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Personal profile

Quote

Ultra-drawn UHMWPE is an ideal candidate for smart windows in thermal management and energy-saving field due to its excellent thermal conductivity and visible light transmission.

Research profile

Xinglong Pan is a doctoral candidate in the Stimuli-responsive Functional Materials and Devices group under supervision of Prof. Dr. Albert Schenning and Prof. Dr. Cees Bastiaansen. Xinglong works on materials based on ultra-drawn PE films which show potential application in energy-saving and thermal management.

Academic background

Xinglong completed his Bachelor's degree with Materials Physics in 2014 at China University of Petroleum (East China). In 2017, he finished Master degree with Materials Science and Engineering about gas seperation membranes and gas sensors based on polymer and carbon materials at same university. Now, he works as a doctoral candidate in the Stimuli-responsive Functional Materials and Devices group at TU/e about smart windows based on ultra-drawn PE films.

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Research Output 2019 2019

Temperature- and light-regulated gas transport in a liquid crystal polymer network

Cao, A., van Raak, R. J. H., Pan, X. & Broer, D. J., 9 Jul 2019, In : Advanced Functional Materials. 29, 28, 6 p., 1900857

Research output: Contribution to journalArticleAcademicpeer-review

gas transport
Liquid crystal polymers
Gases
liquid crystals
Permeation

Transparent, high-thermal-conductivity ultradrawn polyethylene/graphene nanocomposite films

Pan, X., Shen, L., Schenning, A. P. H. J. & Bastiaansen, C. W. M., 22 Aug 2019, In : Advanced Materials. 1904348

Research output: Contribution to journalArticleAcademicpeer-review

Nanocomposite films
Graphite
Polyethylene
Graphene
Polyethylenes