Laboratoire de Chimie de Coordination UPR 8241

Accueil > EQUIPES > Equipe P



An, X., Fang, W., Wang, Z., Liu, K., Ding, L., Peng, J., Liu, T., Peng, H., Salmon, L., & Fang, Y. (2021). Supramolecular gel strategy-based nanomaterials with room temperature spin transition. Colloids Surf., A, 612, 126016/1–6.
Cordani, M., Resines-Urien, E., Gamonal, A., Milán-Rois, P., Salmon, L., Bousseksou, A., Costa, J. S., & Somoza, Á. (2021). Water soluble iron-based coordination trimers as synergistic adjuvants for pancreatic cancer. Antioxidants, 10(1), 66/1–14.
Fahs, A., Nicolazzi, W., Molnár, G., & Bousseksou, A. (2021). Role of surface effects in the vibrational density of states and the vibrational entropy in spin crossover nanomaterials: A molecular dynamics investigation. Magnetochemistry, 7(2), 27/2–11.
Hiiuk, V. M., Ridier, K., Gural'skiy, I. A., Golub, A. A., Fritsky, I. O., Molnár, G., Nicolazzi, W., & Bousseksou, A. (2021). Influence of the ultra-slow nucleation and growth dynamics on the room-temperature hysteresis of spin-crossover single crystals. Chem. Phys. Lett., 770, 138442/1–6.
Rusu, I., Manolache-Rusu, I. C., Diaconu, A., Palamarciuc, O., Gural'skiy, I. A., Molnar, G., & Rotaru, A. (2021). Pressure gradient effect on spin-crossover materials: Experiment vs theory. J. Appl. Phys., 129(6), 064501/1–7.


Caballero-Quintana, I., Amargós-Reyes, O., Maldonado, J. - L., Nicasio-Collazo, J., Romero-Borja, D., Barreiro-Argüelles, D., Molnár, G., & Bousseksou, A. (2020). Scanning probe microscopy analysis of nonfullerene organic solar cells. ACS Appl. Mater. Interfaces, 12(26), 29520–29527.
Costa, P. S., Hao, G., N’Diaye, A. T., Routaboul, L., Braunstein, P., Zhang, X., Zhang, J., Ekanayaka, T. K., Shi, Q. - Y., Schlegel, V., Doudin, B., Enders, A., & Dowben, P. A. (2020). Manipulation of the molecular spin crossover transition of Fe(H2B(pz)2)2(bipy) by addition of polar molecules. J. Phys.: Condens. Matter, 32(3), 034001/1–5.
Dixon, I. M., Rat, S., Sournia-Saquet, A., Molnár, G., Salmon, L., & Bousseksou, A. (2020). On the spin-state dependence of redox potentials of spin crossover complexes. Inorg. Chem., 59(24), 18402–18406.
Enriquez-Cabrera, A., Rapakousiou, A., Piedrahita Bello, M., Molnár, G., Salmon, L., & Bousseksou, A. (2020). Spin crossover polymer composites, polymers and related soft materials. Coord. Chem. Rev., 419, 213396/1–23.
Gheorghe, A. - C., Bibik, Y. S., Kucheriv, O. I., Barakhtii, D. D., Boicu, M. - V., Rusu, I., Diaconu, A., Gural’skiy, I. A., Molnár, G., & Rotaru, A. (2020). Anomalous pressure effects on the electrical conductivity of the spin crossover complex [Fe(pyrazine){Au(CN)2}2]. Magnetochemistry, 6(3), 31/1–8.
Glatz, J., Chamoreau, L. - M., Flambard, A., Meunier, J. - F., Bousseksou, A., & Lescouëzec, R. (2020). Thermo- and electro-switchable Cs⊂{Fe4–Fe4} cubic cage: spin-transition and electrochromism. Chem. Commun., 56(74), 10950–10953.
Jimenez, J. - R., Glatz, J., Benchohra, A., Gontard, G., Chamoreau, L. - M., Meunier, J. - F., Bousseksou, A., & Lescouezec, R. (2020). Electron transfer in the Cs < {Mn4Fe4} cubic switch: A soluble molecular model of the MnFe Prussian-blue analogues. Angew. Chem., Int. Ed., 89, 8089–8093.
Kang, N., Wang, Q., Djeda, R., Wang, W., Fu, F., Moro, M. M., de los Angeles Ramirez, M., Moya, S., Coy, E., Salmon, L., Pozzo, J. - L., & Astruc, D. (2020). Visible-light acceleration of H2 evolution from aqueous solutions of inorganic hydrides catalyzed by gold-transition-metal nanoalloys. ACS Appl. Mater. Interfaces, 12(48), 53816–53826.
Lathion, T., Furstenberg, A., Besnard, C., Hauser, A., Bousseksou, A., & Piguet, C. (2020). Monitoring Fe(II) spin-state equilibria via Eu(III) luminescence in molecular complexes: Dream or reality? Inorg. Chem., 59(2), 1091–1103.
Piedrahita-Bello, M., Martin, B., Salmon, L., Molnar, G., Demont, P., & Bousseksou, A. (2020). Mechano-electric coupling in P(VDF-TrFE)/spin crossover composites. J. Mater. Chem. C, 8(18), 6042–6051.
Ridier, K., Bas, A. - C., Zhang, Y., Routaboul, L., Salmon, L., Molnár, G., Bergaud, C., & Bousseksou, A. (2020). Unprecedented switching endurance affords for high-resolution surface temperature mapping using a spin-crossover film. Nat. Commun., 11(1), 3611/1–9.
Ridier, K., Zhang, Y., Piedrahita-Bello, M., Quintero, C. M., Salmon, L., Molnar, G., Bergaud, C., & Bousseksou, A. (2020). Heat capacity and thermal damping properties of spin-crossover molecules: A new look at an old topic. Adv. Mater., 2020, 2000987/1–5.
Salmon, L., Piedrahita-Bello, M., Angulo Cervera, J. E., Courson, R., Molnar, G., Malaquin, L., Thibault, C., Tondu, B., & Bousseksou, A. (2020). 4D printing with spin-crossover polymer composites. J. Mater. Chem. C, 8(18), 6001–6005.
Soroceanu, I., Lupu, S. - L., Rusu, I., Piedrahita-Bello, M., Salmon, L., Molnar, G., Demont, P., Bousseksou, A., & Rotaru, A. (2020). Ligand substitution effects on the charge transport properties of the spin crossover complex [Fe(Htrz)1+y-x (trz)2-y (NH2trz) x ](BF4)y·nH2O. J. Phys. Condens. Matter., 32(26), 264002.
Usmani, S., Mikolasek, M., Gillet, A., Sanchez Costa, J., Rigoulet, M., Chaudret, B., Bousseksou, A., Lassalle-Kaiser, B., Demont, P., Molnar, G., Salmon, L., Carrey, J., & Tricard, S. (2020). Spin crossover in Fe(triazole)-Pt nanoparticle self-assembly structured at the sub-5 nm scale. Nanoscale, 12(15), 8180–8187.
Valverde-Muñoz, F. - J., Seredyuk, M., Muñoz, M. C., Molnár, G., Bibik, Y. S., & Real, J. A. (2020). Thermochromic meltable materials with reverse spin transition controlled by chemical design. Angew. Chem., Int. Ed., 59(42), 18632–18638.
Zhang, Y., Ridier, K., Shalabaeva, V., Séguy, I., Pelloquin, S., Camon, H., Calvez, S., Routaboul, L., Salmon, L., Molnár, G., & Bousseksou, A. (2020). A molecular spin-crossover film allows for wavelength tuning of the resonance of a Fabry–Perot cavity. J. Mater. Chem. C, 8(24), 8007–8011.
Zhang, Y., Seguy, I., Ridier, K., Shalabaeva, V., Piedrahita-Bello, M., Rotaru, A., Salmon, L., Molnar, G., & Bousseksou, A. (2020). Resistance switching in large-area vertical junctions of the molecular spin crossover complex [Fe(HB(tz)3)2]: ON/OFF ratios and device stability. J. Phys. Condens. Matter., 32(21), 214010.


Bas, A. - C., Shalabaeva, V., Thompson, X., Vendier, L., Salmon, L., Thibault, C., Molnar, G., Routaboul, L., & Bousseksou, A. (2019). Effects of solvent vapor annealing on the crystallinity and spin crossover properties of thin films of [Fe(HB(tz)3)2]. C. R. Chimie, 22, 525–533.
Bas, A. - C., Thompson, X., Salmon, L., Thibault, C., Molnar, G., Palamarciuc, O., Routaboul, L., & Bousseksou, A. (2019). Bilayer thin films that combine luminescent and spin crossover properties for an efficient and reversible fluorescence switching. Magnetochemistry, 5(2), 28/1–14.