M. Jose-Paulo PINHEIRO
Laboratoire Interdisciplinaire des Environnements Continentaux
UMR 7360 CNRS - Université de Lorraine

15 Avenue du Charmois

Tel :       +33(0)3 72 74 47 05
e-mail : jose-paulo.pinheiro(@)univ-lorraine.fr

Enseignements / Encadrements
École Nationale Superieur de Geologie (ENSG)

  • Publications internationales

ROTUREAU E., PLA-VILANOVA P., GALCERAN J., COMPANYS E., PINHEIRO J.-P., 2019. Towards improving the electroanalytical speciation analysis of indium. Analytica Chimica Acta 1052, 57-64.  [doi]

MONTEIRO A.-S.-C., GOVEIA D., ROTUREAU E., ROSA A.-H., MASINI J.-C., PINHEIRO J.-P., 2018. Dynamic speciation of trace metals in aquatic environment using anodic stripping chronopotentiometry Quimica Nova 41, 796-809.  [doi]

BOTERO W.-G., PINEAU M., JANOT N., DOMINGOS R.-F., MARIANO J., ROCHA L.-S., GROENENBERG J.-E., BENEDETTI M.-F., PINHEIRO J.-P., 2017. Isolation and purification treatments change the metal-binding properties of humic acids: effect of HF/HCl treatment Environmental Chemistry 14 (7), 417-424.  [doi]

COMPANYS E., GALCERAN J., PINHEIRO J.-P., PUY J., SALAUN P., 2017. A review on electrochemical methods for trace metal speciation in environmental media Current Opinion In Electrochemistry 3 (1), 144-162.  [doi]

DO NASCIMENTO F.-H., RIGOBELLO-MASINI M., DOMINGOS R.-F., PINHEIRO J.-P., MASINI J.-C., 2017. Dynamic interactions of Hg(II) with the surface of green microalgae Chlamydomonas reinhardtii studied by stripping chronopotentiometry Algal Research-Biomass Biofuels And Bioproducts 24, 347-353.  [doi]

JANOT N., PINHEIRO J.-P., BOTERO W.-G., MEEUSSEN J.-C.-L., GROENENBERG J.-E., 2017. PEST-ORCHESTRA, a tool for optimising advanced ion-binding model parameters: derivation of NICA-Donnan model parameters for humic substances reactivity Environmental Chemistry 14 (1), 31-38.  [doi]


PRÉSENT R.-M., ROTUREAU E., BILLARD P., PAGNOUT C., SOHM B., FLAYAC J., GLEY R., PINHEIRO J.-P., DUVAL J.-F.-L., 2017. Impact of intracellular metallothionein on metal biouptake and partitioning dynamics at bacterial interfaces Physical Chemistry Chemical Physics 19 (43), 29114-29124.  [doi]

TOWN R.-M., PINHEIRO J.-P., VAN LEEUWEN H.-P., 2017. Chemodynamics of Soft Nanoparticulate Metal Complexes: From the Local Particle/Medium Interface to a Macroscopic Sensor Surface Langmuir 33 (2), 527-536.  [doi]

VAN LEEUWEN H.-P., DUVAL J.-F.-L., PINHEIRO J.-P., BLUST R., TOWN R.-M., 2017. Chemodynamics and bioavailability of metal ion complexes with nanoparticles in aqueous media Environmental Science-Nano 4 (11), 2108-2133.  [doi]

ALVES N.-G., ROCHA L.-S., MOREIRA J.-A., DA COSTA A.-M.-R., PINHEIRO J.-P., 2016. Effect of monomer organization on the behavior of PSS-PS micelles Colloids And Surfaces A-Physicochemical And Engineering Aspects 506, 313-319.  [doi]

DOMINGOS R.-F., CARREIRA S., GALCERAN J., SALAUN P., PINHEIRO J.-P., 2016. AGNES at vibrated gold microwire electrode for the direct quantification of free copper concentrations Analytica Chimica Acta 920, 29-36.  [doi]

MONTEIRO A.-S.-C., PARAT C., ROSA A.-H., PINHEIRO J.-P., 2016. Towards field trace metal speciation using electroanalytical techniques and tangential ultrafiltration Talanta 152, 112-118.  [doi]

ROTUREAU E., WALDVOGEL Y., PINHEIRO J.-P., FARINHA J.-P.-S., BIHANNIC I., PRESENT R.-M., DUVAL J.-F.-L., 2016. Structural effects of soft nanoparticulate ligands on trace metal complexation thermodynamics Physical Chemistry Chemical Physics 18 (46), 31711-31724.  [doi]

MARTIN J.-R.-S., BIHANNIC I., SANTOS C., FARINHA J.-P.-S., DEME B., LEERMAKERS F.-A.-M., PINHEIRO J.-P., ROTUREAU E., DUVAL J.-F.-L., 2015. Structure of Multiresponsive Brush-Decorated Nanoparticles: A Combined Electrokinetic, DLS, and SANS Study. Langmuir 31, 4779-4790.  [doi]

PARAT C., PINHEIRO J.-P., 2015. ISIDORE a probe for in situ trace metal speciation based on Donnan membrane technique with related electrochemical detection part 1: Equilibrium measurements. Analytica Chimica Acta 896, 1-10.  [doi]

ROCHA L.-S., GALCERAN J., PUY ., PINHEIRO J.-P., 2015. Determination of the Free Metal Ion Concentration Using AGNES Implemented with Environmentally Friendly Bismuth Film Electrodes. Analytical Chemistry 87(12), 6071-6078.  [doi]

ROTUREAU E., WALDVOGEL Y., PRESENT R.-M., PINHEIRO J.-P., 2015. Addressing temperature effects on metal chemodynamics studies using stripping electroanalytical techniques. Part 1: Lability of small complexes. Journal Of Electroanalytical Chemistry 752, 68-74.  [doi]

YASADI K., PINHEIRO J.-P., ZIELINSKA K., TOWN R.-M., VAN LEEUWEN H.-P., 2015. Partitioning of Humic Acids between Aqueous Solution and Hydrogel. 3. Microelectrodic Dynamic Speciation Analysis of Free and Bound Humic Metal Complexes in the Gel Phase. Langmuir 31(5), 1737-1745.  [doi]

DUVAL J.-F.-L., FARINHA JPS., PINHEIRO J.-P. , 2013. Impact of Electrostatics on the Chemodynamics of Highly Charged Metal-Polymer Nanoparticle Complexes. Langmuir 29, 13821-13835..  [doi]

DUVAL J.-F.-L., PINHEIRO J.-P., VAN LEEUWEN H.-P., 2008. Metal speciation dynamics in monodisperse soft colloidal ligand suspensions, The Journal of Physical Chemistry A, 112 , 7137-7151.