Room temperature stable molecules adsorbed on semi-conductors

The adsorption of functional molecules on surfaces plays a vital role in the emerging field of nanoelectronics. In this context, molecular and supramolecular ordering, which are key steps in the development of complexes architectures, are controlled by a balance between intermolecular forces and molecule–substrate interactions.

Isolated molecules on Si(111)-B

Isolated molecules on Si(111)-B
Image 8x12nm2

The deposition of organic molecules and preservation of their entire skeleton, especially on semiconductor surfaces, is still a challenge, although much progress has been made in the development of metallic surface-based devices with organic molecules at low temperature, where the molecule–surface interactions are weak and diffusion remains low. However, the use of metallic substrates is less attractive for potential applications as semiconductors, especially in the field of nanoelectronics.

2D-molecular star on Si(111) 7x7

2D-molecular star on Si(111) 7x7
Image 6x7nm2

In order to circumvent the problem of traditional silicon surface reactivity with pi-conjugated molecules, the Si(111)-B surface is used. This surface has the unique particularity to exhibit depopulated dangling bonds due to the presence of boron atoms under the top silicon layer. We have shown that the weak interactions between rich pi-electron molecules with empty pz depopulated dangling orbitals of the Si-B surface are most likely to be at the origin of the specific adsorption of isolated triazine molecules at the Si-B surface. This structure is stable at room temperature, and the pi-conjugated skeleton of organic molecules is preserved even after deposition [1].

We propose a new concept for the room-temperature deposition of pi-conjugated organic molecules, without any modification of their electronic structure, at specific adsorption sites on the surface of the semiconductor Si(111)-7x7 by adsorbing p-conjugated zwitterionic molecules on this semiconductor surface. The presence of a negative charge on the target molecules offsets the electrophilic character of the Si(111)-7x7 adatoms and preserves the p skeleton of the organic molecules after deposition. The half-cells of Si(111)-7x7 act as a template that guides the molecular assembly of achiral molecules, as shown by the induction of chirality in the modified areas [2].

The results reported herein are remarkable from several different points of view, especially the molecular assembly at room temperature, the chirality of the assembly, and the stability and conservation of the pi-conjugated skeleton on the semiconductor surface at room temperature. These strategies may become important methods for the deposition of pi-conjugated molecules.

Contact: frank.palmino@pu-pm.univ-fcomte.fr

The Nanosciences group are: Y. Makoudi (PhD), Dr F. Palmino, Dr E. Duverger, Dr F. Chérioux.

[1] Y. Makoudi, M. Arab, F. Palmino, E. Duverger, F. Chérioux, C. Ramseyer, M. J.-L. Tschan, B. Therrien, G. Süss-Fink, Phys. Rev. Lett., sous presse, parution Février 2008.

[2] Y. Makoudi, M. Arab, F. Palmino, E. Duverger, C. Ramseyer, F. Picaud, F. Chérioux, Angew. Chem. Int. Ed., 2007, 46, 9287-9290.

Best student paper award for Rémi Meyer
Remi Meyer got the best student presentation award at SPIE-Photonics West conference for his work on ultra-high aspect ratio Bessel beams. Shaping the beam of ultrafast lasers has become now an essential tool for ultra-high intensity laser-matter interaction.
Read more
Visit of the CNRS President to FEMTO-ST
Antoine Petit, CEO of the CNRS, was welcomed on February 11th at FEMTO-ST.

Read more
John Dudley awarded by the international Society of Optics and Photonics (SPIE)
He obtains the "SPIE Harold E. Edgerton" Award 2019 for pioneering applications based on ultra-short light pulses in optical fibers.
Read more
Award "innovation in optomechatronic research"
Several members of different scientific departments of FEMTO-ST were rewarded for their joint paper "Photonic microsystem made by dynamic microassembly" at the ISOT conference "19th International Symposium on Optomechatronic Technology" which took place from November 5 to 8 in Cancun
Read more
Entrepreneurs-PhD Award : Second place for Vladimir Gauthier at the national level
Awarded for his « CellSelect project » he proposes a robot capable of improving the precision and speed of cell sorting in the field of innovative therapies.

His work is the result of research carried out of Biomedical Microrobotics Team of FEMTO-ST Institute.
Read more
Jean-Antoine Seon : awarded with the 2nd national PHD prize in robotics
Jean Antoine was distinguished on November 22th at the CNRS headquarters for his pioneer international work on a micro robotic dextral hand.
Read more
Elodie Pahon is the award winner of "Hydrogen Europe Research young Scientist" in the transport field
This award recognizes her high-level works that aim developping prognosis and smart control approaches dedicated to fuel cell systems.
Read more
Emmanuel RAMASSO, recipient of a « Group Achievement Award » by NASA
For outstanding contributions to the open data initiative by conducting and posting experimental system fault and run-to-failure data sets with exceptional scientific value.
Read more
Chimeras exist...
The American Institute of Physics (AIP) has featured our recent article in a special science highlight, known as a Scilight. Due to its novelty and close connection with ever-present phenomena, reported results are of wide interest to the general public.
Read more
Entrepreneurs-PhD Award in Bourgogne-Franche-Comté: 3 laureates from FEMTO-ST institute
Vladimir Gauthier (CellSelect project), Aliyasin El Ayouch (Metabsorber project), Romain Viala (MICAD project), were rewarded during the regional final which took place on October 16 in Dijon
Read more