Large-scale production of 2D crystals for energy applications
Francesco Bonaccorso a b
a BeDimensional S.p.A., Lungotorrente Secca, 30, Genova, Italy
b Istituto Italiano di Tecnologia, Via Morego, 30, Genova, Italy
Materials for Sustainable Development Conference (MATSUS)
Proceedings of nanoGe Fall Meeting 2021 (NFM21)
#2DCat21. 2D Materials: Emerging Catalysts
Online, Spain, 2021 October 18th - 22nd
Organizers: Maya Bar Sadan, Stefano Agnoli and Zdenek Sofer
Invited Speaker, Francesco Bonaccorso, presentation 233
DOI: https://doi.org/10.29363/nanoge.nfm.2021.233
Publication date: 23rd September 2021

      The development of industrial-scale, reliable, inexpensive production processes of graphene and related two-dimensional materials (GRMs)[1,2] is a key requirement for their widespread use in several application areas,[1-6] providing a balance between ease of fabrication and final product quality. In particular, in the energy sector, the production of GRMs in liquid phase [2,6] represents a simple and cost-effective pathway towards the development of GRMs-based energy devices, presenting huge integration flexibility compared to other production methods.

     In this presentation, I will first briefly introduce the key properties of GRMs. Then, I will present the strategy of BeDimensional in the production of GRMs by wet-jet milling [7] and the Industrial scale up. Afterward, I will provide a brief overview on some key applications of the as-produced GRMs, for anticorrosion coatings and energy conversion and storage devices. [3,8-15]

 

REFERENCES

 

[1] F. Bonaccorso, et. al., Adv. Mater. 28, 6136-6166 (2016).

[2] F. Bonaccorso, et al., Materials Today, 15, 564-589, (2012).

[3] F. Bonaccorso, et. al., Nature Photonics 4, 611-622, (2010).

[4] E. Pomerantseva, F. Bonaccorso, et al., Science 366 (6468) eaan8285 (2019).

[5] G. Iannaccone F. Bonaccorso, et al., Nature Nanotech 13, 183, (2018).

[6] A. C. Ferrari, F. Bonaccorso, et al., Nanoscale, 7, 4598-4810 (2015).

[7] A. E. Del Rio Castillo et. al., Mater. Horiz. 5, 890 (2018).

[8] F. Bonaccorso, et. al., Science, 347, 1246501 (2015).

[9] M. Garakani, et al. Energy Storage Materials 34, 1-11 (2020).

[10] S. Bellani, et al. Nano Lett.  18, 7155-7164 (2018).

[11] A. E. Del Rio Castillo, et al., Chem. Mater. 30, 506-516 (2018).

[12] S. Bellani, et al. Nanoscale Horizons 4, 1077 (2019).

[13] S. Bellani, et al. Adv. Funct. Mater. 29, 1807659 (2019).

[14] L. Najafi et al., Advanced Energy Materials 8 (16), 1703212 (2018).

[15] E. Lamanna et al., Joule 4, 865-881 (2020).

 

 

© FUNDACIO DE LA COMUNITAT VALENCIANA SCITO
We use our own and third party cookies for analysing and measuring usage of our website to improve our services. If you continue browsing, we consider accepting its use. You can check our Cookies Policy in which you will also find how to configure your web browser for the use of cookies. More info