(Press-News.org) Contact information: Carolyn Fong
carolyn@nus.edu.sg
65-651-65399
National University of Singapore
Novel exfoliation method developed by NUS chemists paves the way for 2-dimensional materials to be used in printable photonics and electronics
Versatility of new technique shows promise as new benchmark in exfoliation chemistry of 2-dimensional chalcogenides
Singapore, 2 January 2014 – A team of scientists from the National University of Singapore (NUS) has successfully developed a method to chemically exfoliate molybdenum disulfide crystals, a class of chalcogenide compounds, into high quality monolayer flakes, with higher yield and larger flake size than current methods. The exfoliated flakes can be made into a printable solution, which can be applied in printable photonics and electronics.
This breakthrough, led by Professor Loh Kian Ping, who heads the Department of Chemistry at the NUS Faculty of Science, and is also a principal investigator with the Graphene Research Centre at the Faculty, has generic applicability to other two-dimensional chalcogenides, such as tungsten diselenide and titanium disulfide, and results in high yield exfoliation for all of these two-dimensional materials.
The NUS team collaborated with scientists from the Ulsan National Institute of Science and Technology in Korea, and the findings were first published online in prestigious scientific journal Nature Communications on 2 January 2014.
Demand for high efficiency exfoliation method
Transition metal dichalcogenides, formed by a combination of chalcogens, such as sulphur or selenium, and transition metals, such as molybdenum or tungsten, have recently attracted great attention as the next generation of two-dimensional materials due to their unique electronic and optical properties, for applications in optoelectronic devices such as thin film solars, photodetectors flexible logic circuits and sensors.
However, current processes of producing printable single layer chalcogenides take a long time and the yield is poor. The flakes produced are of submicron sizes, which make it challenging to isolate a single sheet for making electronic devices.
As most applications require clean and large-sized flakes, this pinpoints a clear need to explore new ways to make high quality single-layer transition metal dichalcogenides with high yield.
Breakthrough in production
To address the production bottleneck, the NUS team explored the metal adducts of naphthalene. They prepared naphthalenide adducts of lithium, sodium and potassium, and compared the exfoliation efficiency and quality of molybdenum disulfide generated. The processing steps are detailed in the Annex.
Using a two-step expansion and intercalation method, the researchers were able to produce high quality single-layer molybdenum disulfide sheets with unprecedentedly large flake size.
The researchers also demonstrated that the exfoliated molybdenum disulfide flakes can be made into a printable solution, and wafer-size films can be printed, as the good dispersion and high viscosity of the flakes render it highly suitable for inkjet printing.
In a comparative analysis, Dr Zheng Jian, the first author of the paper, who is also a Research Fellow with the Department of Chemistry at NUS Faculty of Science, found that the alkali metal naphthalenide intercalation method applied possesses significant advantages in comparison to the conventional method.
Commenting on the significance of the findings, Prof Loh said, "At present, there is a bottleneck in the development of solution-processed two dimensional chalcogenides. Our team has developed an alternative exfoliating agent using the organic salts of naphthalene and this new method is more efficient than previous solution-based methods. It can also be applied to other classes of two-dimensional chalcogenides."
"Considering the versatility of this method, it may be adopted as the new benchmark in exfoliation chemistry of two-dimensional chalcogenides," he added.
Further research into printable devices
The fast growing field of printed photonics, electronics and optoelectronics demands high material quality, precise material deposition, and application-specific optical, electrical, chemical, and mechanical properties.
To further their research and to cater to the industry, Prof Loh and his team will be looking at developing inks based on different types of two-dimensional chalcogenides exfoliated by their novel method so as to produce printable optoelectronic devices. They will also be testing the optical non-linear properties of the flakes they have produced.
INFORMATION:
For media enquiries, please contact:
Carolyn Fong
Manager, Media Relations
Office of Corporate Relations
National University of Singapore
DID: (65) 6516 5399
Email: carolyn@nus.edu.sg
About National University of Singapore (NUS)
A leading global university centred in Asia, the National University of Singapore (NUS) is Singapore's flagship university, which offers a global approach to education and research, with a focus on Asian perspectives and expertise.
NUS has 16 faculties and schools across three campuses. Its transformative education includes a broad-based curriculum underscored by multi-disciplinary courses and cross-faculty enrichment. Over 37,000 students from 100 countries enrich the community with their diverse social and cultural perspectives.
NUS has three Research Centres of Excellence (RCE) and 23 university-level research institutes and centres. It is also a partner in Singapore's fifth RCE. NUS shares a close affiliation with 16 national-level research institutes and centres. Research activities are strategic and robust, and NUS is well-known for its research strengths in engineering, life sciences and biomedicine, social sciences and natural sciences. It also strives to create a supportive and innovative environment to promote creative enterprise within its community.
For more information, please visit http://www.nus.edu.sg.
Annex
Schematic of pre-exfoliation, intercalation and exfoliation processes
[Insert Media with title Annex here]
(a) Bulk molybdenum disulfide crystal was expanded by decomposition of hydrazine.
(b) The expanded molybdenum disulfide reacted with sodium naphthalenide to form an intercalation sample, then exfoliated into single layer sheets by immersing in water.
(c) Scanning electron microscopy image of single layer molybdenum disulfide on silicon dioxide.
(d) Atomic force microscopy image of single layer molybdenum disulfide on silicon dioxide.
(e) Photograph of bulk single crystal molybdenum disulphide.
(f) Photograph of pre-exfoliated molybdenum disulphide.
(g) Photograph of sodium-exfoliated single layer molybdenum disulfide dispersion in water.
Novel exfoliation method developed by NUS chemists paves the way for 2-dimensional materials to be used in printable photonics and electronics
Versatility of new technique shows promise as new benchmark in exfoliation chemistry of 2-dimensional chalcogenides
2014-01-03
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[Press-News.org] Novel exfoliation method developed by NUS chemists paves the way for 2-dimensional materials to be used in printable photonics and electronicsVersatility of new technique shows promise as new benchmark in exfoliation chemistry of 2-dimensional chalcogenides