Spring til hovednavigation
Spring til søgning
Spring til hovedindhold
Aarhus Universitet Forside
Hjælp og OSS
English
Dansk
Forside
Profiler
Forskningsenheder
Projekter
Publikation
Priser
Aktiviteter
Kurser
Presse/medier
Søg efter ekspertise, navn eller tilknytning
Shuang Luo offentligt CV
Vis Scopus-profil
Shuang Luo
Postdoktoral
Postdoc
,
Institut for Bio- og Kemiteknologi - Environmental Engineering - Ole Worms Allé 3
https://orcid.org/0000-0001-8291-2457
E-mail
shuangluo
bce.au
dk
Ole Worms Allé 3
8000
Aarhus C
Danmark
2011
2025
Publikationer pr. år
Vis
Fingeraftryk
Netværk
Publikation
(53)
Aktiviteter
(5)
Priser
(10)
Lignende profiler
(6)
Fingeraftryk
Dyk ned i forskningsemnerne, hvor Shuang Luo er aktive. Disse emneetiketter kommer fra dennes persons arbejder. Sammen danner de et unikt fingerprint.
Sorter
Vægt
Alfabetisk
Chemistry
Hydroxyl Radical
100%
Rate Constant
85%
Polychlorobiphenyl
75%
Sulfate Radical
50%
QSAR Study
50%
Bisphenol A
50%
Electron Transport
50%
Polychlorinated Dibenzodioxin
25%
Wastewater Treatment
25%
Fenton
25%
Radical Reaction
25%
Troposphere
25%
Reaction Rate Constant
25%
Antimony
25%
Mine Drainage
25%
Endocrine Disruptor
25%
Antibiotic Pesticide
25%
Flue Gas
25%
Ultraviolet Stabilizing Agent
25%
Red
25%
Ibuprofen
25%
Density Functional Theory Study
25%
Advanced Oxidation Process
21%
Organic Compound
17%
Boron Nitride
16%
Density Functional Theory
16%
Bimolecular Reaction
15%
Electronegativity
13%
Oxidation Kinetics
12%
Reaction Step
12%
Adsorption
12%
Octanol-Water Partition Coefficient
12%
Chemical Reactivity
12%
Electron Configuration
12%
Ionization Potential
12%
Naphthalene
12%
Phenolic Compound
12%
chlorination
12%
Water Purification
12%
Phenol
12%
DFT-B3LYP Calculation
10%
Radical Anion
9%
Gibbs Free Energy
9%
formation
9%
Oxidation Reaction
8%
Electron Transport
8%
Air Pollution
8%
Cation
8%
Electron Transfer
8%
Metal Catalyst
8%
Engineering
Microalgae
50%
Optimal Condition
31%
Removal Efficiency
30%
Adsorption
28%
Performance Degradation
25%
Iron
25%
Acidic Condition
25%
Scavenge
25%
Heavy Metal Retention
25%
Chemical Structure
25%
Ph Condition
25%
Modeling Study
25%
Arsenic
25%
Fenton
25%
Water Treatment
25%
Electrical Energy
25%
Theoretical Study
25%
Pharmaceutical and Personal Care Product
25%
Direct Photolysis
25%
Degradation Product
25%
Heavy Metal
25%
Graphene Oxide
25%
Porosity
25%
Group Contribution Method
25%
Electric Field
25%
Biogas
25%
Degradation Kinetics
25%
Titanate Nanotube
20%
Root-Mean-Squared Error
12%
Kinetic Model
12%
Highest Occupied Molecular Orbital
12%
Extinction Coefficient
12%
Quantum Yield
12%
Lowest Unoccupied Molecular Orbital
12%
Metallic Silver
12%
Vehicle Transmissions
12%
Photodegradation
12%
Energy Gap
12%
Rate Constant
8%
Environmental Risk
8%
Air Pollution
8%
Oxidation Rate
8%
Robust Stability
8%
Bubble Collapse
8%
Electrocatalytic Activity
8%
Internals
8%
Aqueous Phase
8%
Ionic Strength
7%
Process Chemical
7%
Porous Structure
6%
Keyphrases
Sulfate Radical
25%
Radical-mediated
25%
Antibiotic Removal
25%
Sulfamethoxazole
25%
Degradation Reaction
25%
Chromate Adsorption
25%
Porous Iron
25%
Hydroxyl Radical Oxidation
25%
Ferrate(VI)
25%
Apparent Rate Constant
25%
Fe(VI)
25%
Activated Carbon
25%
Trace Organic Contaminants (TrOCs)
25%
Regenerable
25%
Water Reuse
25%
Titanate Nanotubes
25%
Hydroxyl Radical
25%
Adsorption Activation
25%
Bubble Release
25%
Ni Catalyst
25%
Alkaline Water Splitting
25%
Hydrated Electron
25%
Reductive Defluorination
25%
Single Electron Transfer
20%
Chemical Base
18%
Meta-substitution
18%
EHOMO
15%
ELUMO
12%
Substitution Position
12%
Surface Complexation
10%
Cr(VI) Removal
10%
Electron Distribution
10%
Relationship Model
10%
Phenol Sorption
10%
Cavitation Bubble Collapse
8%
Bubble Adhesion
8%
Resident Time
8%
Nickel Catalyst
8%
Water-splitting Process
8%
Electrocatalytic Water Splitting
8%
Groundwater Matrix
8%
Persistent Micropollutant
6%
Fe2O3 Nanoparticles
6%
Morphology Tuning
6%
Ofloxacin
6%
Sulfur Modification
6%
H2O2 Utilization
6%
Quantum Chemical Descriptors
6%
Hammett Relationship
6%
PCB Congeners
6%