Final Report Abstract

The main progress of the current project is a deepening of the understanding of the growth of tin-based thin films on silicon wafers during organometallic chemical vapor deposition using tin(IV) tert-butoxide as a source of tin and oxygen. A new phenomenon related to the homogeneous distribution of tin-based phases, from Sn(0) to Sn(IV), along one-dimensional silicon nanowires turned out to be a complex result of the realization of the supercritical conditions of the organometallic molecule in the so-called nanocapillary and significant differences in thermal conductivity between planar and nanostructured silicon surfaces, which enable the realization of the homogeneous distribution of tin phases. In addition, we found that the variation of the initial matrix of silicon nanowires geometry allows us to control the amount of deposited metallic tin phase. Another phenomenon observed in this project is related to the thermodynamic anomaly in the growth of the tin dioxide layer on silicon in the temperature range from 725°C to 735°C, which leads to the formation of new nano-composites based on localized nano-sized metallic tin nanoparticles in the silicon dioxide matrix. The thermodynamic anomaly is a result of the effective oxygen exchange between silicon and tin dioxide surfaces, in which the more electronegative silicon attracts oxygen from tin, leading to the reduction of tin(IV) dioxide (SnO2) and disproportionation of thermodynamically unstable tin(II) oxide (SnO) to metallic tin. Finally, the high flux of the molecular precursor leads to the creation of bulk and surface defects in undoped tin dioxide layers. The emission of blue and green light in the 450-520 nm range is well known in the literature and attributed to oxygenrelated defects, but yellow-orange emission is hardly discussed in the literature and can only be achieved for doped tin dioxide layers. Our studies allowed us to realize and experimentally confirm the presence of defects of different nature in undoped tin oxide layers using surface-sensitive X-ray spectroscopy techniques at synchrotron large scale facilities. In addition, we found an effect on undoped SnO2 layers, which can be used in optical sensing, related to the activation of different light emission by applying the same excitation energy of the 325 nm system with different photon fluxes (Xe-lump and He-Cd laser). The initial hypothesis of a plasmon-active metallic tin surface for Raman spectroscopy in the deep ultraviolet region could only be confirmed to a limited extent, as only very weak SERS effect was observed at excitation wavelengths of 244-325 nm. However, thanks to the cooperation with our USA partner from the University of Albany, Prof. Lednev, the postulated SERS activity of tin-based surfaces could be observed at excitation wavelengths below 220 nm. The experiments performed in the USA allowed us to detect bioanalytes, which confirmed our initial scientific hypothesis about the metallic tin plasmonic activity in the deep UV range. These results prompted us to change the original project strategy by using a different metal. In fact, when using electroless wet-chemically deposited copper (Cu) nanoparticles on silicon as substrates, we observed a clear enhancement of the Raman signal at 229-325 nm. To the best of our knowledge, this spectral range has not yet been used to excite plasmons on Cubased surfaces. In earlier studies, only excitation wavelengths in the visible to near-infrared region were reported. The Cu-based surfaces were characterized with an AFM and UV-SERS spectra of amyloid fibrils, dyes and their respective dye adducts were successfully recorded at different excitation wavelengths. In particular, the spectra of dye-containing samples indicated strong interactions with the metal surfaces. It is suggested that this is due to their electron-rich aromatic systems, which lead to a more effective enhancement of the Raman signal than that of the proteins. AFM imaging with different modes completed the studies and confirmed the accumulation of dyes on individual fibrils.

Link to the final report

https://doi.org/10.34657/27870

Publications

• Nanostructured silicon matrix for functional nanomaterials engineering. 19th International Conference on Nanosciences & Nanotechnologies (NN22) 5-8 July 2022, Thessaloniki, Greece. Poster Presentation
  Poting Liu & Vladimir Sivakov
  
• Investigations of the effect of DMSO on b-lactoglobulin fibrillation using AFM-based opto-mechanical techniques. ICAVS 12, 2023, Krakow, Poland, Poster presentation
  Divanshu Sharma, Tanja Deckert-Gaudig & Volker Deckert
  
• Nanostructured Silicon Matrix for Materials Engineering. Small, 19(12).
  Liu, Poting; Schleusener, Alexander; Zieger, Gabriel; Bochmann, Arne; van Spronsen, Matthijs A. & Sivakov, Vladimir
  
• Nanostructured Silicon: Quo vadis? From green hydrogen to nanomedicine. Invited Lecture at School of Chemistry, Cardiff University, Cardiff/UK. May 20, 2023
  Vladimir Sivakov
  
• Sn/SnO/SnO2 phases distribution along silicon nanowires matrix. EMRS Spring Meeting 2023, May 29 to June 2, 2023, Strasbourg, France. Oral and poster presentation
  Poting Liu, Alexander Schleusener, Gabriel Zieger, Matthijs van Spronsen, Sergey Turishchev & Vladimir Sivakov
  
• Spectromicroscopy Studies of Silicon Nanowires Array Covered by Tin Oxide Layers. Small, 19(10).
  Turishchev, Sergey; Schleusener, Alexander; Chuvenkova, Olga; Parinova, Elena; Liu, Poting; Manyakin, Maxim; Kurganskii, Sergei & Sivakov, Vladimir
  
• Tin-based phases engineering on planar and nanostructured silicon surfaces. FEMS EUROMAT 2023 3-7 September 2023, Frankfurt/Main, Germany. Oral presentation
  Poting Liu, Alexander Schleusener, Stephanie Lippmann, Matthijs van Spronsen, Sergey Turishchev & Vladimir Sivakov
  
• Tin/Tin Oxide Nanostructures: Formation, Application, and Atomic and Electronic Structure Peculiarities. Nanomaterials, 13(17), 2391.
  Liu, Poting & Sivakov, Vladimir
  
• Emission peculiarities in MOCVD deposited undoped SnO 2 layers. EMRS Spring Meeting 2024, 27-31 May 2024, Strasbourg, France. Poster presentation
  Poting Liu, Anjana Baby, Benjamin Dietzek-Ivanšič, Vaidas Klimkevičius & Vladimir Sivakov
  
• Nanoengineering of tinbased coatings using nanostructured silicon matrix. EMRS Spring Meeting 2024, 27-31 May 2024, Strasbourg, France. Oral presentation
  Poting Liu, Anna Makarova, Sergey Turishchev & Vladimir Sivakov
  
• Peculiarities in XPS spectra of Sn/SiO2 layers as an effect of surface charge. Results in Physics, 61, 107733.
  Liu, Poting; Freiberg, Katharina; Grinter, David C. & Sivakov, Vladimir
  
• PhD Thesis: Materials engineering of Tin-based functional nanostructures by chemical vapor deposition
  Poting Liu
  
• Photoluminescence from undoped SnO2 thin films by chemical vapor deposition. MRS Fall Meeting, 1- 6 December 2024, Boston, USA. Poster presentation
  Poting Liu, Mohammed Aly Nouh, Martin Koch, Vaidas Klimkevicius, Pilar Ferrer & Vladimir Sivakov
  
• Volcanic Eruption in the Nanoworld: Efficient Oxygen Exchange at the Si/SnO2 Interface (Small 35/2024). Small, 20(35).
  Liu, Poting; Makarova, Anna; Freiberg, Katharina; Grinter, David C.; Sharma, Divanshu; Ferrer, Pilar; Chuvenkova, Olga; Deckert‐Gaudig, Tanja; Turishchev, Sergey; Lippmann, Stephanie & Sivakov, Vladimir
  
• Volcanic Eruption in the Nanoworld: Efficient Oxygen Exchange at the Si/SnO2 Interface. Small, 20(35).
  Liu, Poting; Makarova, Anna; Freiberg, Katharina; Grinter, David C.; Sharma, Divanshu; Ferrer, Pilar; Chuvenkova, Olga; Deckert‐Gaudig, Tanja; Turishchev, Sergey; Lippmann, Stephanie & Sivakov, Vladimir
  
• Volcano-like effect at the nanoscale: efficient oxygen exchange at the Si/SnO 2 interface. EMRS Spring Meeting 2024, 27-31 May 2024, Strasbourg, France. Oral Presentation
  Poting Liu, Anna Makarova, Stephanie Lippmann, Katharina Freiberg, David C. Grinter, Pilar Ferrer, Sergey Turishchev & Vladimir Sivakov
  
• Copper‐Based Multiwavelength UV Surface Enhanced Raman Spectroscopy (Advanced Optical Materials 18/2025). Advanced Optical Materials, 13(18).
  Yadav, Shivani; Talaikis, Martynas; Ryabchikov, Yury V.; Ziegler, Mario; Niaura, Gediminas; Deckert‐Gaudig, Tanja & Sivakov, Vladimir
  
• Copper‐Based Multiwavelength UV Surface Enhanced Raman Spectroscopy. Advanced Optical Materials, 13(18).
  Yadav, Shivani; Talaikis, Martynas; Ryabchikov, Yury V.; Ziegler, Mario; Niaura, Gediminas; Deckert‐Gaudig, Tanja & Sivakov, Vladimir
  
• Emission peculiarities in MOCVD deposited undoped SnO 2 layers. Euro CVD&ALD 24, 2-5 June 2025, Catania, Italy. Oral presentation
  Poting Liu, Anjana Baby, Vaidas Klimkevicius, Martin Koch, Anna Makarova, David Grinter, Pilar Ferrer & Vladimir Sivakov
  
• Nanoengineering of tinbased coatings using nanostructured silicon matrix. Euro CVD&ALD 24, 2-5 June 2025, Catania, Italy. Poster presentation
  Poting Liu, Anna Makarova, Sergey Turishchev & Vladimir Sivakov
  
• NEXAFS spectral peculiarities in Sn:SiO2 composite layer. Results in Physics, 75, 108339.
  Sivakov, Vladimir; Liu, Poting; Freiberg, Katharina; Yadav, Shivani; Grinter, David C. & Makarova, Anna
  
• Volcano-like effect at the nanoscale: efficient oxygen exchange at the Si/SnO2 interface. Euro CVD&ALD 24, 2-5 June 2025, Catania, Italy. Poster presentation
  Poting Liu, Anna Makarova, Stephanie Lippmann, Katharina Freiberg, David Grinter, Pilar Ferrer, Sergey Turishchev & V. Sivakov