Man

Luis Cifuentes Seves

Profesor Titular

Universidad de Chile

Santiago, Chile

Líneas de Investigación


Electrometalurgia: He trabajado en la electrometalurgia del Cobre, Renio y Molibdeno tanto en lo experimental como en lo teórico (modelación matemática). Recientemente: electrodeposición de Cu, Re y nanotubos de C.

Educación

  •  Corrosion Science, University of Manchester. Reino Unido, 1980
  •  Electrochemistry and Corrosion, Technische Universitat Dresden. Alemania, 1973
  •  Chemical Engineering, Universidad Técnica del Estado. Chile, 1969

Experiencia Académica

  •   Profesor Titular Full Time

    UNIVERSIDAD DE CHILE

    Ciencias Físicas y Matemáticas

    Santiago, Chile

    2011 - At present

  •   Profesor Asociado Full Time

    UNIVERSIDAD DE CHILE

    Ciencias Físicas y Matemáticas

    Santiago, Chile

    1994 - 2011

  •   Post doctoral Fellow Full Time

    University of Nottingham

    Science and Engineering

    Nottingham, Reino Unido

    1982 - 1984

  •   Post doctoral Fellow Full Time

    Sheffield-Hallam University

    Engineering

    Sheffield, Chile

    1979 - 1981

Experiencia Profesional

  •   Senior Scientist Full Time

    General Electric (UK)

    Leicester, Reino Unido

    1984 - 1992

  •   Jefe de Proyectos Full Time

    Centro de Investigación Minera y Metlúrgica

    Santiago, Chile

    1992 - 1994


 

Article (40)

Electrocatalysis of the hydrogen evolution reaction by rhenium oxides electrodeposited by pulsed-current
Characterization of rhenium compounds obtained by electrochemical synthesis after aging process
Analysis of the electrodeposition process of rhenium and rhenium oxides in alkaline aqueous electrolyte
Transmission electron microscopy study of electrodeposited rhenium and rhenium oxides
Crystallization of sodium perrhenate from NaReO4-H2O-C2H5OH solutions at 298 K
Modeled transport of As (V) in the Nernst layer of an electro dialysis cell
Corrosion behaviour and catalytic effectiveness of Pb-Ca-Sn, RuO2-IrO2/Ti and IrO2-Ta2O5/Ti anodes for copper electrowinning
SEPARATION OF MOLYBDENUM SPECIES BY ELECTRODIALYSIS
Effect of solution components on stability of protective PbO2 layers on Pb-Ca-Sn anodes for copper electrowinning
Effect of solution impurities on morphology and composition of copper electrodeposits obtained in membrane based cell
The use of electrodialysis for metal separation and water recovery from CuSO4-H2SO4-Fe solutions
Copper electrowinning in a moving-bed cell based on reactive electrodialysis
Modelling the effect of temperature and time on the performance of a copper electrowinning cell based on reactive electrodialysis
Processing of a ferric anolyte produced by a copper electrowinning cell based on reactive electro dialysis
Electrodialytic separation of Cu(II) and As(V) in acidic electrolytes
Modelling a copper electrowinning cell based on reactive electrodialysis
Dissolution of metallic copper in aqueous sulphuric acid - Ferric sulphate solutions
Electrowinning of copper in two- and three-compartment reactive electrodialysis cells
On the physical quality of copper electrodeposits obtained on mesh cathodes
Predicting the coverage ratio of copper electrodeposits obtained on mesh cathodes
Temperature dependence of the speciation of copper and iron in acidic electrolytes
The use of electrohydrolysis for the recovery of sulphuric acid from copper-containing solutions
Corrosion and protection of lead anodes in acidic copper sulphate solutions
Electrowinning of copper in a lab-scale squirrel-cage cell with anion membrane
Preparation and performance of coke anodes for ferrous to ferric ion oxidation in a new copper electrowinning cell
Speciation of the Fe(II)-Fe(III)-H2SO4-H2O system at 25 and 50 degrees C
Temperature dependence of the cathodic and anodic kinetics in a copper electrowinning cell based on reactive electrodialysis
Advances in the treatment of CuSO4-H2SO4-As-Sb-H2O solutions by electrodialysis
Antimony solubility and speciation in aqueous sulphuric acid solutions at 298 K
Aspects of the development of a copper electrowinning cell based on reactive electrodialysis
Modeling for copper transport within the boundary layer in an electrodialysis cell
Modeling for copper transport within the boundary layer in an electrodialysis cell Modelación del transporte de cobre en la capa límite en una celda de electrodiálisis
On the kinetics of Cu, As and Sb transport through cation and anion exchange membranes in acidic electrolytes
The effectiveness of membrane systems for the separation of anolyte and catholyte in a lab-scale copper electrowinning cell based on reactive electrodialysis
Aqueous speciation of arsenic in sulfuric acid and cupric sulfate solutions
Effect of magnetic flux-densities of up to 0.1 Tesla on copper electrodeposition
Kinetics of the electrolytic Fe2+/Fe3+ oxidation on various anode materials
On the electrodialysis of aqueous H2SO4-CuSO4 electrolytes with metallic impurities
Aqueous speciation of sulfuric acid-cupric sulfate solutions
Kinetics of the electrochemical oxidation of cyanide on PbO2-coated stainless steel

ConferencePaper (1)

Separation of copper and arsenic from acidic electrolytes by electrodialysis
41
Luis Cifuentes

Profesor Titular

Ingeniería de Minas

Universidad de Chile

Santiago, Chile

17
Jesus Casas

Académico

Metallurgical and Materials Engineering

UNIVERSIDAD TECNICA FEDERICO SANTA MARIA

Valparaíso, Chile

3
Mario Grageda

Director

Ingeniería química y procesos de minerales

UNIVERSIDAD DE ANTOFAGASTA

Antofagasta, Chile

3
Edgar Mosquera

ASSISTANT PROFESSOR

MATERIALS SCIENCE

UNIVERSIDAD DE CHILE

Santiago, Chile

3
Gerardo Cifuentes

Académico Jornada Completa

Ingeniería Metalúrgica

UNIVERSIDAD DE SANTIAGO DE CHILE

SANTIAGO, Chile

2
Tomás Vargas

Profesor Asociado

Ingeniería Química, Biotecnología y materiales

UNIVERSIDAD DE CHILE (UCH), FACULTAD CS.FISICAS Y MATEMATICAS , DPTO INGENIERIA QUIMICA

Santiago, Chile

2
Alejandro Vargas

Profesor Asistente

Departamento de Ingeniería Mecánica

Universidad de Chile

Santiago, Chile

2
JORGE IPINZA

DIRECTOR

DE METALURGIA Y DE MATERIALES

UNIVERSIDAD TECNICA FEDERICO SANTA MARIA

SANTIAGO, Chile