas reflects her dedication to cutting-edge research and development.

šŸŒProfessional Skills:Ā 

Languages: Chinese (Native) and English (Fluent).

Familiar with the operation of 3D printers.

Proficient in various scientific tools, including Lammps, Ovito, Vmd, Materials Studio, ABAQUS, Neper, C++ Programming, MatLab, Origin, AutoCAD, SolidWorks, and so on.

Academic Conferences:

  • Oral presentation in ā€œ2018 National Conference on Solid Mechanicsā€, Harbin, China, Nov. 2018.
  • Wall presentation in ā€œThe Chinese Congress of Theoretical and Applied Mechanics (CCTAM 2019)ā€, Hangzhou, China, Aug. 2019.
  • Oral presentation in ā€œNational Mechanics Doctoral forumā€, Beijing, China, Sep. 2019

Publications:

  • Y. Tian, K.J. Chen, H. Zheng, D.R. Kripalani, Z.H. Zeng, A. Jarlƶv, ā€¦ & K. Zhou. Additively Manufactured Dual-faced Structured Fabric for Shape-adaptive Protection. Advanced Science 2023, 2301567.
  • Y. Tian, J. Li, G.J. Luo, Q.H. Fang. Tribological property and subsurface damage of nanotwinned Cu/FeCoCrNi high entropy alloy nanolaminates at various scratching velocities and normal loads. Tribology International 2022, 169, 107435.
  • Y. Tian, J. Li, G.J. Luo, Q.H. Fang, J. Peng. Strengthening and Softening in Gradient Nanotwinned FCC Metallic Multilayers. Chinese Physics B 2022, 31(6), 066204.
  • Y. Tian, H. Feng, J. Li, Q.H. Fang, L.C. Zhang. Nanoscale sliding friction behavior on Cu/Ag bilayers influenced by water film. Applied Surface Science 2021, 545, 148957.
  • Y. Tian, Q.H. Fang, J. Li. Molecular dynamics simulations for plastic response of nanotwinned FeNiCrCoCu high entropy alloy under nanoindentation. Nanotechnology 2020, 31, 465701.
  • Y. Tian, J. Li, Z.Y. Hu, Z.P. Wang, Q.H. Fang. Molecular dynamics study of plastic deformation mechanism in Cu/Ag multilayers. Chinese Physics B 2017, 26, 126802.
  • Y. Kong, G. J. Luo, Y.Y. Tian*, C.Y. Du. Atomic insight into tribological behavior of AlCoCrFeNi high entropy alloy at various nanoscratching conditions. Journal of Materials Research and Technology 2023, 27, 7293-7303.
  • Zhang, X.T. Zheng, L. Song, Y.Y. Tian*, D. Zhang, L.L. Yan, Compressive properties and failure mechanisms of 3D-printed continuous carbon fiber-reinforced auxetic structures. Composites Communications 2023, 43, 101744.
  • J. Luo, Y.Y. Tian1, F.L. Chen, J.F. Liu, S.Y. Chen, C.Y. Du. Atomic insight into mechanical behavior of AuPt alloys. International Journal of Mechanical Sciences, 2023, 108778.
  • H. Song1, Y.Y. Tian1, J.K. Quan, S.Y. Cui, J. Li, Q.H. Fang, V-shaped bending of Ti-6Al-4V titanium alloy sheet with elliptical hole. Materials Research Express 2019, 6, 1265j2.