Man

Enrique Ignacio Wagemann Herrera

Profesor Asistente

Universidad de Concepción

Concepción, Chile

Líneas de Investigación


Nanofluidics, 2D materials, Molecular Dynamics

Educación

  •  Chemical Engineering, UNIVERSIDAD DE CONCEPCION. Chile, 2018
  •  Ingeniero Civil Químico, UNIVERSIDAD DE CONCEPCION. Chile, 2014

Experiencia Académica

  •   Postdoctoral Fellow Full Time

    UNIVERSITY OF WATERLOO

    Engineering

    Waterloo, Canada

    2019 - 2020

  •   Profesor Asistente Full Time

    UNIVERSIDAD DE CONCEPCION

    Ingeniería

    Concepción, Chile

    2020 - At present

Experiencia Profesional

  •   Profesor Asistente Full Time

    Universidad de Concepcion

    Chile

    2020 - At present


 

Article (15)

Advanced thermoconversion technology for municipal solid waste energetic valorization
Cs<SUP>+</SUP> conductance in graphene membranes with Ångström-scale pores: the role of pore entrance geometry
Net Zero Energy Building technologies - Reversible Heat Pump/Organic Rankine Cycle coupled with Solar Collectors and combined Heat Pump/ Photovoltaics - Case study of a Chilean mid-rise residential building
Numerical evaluation of a hybrid atmospheric water harvesting system for human consumption
On the wetting translucency of hexagonal boron nitride
Quantifying Water Friction in Misaligned Graphene Channels under Angstrom Confinements
Water flow enhancement in amorphous silica nanochannels coated with monolayer graphene
Wettability of nanostructured hexagonal boron nitride surfaces: molecular dynamics insights on the effect of wetting anisotropy
Water Flow in Silica Nanopores Coated by Carbon Nanotubes from a Wetting Translucency Perspective
Effect of an external electric field on capillary filling of water in hydrophilic silica nanochannels
Slip divergence of water flow in graphene nanochannels: the role of chirality
Slip divergence of water flow in graphene nanochannels=> the role of chirality.
Water flow enhancement in silica slit nanochannels coated with graphene
Wall embedded electrodes to modify electroosmotic flow in silica nanoslits
Wall embedded electrodes to modify electroosmotic flow in silica nanoslits

Patent (1)

System and method for angstrom confinement of trapped ions

Proyecto (1)

THERMAL BROWNIAN RATCHETS BASED CARBON NANOTUBES AS PUMPING DEVICES IN NANOFLUIDIC SYSTEMS
13
Enrique Wagemann

Profesor Asistente

Ingeniería Mecánica

Universidad de Concepción

Concepción, Chile

5
Harvey Zambrano

Full time Professor

Mechanical Engineering

Universidad Técnica Federico

Valparaíso, Chile

1
Nabin Karna

Post doctoral Researcher

Division of Forest Products and Chemical Engineering, Department of Chemical Engineering

Chalmers University of Technology

Gothenburg, Suecia

1
Diego Becerra

Assistant Professor

Chemical Engineering

Universidad de Concepción

Concepción, Chile