Bo Lai
YOU?
Author Swipe
View article: Correction: Organophosphorus pollutant degradationin wastewater using the microscale zero‑valent iron/O3 process: optimization, performance, and mechanism
Correction: Organophosphorus pollutant degradationin wastewater using the microscale zero‑valent iron/O3 process: optimization, performance, and mechanism Open
View article: Novelty carbon-based Fe-S-Mo catalyst to achieve adsorption oxidation cooperative reinforcement for Fenton-like reaction
Novelty carbon-based Fe-S-Mo catalyst to achieve adsorption oxidation cooperative reinforcement for Fenton-like reaction Open
View article: Correction: Organophosphorus pollutant degradation in wastewater using the microscale zero-valent iron/O3 process: optimization, performance, and mechanism
Correction: Organophosphorus pollutant degradation in wastewater using the microscale zero-valent iron/O3 process: optimization, performance, and mechanism Open
View article: Organophosphorus pollutant degradation in wastewater using the microscale zero-valent iron/O3 process: optimization, performance, and mechanism
Organophosphorus pollutant degradation in wastewater using the microscale zero-valent iron/O3 process: optimization, performance, and mechanism Open
View article: Isotope Techniques in Chemical Wastewater Treatment: Opportunities and Uncertainties
Isotope Techniques in Chemical Wastewater Treatment: Opportunities and Uncertainties Open
A comprehensive and in‐depth analysis of reaction mechanisms is essential for advancing chemical water treatment technologies. However, due to the limitations of conventional experimental and analytical methods, the types of reactive speci…
View article: Isotope Techniques in Chemical Wastewater Treatment: Opportunities and Uncertainties
Isotope Techniques in Chemical Wastewater Treatment: Opportunities and Uncertainties Open
A comprehensive and in‐depth analysis of reaction mechanisms is essential for advancing chemical water treatment technologies. However, due to the limitations of conventional experimental and analytical methods, the types of reactive speci…
View article: Enhanced Fe(Iii)/Fe(Ii) Circulation and H2o2 Utilization in an Efficient Solid–Liquid-Interfacial Fenton-Like Reaction Over the Sulfur Quantum Dots Cocatalyst at Neutral Ph
Enhanced Fe(Iii)/Fe(Ii) Circulation and H2o2 Utilization in an Efficient Solid–Liquid-Interfacial Fenton-Like Reaction Over the Sulfur Quantum Dots Cocatalyst at Neutral Ph Open
View article: N-Doped Graphite Carbon/Co3o4 Heterojunction for Bisphenol a Degradation Via Peroxymonosulfate Activation: Radical/Non-Radical Synergism
N-Doped Graphite Carbon/Co3o4 Heterojunction for Bisphenol a Degradation Via Peroxymonosulfate Activation: Radical/Non-Radical Synergism Open
View article: A New Avenue for Organic Wastewater Purification: A Non-Radical Polymerization Pathway Driven by Metastable High-Valent Nickel-Oxo Species
A New Avenue for Organic Wastewater Purification: A Non-Radical Polymerization Pathway Driven by Metastable High-Valent Nickel-Oxo Species Open
View article: Enhanced Fe(Iii)/Fe(Ii) Circulation and H2o2 Utilization in an Efficient Solid–Liquid-Interfacial Fenton-Like Reaction Over the Sulfur Quantum Dots Cocatalyst at Neutral Ph
Enhanced Fe(Iii)/Fe(Ii) Circulation and H2o2 Utilization in an Efficient Solid–Liquid-Interfacial Fenton-Like Reaction Over the Sulfur Quantum Dots Cocatalyst at Neutral Ph Open
View article: Activation of PAA at the Fe–N<sub><i>x</i></sub> Sites by Boron Nitride Quantum Dots Enhanced Charge Transfer Generates High-Valent Metal-Oxo Species for Antibiotics Degradation
Activation of PAA at the Fe–N<sub><i>x</i></sub> Sites by Boron Nitride Quantum Dots Enhanced Charge Transfer Generates High-Valent Metal-Oxo Species for Antibiotics Degradation Open
Advanced oxidation processes (AOPs) based on peracetic acid (PAA) offer a promising strategy to address antibiotic wastewater pollution. In this study, Fe-doped graphitic carbon nitride (g-C3N4) nanomaterials were use…
View article: Hierarchically ordered porous carbon crystals for nanoconfined and sustainable fenton oxidation of water pollutants
Hierarchically ordered porous carbon crystals for nanoconfined and sustainable fenton oxidation of water pollutants Open
View article: Long-range interactions driving neighboring Fe–N4 sites in Fenton-like reactions for sustainable water decontamination
Long-range interactions driving neighboring Fe–N4 sites in Fenton-like reactions for sustainable water decontamination Open
Actualizing efficient and sustainable environmental catalysis is essential in global water pollution control. The single-atom Fenton-like process, as a promising technique, suffers from reducing potential environmental impacts of single-at…
View article: Advanced Characterization Techniques and Theoretical Calculation for Single Atom Catalysts in Fenton-like Chemistry
Advanced Characterization Techniques and Theoretical Calculation for Single Atom Catalysts in Fenton-like Chemistry Open
Single-atom catalysts (SACs) have attracted extensive attention due to their unique catalytic properties and wide range of applications. Advanced characterization techniques, such as energy-dispersive X-ray spectroscopy, X-ray photoelectro…
View article: Insight into the Discriminative Efficiencies and Mechanisms of Peroxy Activation via Fe/Cu Bimetallic Catalysts for Wastewater Purification
Insight into the Discriminative Efficiencies and Mechanisms of Peroxy Activation via Fe/Cu Bimetallic Catalysts for Wastewater Purification Open
Fe/Cu bimetallic catalysts have a synergistic effect that can effectively enhance catalytic activity, so Fe/Cu bimetallic catalysts have been extensively studied. However, the efficacy and mechanisms of Fe/Cu bimetallic catalysts’ peroxida…
View article: High-valent metal-oxo species transformation and regulation by co-existing chloride: Reaction pathways and impacts on the generation of chlorinated by-products
High-valent metal-oxo species transformation and regulation by co-existing chloride: Reaction pathways and impacts on the generation of chlorinated by-products Open
High-valent metal-oxo species (HMOS) have been extensively recognized in advanced oxidation processes (AOPs) owing to their high selectivity and high chemical utilization efficiency. However, the interactions between HMOS and halide ions i…
View article: Intensive Treatment of Organic Wastewater by Three-Dimensional Electrode System within Mn-Loaded Steel Slag as Catalytic Particle Electrodes
Intensive Treatment of Organic Wastewater by Three-Dimensional Electrode System within Mn-Loaded Steel Slag as Catalytic Particle Electrodes Open
Developing a green, low-carbon, and circular economic system is the key to achieving carbon neutrality. This study investigated the organics removal efficiency in a three-dimensional electrode reactor (3DER) constructed from repurposed ind…
View article: The Enhanced Mechanism of Znin2s4-Cofe2o4-Bc Activated Peroxomonosulfate Under Visible Light for the Degradation of Fluoroquinolones
The Enhanced Mechanism of Znin2s4-Cofe2o4-Bc Activated Peroxomonosulfate Under Visible Light for the Degradation of Fluoroquinolones Open
View article: Insight into the Ferrate(Vi)/Ozone Process: Multiple Oxidation Systems Constructed by Mutual Activation of Ferrate(Vi) and Ozone Promote the Elimination of Electron-Deficient Pollutants
Insight into the Ferrate(Vi)/Ozone Process: Multiple Oxidation Systems Constructed by Mutual Activation of Ferrate(Vi) and Ozone Promote the Elimination of Electron-Deficient Pollutants Open
View article: Electron Transfer Tuning for Persulfate Activation Via the Radical and Non-Radical Pathways with Biochar Mediator
Electron Transfer Tuning for Persulfate Activation Via the Radical and Non-Radical Pathways with Biochar Mediator Open
View article: Regulating the Dominant Reactive Oxygen Species from Fe(Iv)-Oxo to 1o2 by Deprotonation of Fe(Iv)-Oxo in Electro-Fe(Ii)/Periodate System
Regulating the Dominant Reactive Oxygen Species from Fe(Iv)-Oxo to 1o2 by Deprotonation of Fe(Iv)-Oxo in Electro-Fe(Ii)/Periodate System Open
View article: New Insights on the Efficiency and Mechanism of Dissolved Oxygen Regulating the Redox Removal of Organic Pollutants by S(Iv) System
New Insights on the Efficiency and Mechanism of Dissolved Oxygen Regulating the Redox Removal of Organic Pollutants by S(Iv) System Open
View article: Cofe2o4@Bc as a Heterogeneous Catalyst to Sustainably Activate Peroxymonosulfate for Boosted Degradation of Enrofloxacin: Properties, Efficiency and Mechanism
Cofe2o4@Bc as a Heterogeneous Catalyst to Sustainably Activate Peroxymonosulfate for Boosted Degradation of Enrofloxacin: Properties, Efficiency and Mechanism Open
View article: Single-Atom Ag Porous Tubular Carbon Nitride Photocatalyst with N-Vacancies as Efficient Visible-Light Periodate Activator: Performance and Mechanism
Single-Atom Ag Porous Tubular Carbon Nitride Photocatalyst with N-Vacancies as Efficient Visible-Light Periodate Activator: Performance and Mechanism Open
View article: The Enhanced Mechanism of Znin2s4-Cofe2o4-Bc Activated Peroxomonosulfate Under Visible Light for the Degradation of Fluoroquinolones
The Enhanced Mechanism of Znin2s4-Cofe2o4-Bc Activated Peroxomonosulfate Under Visible Light for the Degradation of Fluoroquinolones Open
View article: Trace Benzoquinone Inducing Periodate for Tetracyclines Selective Degradation: Role of Unstable Intermediate
Trace Benzoquinone Inducing Periodate for Tetracyclines Selective Degradation: Role of Unstable Intermediate Open
View article: Critical Role of Oxygen Vacancies in Catalytic Ozonation: Non-Radical Pathways and Enhanced Hydroxyl Groups
Critical Role of Oxygen Vacancies in Catalytic Ozonation: Non-Radical Pathways and Enhanced Hydroxyl Groups Open
View article: One-Step Fabrication of a Self-Driven Point-of-Care Device by Femtosecond Laser Direct Writing and Its Application in Cancer Cell H2O2 Detection via Semiconductor-Based SERS
One-Step Fabrication of a Self-Driven Point-of-Care Device by Femtosecond Laser Direct Writing and Its Application in Cancer Cell H2O2 Detection via Semiconductor-Based SERS Open
Self-driven microfluidic systems have attracted significant attention and demonstrated great potential in the field of point-of-care (POC) testing due to their device simplicity, low power consumption, increased portability, and reduced sa…
View article: Mesoporous tubular g-C3N4 as an efficient metal-free photocatalyst with peroxymonosulfate to degrade carbamazepine
Mesoporous tubular g-C3N4 as an efficient metal-free photocatalyst with peroxymonosulfate to degrade carbamazepine Open
In advanced oxidation processes with metal-containing catalysts, metal dissolution usually leads to reduced efficiency and biotoxicity. Therefore, it is very important to find efficient non-metallic materials. In this work, a metal-free me…
View article: Insights into boron accelerated Fenton-like chemistry: Sustainable and fast FeIII/FeII circulation
Insights into boron accelerated Fenton-like chemistry: Sustainable and fast FeIII/FeII circulation Open