D-Index & Metrics Best Publications
Research.com 2022 Rising Star of Science Award Badge

D-Index & Metrics

Discipline name D-index D-index (Discipline H-index) only includes papers and citation values for an examined discipline in contrast to General H-index which accounts for publications across all disciplines. Citations Publications World Ranking National Ranking
Chemistry D-index 41 Citations 5,424 128 World Ranking 12649 National Ranking 1696
Rising Stars D-index 41 Citations 5,556 154 World Ranking 566 National Ranking 216

Research.com Recognitions

Awards & Achievements

2022 - Research.com Rising Star of Science Award

Overview

What is he best known for?

The fields of study he is best known for:

  • Organic chemistry
  • Oxygen
  • Catalysis

Bo Lai spends much of his time researching Nuclear chemistry, Reaction mechanism, Aqueous solution, Catalysis and Nitrophenol. The various areas that Bo Lai examines in his Nuclear chemistry study include Aeration, Quenching and Fourier transform infrared spectroscopy. His Reaction mechanism study integrates concerns from other disciplines, such as Pollutant and X-ray photoelectron spectroscopy.

Bo Lai has included themes like Water treatment and Environmental engineering in his Aqueous solution study. His work carried out in the field of Catalysis brings together such families of science as Nanoparticle and Activated sludge. His Nitrophenol study combines topics in areas such as Wastewater and Inorganic chemistry.

His most cited work include:

  • Enhancement of the degradation of atrazine through CoFe2O4 activated peroxymonosulfate (PMS) process: Kinetic, degradation intermediates, and toxicity evaluation (175 citations)
  • Heterogeneous catalytic oxidation for the degradation of p-nitrophenol in aqueous solution by persulfate activated with CuFe2O4 magnetic nano-particles (145 citations)
  • Removal of p-nitrophenol (PNP) in aqueous solution by the micron-scale iron–copper (Fe/Cu) bimetallic particles (140 citations)

What are the main themes of his work throughout his whole career to date?

His primary areas of investigation include Nuclear chemistry, Catalysis, Wastewater, Reaction mechanism and Aqueous solution. His work deals with themes such as Decomposition, Fourier transform infrared spectroscopy, Quenching, X-ray photoelectron spectroscopy and Ozone, which intersect with Nuclear chemistry. The Photocatalysis research Bo Lai does as part of his general Catalysis study is frequently linked to other disciplines of science, such as Electron paramagnetic resonance, therefore creating a link between diverse domains of science.

His research integrates issues of Matrix, Metallurgy, Biodegradation and Pollutant in his study of Wastewater. As a part of the same scientific study, he usually deals with the Reaction mechanism, concentrating on Persulfate and frequently concerns with Catalytic oxidation. His Aqueous solution research includes elements of Inorganic chemistry, Bimetallic strip, Adsorption and Nitrophenol.

He most often published in these fields:

  • Nuclear chemistry (35.56%)
  • Catalysis (32.59%)
  • Wastewater (23.70%)

What were the highlights of his more recent work (between 2019-2021)?

  • Catalysis (32.59%)
  • Adsorption (15.56%)
  • Photocatalysis (9.63%)

In recent papers he was focusing on the following fields of study:

His primary areas of study are Catalysis, Adsorption, Photocatalysis, Nuclear chemistry and Photochemistry. In the field of Catalysis, his study on Reaction mechanism and Peroxydisulfate overlaps with subjects such as Electron paramagnetic resonance. Bo Lai interconnects Aqueous solution and Layered double hydroxides in the investigation of issues within Reaction mechanism.

His Nuclear chemistry research incorporates elements of Swine wastewater and X-ray photoelectron spectroscopy. His study on X-ray photoelectron spectroscopy also encompasses disciplines like

  • Scanning electron microscope and related Calcination,
  • Bimetallic strip which connect with Aqueous two-phase system. His study looks at the relationship between Photochemistry and topics such as Persulfate, which overlap with Molybdenum disulfide, Nanosheet and Transition metal.

Between 2019 and 2021, his most popular works were:

  • Core-shell magnetic [email protected]/Co-ZIFs to activate peroxymonosulfate for highly efficient degradation of carbamazepine (52 citations)
  • Peroxymonosulfate activation on FeCo2S4 modified g-C3N4 (FeCo2S4-CN): Mechanism of singlet oxygen evolution for nonradical efficient degradation of sulfamethoxazole (48 citations)
  • Molybdenum disulfide (MoS2): A versatile activator of both peroxymonosulfate and persulfate for the degradation of carbamazepine (43 citations)

In his most recent research, the most cited papers focused on:

  • Organic chemistry
  • Oxygen
  • Catalysis

His scientific interests lie mostly in Catalysis, Nuclear chemistry, Electron paramagnetic resonance, X-ray photoelectron spectroscopy and Photochemistry. Catalysis is frequently linked to Electron transfer in his study. His studies deal with areas such as Cerium oxide, Zeolite, Ozone and Hydroxyl radical as well as Nuclear chemistry.

The concepts of his Photochemistry study are interwoven with issues in Singlet oxygen, Persulfate, Metal and Sulfur. His studies in Reaction mechanism integrate themes in fields like Catalytic ozonation, Composite material, Scanning electron microscope and Aqueous solution. His Quenching research incorporates themes from Bimetallic strip, Calcination and Mass spectrum.

This overview was generated by a machine learning system which analysed the scientist’s body of work. If you have any feedback, you can contact us here.

Best Publications

Enhancement of the degradation of atrazine through CoFe2O4 activated peroxymonosulfate (PMS) process: Kinetic, degradation intermediates, and toxicity evaluation

Jun Li;Mengjuan Xu;Gang Yao;Gang Yao;Bo Lai.
Chemical Engineering Journal (2018)

234 Citations

Heterogeneous catalytic oxidation for the degradation of p-nitrophenol in aqueous solution by persulfate activated with CuFe2O4 magnetic nano-particles

Jun Li;Yi Ren;Fangzhou Ji;Bo Lai.
Chemical Engineering Journal (2017)

193 Citations

Degradation of tetracycline by peroxymonosulfate activated with zero-valent iron: Performance, intermediates, toxicity and mechanism

Jinyan Cao;Leiduo Lai;Bo Lai;Gang Yao;Gang Yao.
Chemical Engineering Journal (2019)

192 Citations

Removal of p-nitrophenol (PNP) in aqueous solution by the micron-scale iron–copper (Fe/Cu) bimetallic particles

Bo Lai;Yunhong Zhang;Zhaoyun Chen;Ping Yang.
Applied Catalysis B-environmental (2014)

184 Citations

Catalytic degradation of sulfamethoxazole through peroxymonosulfate activated with expanded graphite loaded CoFe2O4 particles

Mengjuan Xu;Jun Li;Yan Yan;Xiuge Zhao.
Chemical Engineering Journal (2019)

158 Citations

Removal of nitrophenols and their derivatives by chemical redox: A review

Zhaokun Xiong;Heng Zhang;Wenchao Zhang;Bo Lai.
Chemical Engineering Journal (2019)

138 Citations

Removal of high concentration p-nitrophenol in aqueous solution by zero valent iron with ultrasonic irradiation (US-ZVI).

Bo Lai;Zhaoyu Chen;Yuexi Zhou;Ping Yang.
Journal of Hazardous Materials (2013)

134 Citations

The electrochemical advanced oxidation processes coupling of oxidants for organic pollutants degradation: A mini-review

Jun Li;Yangju Li;Zhaokun Xiong;Gang Yao;Gang Yao.
Chinese Chemical Letters (2019)

132 Citations

Peroxymonosulfate activation on FeCo2S4 modified g-C3N4 (FeCo2S4-CN): Mechanism of singlet oxygen evolution for nonradical efficient degradation of sulfamethoxazole

Yangju Li;Jun Li;Yuting Pan;Zhaokun Xiong.
Chemical Engineering Journal (2020)

132 Citations

Degradation of p-nitrophenol (PNP) in aqueous solution by Fe0-PM-PS system through response surface methodology (RSM)

Jun Li;Qi Liu;Qing qing Ji;Bo Lai.
Applied Catalysis B-environmental (2017)

125 Citations

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