• Dynamics of metal biouptake by microorganism

 

6- E. Rotureau, C. Pagnout, J.F.L. Duval Physicochemical rationale of matrix effects involved in the response of hydrogel-embedded luminescent metal biosensors, accepted in Biosensors.

 

5- C. Pagnout, R. M. Présent, P. Billard, E. Rotureau, J.F.L. Duval What Do Luminescent Bacterial Metal-Sensors Probe? Insights from Confrontation between Experiments and Flux-Based Theory,  Sensors and Actuators B, 270, 482-491 (2018)

 

4- R. M. Présent, E. Rotureau, P. Billard,C. Pagnout, B. Sohm, J. Flayac, R. Gley, J. P. Pinheiro, J. F. L. Duval, Impacts of intracellular metallothionein on dynamics of metal biouptake and partitioning at bacterial interfaces. Physical Chemistry Chemical Physics, 19, 29114-29124 (2017)

 

3- J.F.L. Duval, R.M. Présent, E. Rotureau.  Kinetic and thermodynamic determinants of trace metal partitioning at biointerfaces: contributions from intracellular speciation dynamics. Physical Chemistry Chemical Physics, 18, 30415-30435 (2016)

 

2- E. Rotureau, P. Billard, J.F.L. Duval. Evaluation of Metal Biouptake from the Analysis of Bulk Metal Depletion Kinetics at Various Cell Concentrations: Theory and Application, Environmental Science and Technology, 49, 990-998 (2015)

1- J.F.L Duval and E. Rotureau Dynamics of metal uptake by charged biointerphases: impacts of depletion, internalisation, adsorption and excretion.  Physical Chemistry Chemical Physics, 16, 7401-7416 (2014)

 

 

• Physicochemistry of (bio)colloidal systems and polymers

 

5. J.P. Pinheiro, E. Rotureau, J.F.L. Duval, Addressing the electrostatic component of protons binding to environmental nanoparticles beyond the approximate NICA-Donnan level: theory and application to analysis of proton titration data for humic matter, Journal of Colloid and Interface Science, 583, 642-651 (2021). 

 

4- E. Rotureau , Y. Waldvogel, J.P. Pinheiro, J.P.S. Farinha, I. Bihannic, R. M. Present, J.F.L Duval,

Effects of responsive structure of soft nanoparticulate ligands on thermodynamics of trace metal complexation, Physical Chemistry Chemical Physics, 18, 31711 - 31724 (2016)

 

3- J.R.S. Martin, I. Bihannic, C. Santos, J.P.S. Farinha, B. Demé, F.A.M Leermakers, J.P. Pinheiro, E. Rotureau, J.F.L Duval, Structure of multiresponsive brushes-decorated nanoparticles: a combined electrokinetic, DLS and SANS study, Langmuir, 31, 4779–4790 (2015)

 

2- J.P.S. Sagou, E. Rotureau, F. Thomas, J.F.L Duval, Impact of metallic ions on electrohydrodynamics of soft colloidal polysaccharides. Colloids and Surfaces A: Physicochemical and Engineering Aspects, 435, 16-21 (2013)

 

1- E. Rotureau, F. Thomas, J.F.L. Duval, Relationship between Swelling and the Electrohydrodynamic Properties of Functionalized Carboxymethyldextran Macromolecules, Langmuir, 23, 8460-8473 (2007).

 

 

• Dynamics/thermodynamics of metal speciation

11- E. Rotureau, J.P. Pinheiro, J.F.L. Duval, On the Evaluation of the Intrinsic Stability of Indium-Nanoparticulate Organic Matter Complexes, Colloids and Surfaces A, 645, 128859 (2022)

 

10- J. Galceran, E. Companys, J.Puy, J. P. Pinheiro, E. Rotureau, AGNES in irreversible systems: the indium case, Journal of Electroanalytical Chemistry, 901, 115750, (2021)

 

9- E. Rotureau, L.S. Rocha, D. Goveia, N.G. Alves, J.P. Pinheiro, Investigating the binding heterogeneity of trace metal cations with SiO2 nanoparticles using full wave analysis of stripping chronopotentiometry at scanned deposition potential (SSCP), Frontiers in Chemistry, 8, 614574,(2020).

 

8- J.P. Pinheiro, J. Galceran, E. Rotureau, E. Companys, J. Puy, Full wave analysis of stripping chronopotentiometry at scanned deposition potential (SSCP): Obtaining binding curves in labile heterogeneous macromolecular systems for any metal-to-ligand ratio . Journal of electroanalytical Chemistry, 873, 114436 (2020).

 

 7- E. Rotureau, P. Pla-Vilanova, E. Companys, J. Galceran, J.P. Pinheiro, Towards improving the electroanalytical analysis of Indium speciation, Analytica Chimica Acta, 1052, 57-64 (2019)

 

6- A. Santos Costa Monteiro, D. Goveia, E. Rotureau, André Henrique Rosa, J.C. Masini, J.P. Pinheiro, Dynamic speciation of trace metals in aquatic environment using anodic stripping chronopotentiometry, Quím. Nova, 41, 796-809 (2018)

 

5- E. Rotureau, Y. Waldvogel, R.M. Present, J.P. Pinheiro, Addressing temperature effects on metal chemodynamics studies using stripping electroanalytical techniques. Part 1: Lability of small complexes, Journal of Electroanalytical Chemistry, 752, 68-74 (2015)

 

4- E. Rotureau, Analysis of metal speciation dynamics in clay minerals dispersion by Stripping Chronopotentiometry techniques, Colloids and Surfaces A: Physicochemical and Engineering Aspects, 441, 291-297 (2014)

 

3- E. Rotureau, J.F.L. Duval, H.P. van Leeuwen, Dynamic metal sorption by environmental biocolloids, in Surface Chemistry, Bioavailability and Metal Homeostasis in Aquatic Organism: An Integrated Approach - SEB Seminar Series Volume 2, Eds: N.R. Bury, R.D. Handy (2010)

2- E. Rotureau, H.P. van Leeuwen, Kinetic features of metal complexes with polysaccharide colloids: Impact of ionic strength, Journal of Physical Chemistry A, 113, 12879-12884 (2009)

1- E. Rotureau, H. P. van Leeuwen, Kinetics of metal ion binding by polysaccharide colloids, Journal of Physical Chemistry A, 112, 7177–7184 (2008)

 

 

• Electroanalytical metal sensors : new methods and instruments 

 

4. L. Hackel, E. Rotureau, C Guilleux, A Poszwa, A de Junet, M Middleton, A Morrin, J.P. Pinheiro, Application for deep penetrating geochemistry and environmental studies Part 2: Field determination of Co(II)/Ni(II) and Pb(II)/Zn(II) of fresh soil extractions by electrochemical stripping techniques, Geochemistry: Exploration, Environment, Analysis (2024)

3. J.P. Pinheiro, E. Rotureau, Electroanalytical trace metal cations quantification and speciation in freshwaters: historical overview, critical review of the last five years and road map for developing dynamic speciation field measurements, Molecules, 28, 2831 (2023).

 

2. L. Hackel, E. Rotureau, A. Morrin, J. P. Pinheiro, Developing on-site trace level speciation of Lead, Cadmium and Zinc by Stripping Chronopotentiometry (SCP): fast screening and quantification of total metal concentration, Molecules, 26(18), 5502 (2021)

 

1- E. Rotureau, J. Gajdar, G. Herzog, Y. Waldvogel,  J.P. Pinheiro, E. Mathieu, Electroanalytical metal sensor with built-in oxygen filter, Analytica Chimica Acta, 1167, 338544 (2021)

 

 

• Polymers at interfaces

 

13- E. Rotureau, C. Tribet, S. Fouilloux, P. Marchal, V. Sadtler, E. Marie-Bégué, A. Durand, P. Perrin, Light-responsiveness of C12E6/polymer complexes swollen with dodecane, Journal of Physical Chemistry B, 114, 13294-13303 (2010).

 

12- M. Wu, E. Rotureau, E. Marie, E. Dellacherie and A. Durand,  Nanoparticle Preparation by Miniemulsion Polymerization, in Emulsion Science and Technology,Ed. T. F. Tadros, Wiley-VCH Verlag GmbH & Co. KGaA, Weinheim, Germany. (2009)

 

11- E. Rotureau, J. Raynaud, B. Choquenet, E. Marie, C. Nouvel, J.-L. Six, E. Dellacherie, A. Durand, Application of amphiphilic polysaccharides as stabilizers in direct and inverse freeradical miniemulsion polymerization, Colloids and Surfaces A: Physicochemical and Engineering Aspects, 331, 84-90 (2008)

10- E. Marie, E. Rotureau, E. Dellacherie, A. Durand, From polymeric surfactants to colloidal systems (4). Neutral and anionic amphiphilic polysaccharides for miniemulsion stabilization and polymerization, Colloids and Surfaces A: Physicochemical and Engineering Aspects, 308, 25-32 (2007)

9- E. Rotureau, E. Marie, E. Dellacherie, A. Durand, From polymeric surfactants to colloidal systems (3): Neutral and anionic polymeric surfactants derived from dextran. Colloids and Surfaces A: Physicochemical and Engineering Aspects, 301, 229-238 (2007)

 

8 -E. Rotureau, E. Dellacherie, A. Durand, Viscosity of aqueous solutions of polysaccharides and hydrophobically modified polysaccharides: Application of Fedors equation, European Polymer Journal Volume ,42, 1086-1092 (2006)

7- E. Rotureau; M. Leonard; E. Marie; E. Dellacherie; T.A. Camesano; A. Durand, From polymeric surfactants to colloidal systems (1): Amphiphilic dextrans for emulsion preparation, Colloids and Surfaces, A: Physicochemical and Engineering Aspects 288, 131-137 (2006)

6- E. Rotureau; M. Leonard; E. Marie; E. Dellacherie; T.A. Camesano; A. Durand, From polymeric surfactants to colloidal systems (2): Preparation of colloidal dispersions, Colloids and Surfaces, A: Physicochemical and Engineering Aspects, 288, 62-70 (2006)

5- E. Rotureau, C. Chassenieux, E. Dellacherie, A. Durand, Neutral Polymeric Surfactants Derived from Dextran, a study of their aqueous solution behaviour, Macromol. Chem. Phys., 206, 2038-2046 (2005)

4- E. Rotureau, E. Dellacherie, A. Durand,Concentration dependence of aqueous solution viscosities of amphiphilic polymers, Macromolecules, 38, 4940-4941, (2005)

3- E. Rotureau, M. Léonard, E. Dellacherie, A. Durand, Emulsifying properties of neutral and ionic polymer surfactants based on dextran, Phys. Chem. Chem. Phys., 6, 1430-1438 (2004)

2- E. Rotureau, M. Leonard, E. Dellacherie, A. Durand, Amphiphilic derivatives of dextran: Adsorption at air/water and oil/water interfaces, Journal of Colloid and Interface Science, 279, 68-77 (2004).

1- A. Durand, E. Marie, E. Rotureau, M. Leonard, E. Dellacherie, Amphiphilic polysaccharides : useful tools for the preparation of nanoparticles with controlled surface characteristics, Langmuir, 20, 6956-6963 (2004)