报告时间:7月24日(周二)10:00
报告地点:科技创新大楼C501室
报告人:Tawfique Hasan
Functional inks of
2D materials: Strategies for scalable manufacturing of printed optoelectronics
and photonics
Abstract:Beyond graphene, non-carbon two-dimensional
(2D) crystals have recently shown huge promises for applications in a wide
range of optoelectronic devices. Solution processability of these materials
offers an exciting opportunity when applications with large form factors are
envisaged. As an inevitable extension to this requirement, the ability to
formulate their functional inks is of paramount importance for large-scale
device manufacturability.
For ink
formulation of these 2D materials, which can be best described as “powders”,
solvents and ink rheological properties play a critical role in printing and
device fabrication as well as the ultimate device performance [1,2]. Starting
with inkjet printing, I will discuss key ink formulation strategies of these novel
2D materials and printed devices. I will show that the choice of unique solvent
blends allows us to engineer counteracting the Marangoni flows in drying
droplets [2,3]. This enables uniform, reliable inkjet printing towards scalable
development of printed electronic, photonic and optoelectronic devices of a
range of 2D materials [2-5]. In the latter half of my talk, I will move into
printing on conformable substrates as well as scalable, large format print
technologies and show that a combination of advanced materials printed by
traditional graphics printing and contemporary electronics could promote simple
and inexpensive,yet powerful technologies.
References
[1] G. Hu, J. Kang, L. Ng, X. Zhu, R. C. T.
Howe, C. Jones, M. C. Hersam, T. Hasan, Chemical Society Reviews,47, 3265-3300 (2018).
[2] L. Ng, R. C. T. Howe, G. Hu, X. Zhu, Z.
Yang, C. Jones, T. Hasan,Functional Inks
and Printing of Graphene and Related?2D Materials: Technology, Formulation and
Applications, (Springer, 2018)
[3] G. Hu, T. Albrow-Owen, X. Jin, A. Ali, Y.
Hu, R. C. T. Howe, K. Shehzad, Z. Yang, X. Zhu, R. I. Woodward, T.-C. Wu, H.
Jussila, J.-B. Wu, P. Peng, P.-H. Tan, Z. Sun, E. J. R. Kelleher, M. Zhang, Y.
Xu, T. Hasan, Nature Communications,8,
278 (2017).
[4] T. Juntunen, H. Jussila, M. Ruoho, S.
Liu, G. Hu, T. Albrow‐Owen, L. W. T. Ng, R. C. T. Howe, T. Hasan,
Z. Sun, I. Tittonen, Advanced Functional Materials28, 1800480 (2018)
[5] G. Hu, L. Yang, Z.
Yang, Y. Wang, X. Jin, J. Dai, Q. Wu, S. Liu, T.-C. Wu, R. C. T. Howe, T. Albrow-Owen,
X. Zhu, L. W. T. Ng, Z. Zheng, Q. Yang, L. Occhipinti, R. I. Woodward, E. J. R.
Kelleher, Z. Sun, X. Huang, M. Zhang, C. D. Bain, T. Hasan, Under Review
(2018).
Biography:DrTawfique
Hasan is a Reader (Associate Professor/Professor) in Nanomaterials Engineering
in the Cambridge Graphene Centre, Cambridge University Engineering Department
and holds a concurrent professorship at Nanjing University.
He is
also a Fellow and a Director of Studies in Engineering in Churchill College,
Cambridge.
Before
joining as a University Lecturer in Cambridge in 2013, he was awarded a Royal
Academy of Engineering Research Fellowship, a Junior Research Fellowship at
Kings College, Cambridge and an NSFC International Young Scientist Research
Fellowship.
He leads
a research group within the Cambridge Graphene Centre, with core interest in
functional ink formulation of 2D materials for printed (opto)electronics,
photonicsand wearablesas well as novel porous metal oxide and their hybrids for
energy and connected sensor systems.
Tawfique
initiated the field of ultrafast lasers exploiting 2D materials, pioneered the
integration of inkjet printed 2D materials with silicon platform for (opto)electronicsand
photonics and demonstrated the first industrial scale high speed printing of
grapheneink for large area touch surfaces.
He has
published >100 peer reviewed journal articleswith > 13,000 citation and
36 H indexand presented>40 keynote and invited conference talks.
Tawfique
has spun out two start-up companies, one of which was acquired by Versarien plc
last year.
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