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Nanomateriales para la mejora de la digestión anaerobia: incrementando el contenido en metano y convirtiendo Co2 a metanol
Font Segura, Xavier
(PI)
Sanchez Ferrer, Antonio
(Co-Investigador/a Principal)
Gea Leiva, Maria Teresa
(Investigador/a)
Artola Casacuberta, Adriana
(Investigador/a)
Barrena Gomez, Raquel
(Investigador/a)
Carrasco Garcia, Anna
(Col.laborador/a)
Ghoreishi ., Golafarain
(Col.laborador/a)
Molina Peñate, Esther
(Col.laborador/a)
Moyano Dominguez, David
(Col.laborador/a)
Vali , Seyed Alireza
(Col.laborador/a)
Moral Vico, Antonio Javier
(Col.laborador/a)
Departament d'Enginyeria Química, Biològica i Ambiental
Informació general
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Producció científica
(1)
Fingerprint
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Ponderació
Alfabèticament
Keyphrases
Recent Advances
100%
Metal-organic Frameworks (MOFs)
83%
Methanol
54%
Water Content Effect
50%
Adsorptive Removal
50%
Catalytic Conversion
50%
Catalyst Reusability
50%
Methane Conversion
50%
Biogas
50%
Methanol Synthesis
50%
Adsorbent
50%
Reusability
50%
Cobalt
50%
Nanomaterials
50%
Methanol Gasoline
50%
Cobalt Nanoparticles (CoNPs)
50%
Methane
50%
CO2 Hydrogenation
50%
Siloxane
50%
Zeolite
41%
Water Tolerance
33%
Aluminosilicate
33%
Activated Carbon
33%
Graphene Oxide
33%
Regeneration
33%
Silica Gel
33%
Adsorption Capacity
33%
Low Adsorption
33%
High Selectivity
29%
Nanoparticles
29%
Carbon Dioxide
25%
Carbon Dioxide Activation
16%
Carbon Dioxide Adsorption
16%
Real Biogas
16%
Pore Blockage
16%
Combustion Boiler
16%
Biogas Conversion
16%
Siloxane Removal
16%
Emerging Adsorbents
16%
Combustion Turbine
16%
Waste-based Materials
16%
Combustion Engine
16%
Cobalt Oxide
16%
Adsorbate
16%
Adsorption
16%
Activation Sites
16%
Adsorption Sites
16%
Cost-effectiveness
16%
Surface Functional Groups
16%
Textural Properties
16%
Oxygen Vacancy
16%
Industrial Application
16%
Carbon Capture
16%
Noble Metal Catalyst
16%
Scientific Community
16%
High Adsorption Capacity
16%
Impurities
16%
Cerium Oxide
16%
Low Selectivity
16%
Carbon Utilization
16%
Adsorbent Capacity
16%
Catalytic Ability
16%
Oxide Nanocomposites
16%
Renewable Energy
16%
Value-added Chemicals
16%
Methanol Production
16%
Superhydrophobicity
16%
Manganese Dioxide
16%
Energy Efficiency
16%
Catalytic Potential
16%
Hydrophobicity
16%
Systematic Comparison
16%
Efficient Regeneration
16%
Cost Efficiency
16%
Bond Dissociation Energy
16%
Greenhouse Gas Effect
16%
Carbon-silica Composites
16%
Carbon Dioxide Emissions
16%
Production Yield
16%
Volatile Gases
12%
Explosive Gas
12%
Methane Oxidation
12%
Ambient Conditions
12%
High Conversion
12%
Pressure Condition
12%
New Catalysts
12%
Catalytic Processes
12%
Highly Porous
12%
High-value Products
12%
Graphene Nanoparticles
12%
Porous Support
12%
Metallic Nanoparticles
12%
Temperature Conditions
12%
Chemical Platform
12%
Nanoparticles Types
12%
Energy Sources
12%
Global Warming
12%
Energy Content
12%
Mild Temperature
12%
Material Science
Carbon Dioxide
100%
Nanoparticle
100%
Metal-Organic Framework
83%
Zeolite
60%
Cobalt
50%
Hydrogenation
50%
Adsorbent
50%
Nanostructured Material
50%
Aluminosilicates
33%
Graphene Oxide
33%
Silica Gel
33%
Hydrophobicity
33%
Metal Nanoparticle
25%
Graphene
25%
Catalysis
25%
Oxidation Reaction
25%
Polymerization
16%
Functional Surface
16%
Oxygen Vacancy
10%
Cerium Oxide
10%
Oxide Nanocomposites
10%
Greenhouse Gas
10%
Chemical Engineering
Metal-Organic Frameworks
75%
Nanoparticle
69%
Carbon Dioxide
69%
Methanol
66%
Hydrogenation
50%
Water Content
50%
Biogas
50%
Methanol Synthesis
50%
Graphene
34%
Carbon Dioxide Hydrogenation
33%
Activated Carbon
25%
Aluminosilicate
25%
Production of Methanol
16%
Precious Metal
16%
Polymerization
12%
Functional Group
12%
Methane Oxidation
10%
Metal Nanoparticle
10%