| Redox Potentials: | SnCl2 → SnCl4 | -0.1375 | |
| Os3+ + 3e- → Os | unknown | ||
| Total: | favorable |
There is no need to prepare the glassware before intercalation. Setup the reflux apparatus as shown in Fig 2. There is also no need to use an air-free setup. Prepare a stock solution of stannous chloride of 0.014 g of SnCl2 in 5 mL.
Heat a solution of 0.015 g osmium(III) chloride in 5 mL acetone in the round-bottom flask (Fig 1) to just below reflux (48°C). Once heated, drop the 2D material, free or suspended on a substrate, into the round bottom flask. Dropwise, add in the solution of tin(II) chloride very slowly over the course of 3 hours. Keep heating during this time at just below reflux. After 3 hours, and complete injection of the stannous chloride solution, wait an additional 30 – 45 mins with heating. Afterwards, remove the substrate or 2D crystal from solution and rinse with acetone or ethanol several times. Rinsing with heated acetone (~45°C) will help remove any other salt impurities that may end up on the substrate.
| Os(III)Cl3 | SnCl2 | acetone | time | ~ intercalated in Bi2Se3 |
|---|---|---|---|---|
| 0.015 g | 0.14 g | 10 mL | 3 hours | 5 atm % ± 2% |
M. Wang, D. Williams, G. Lahti, S. Teshima, D. Dominguez-Aguilar, K. J. Koski, Chemical intercalation of heavy metal, semimetal, and semiconductor atoms into 2D layered chalcogenides. 2D Materials, 5, 045005 (2018)