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Xiaomin Zhang
High Impact
Associate Research Professor
faculty
Geriatrics, College of Medicine
43 h-index
263 pubs
5,630 cited
Research Areas
Biography and Research Information
OverviewAI-generated summary
Xiaomin Zhang's research investigates the development and application of novel materials for gas separation and purification, with a particular focus on carbon dioxide and hydrogen sulfide capture. This work involves the design of task-specific deep eutectic solvents, protic ionic liquids, and zeolite-based adsorbents. Zhang's group has explored the use of these materials in conjunction with circulating fluidized bed fly ash derived geopolymers for heavy metal ion adsorption from wastewater. Their recent publications also include studies on the conversion of hydrogen sulfide into mercaptan alcohols mediated in protic ionic liquids and the impact of water-sediment regulation schemes on phytoplankton communities in the Yellow River estuary.
Zhang holds an h-index of 43 and has authored over 265 publications, which have been cited more than 5,500 times. Zhang leads a research group and maintains an active laboratory website. The researcher is designated as a high-impact researcher due to being highly cited.
Metrics
- h-index: 43
- Publications: 263
- Citations: 5,630
Selected Publications
-
Dysregulation of SRF-Regulated Genes Accelerates the Development of Myocardial Aging (2025)
Grants & Funding
- Ischemia/reoerfusion Injury in Aging Mouse Hearts NIH/Nat. Inst. on Aging Principal Investigator
- TCIA Sustainment and Scalability - Platforms for Quantitative Imaging Informatics in Precision Medicine NIH Co-Investigator
- Transcription Regulation in the Aging Heart NIH Co-Investigator
Collaboration Network
Top Collaborators
Youting Wu
Nanjing University (CN)
32 shared publications
- Low viscosity superbase protic ionic liquids for the highly efficient simultaneous removal of H2S and CO2 from CH4
- Task-specific deep eutectic solvents for the highly efficient and selective separation of H2S
- Highly efficient and selective H2S capture by task-specific deep eutectic solvents through chemical dual-site absorption
- Rational Design of Porous Ionic Liquids for Coupling Natural Gas Purification with Waste Gas Conversion
- Natural deep eutectic solvent-based gels with multi-site interaction mechanism for selective membrane separation of SO2 from N2 and CO2
Showing 5 of 32 shared publications
Xingbang Hu
Nanjing University (CN)
28 shared publications
- Low viscosity superbase protic ionic liquids for the highly efficient simultaneous removal of H2S and CO2 from CH4
- Task-specific deep eutectic solvents for the highly efficient and selective separation of H2S
- Highly efficient and selective H2S capture by task-specific deep eutectic solvents through chemical dual-site absorption
- Natural deep eutectic solvent-based gels with multi-site interaction mechanism for selective membrane separation of SO2 from N2 and CO2
- The efficient conversion of H<sub>2</sub>S into mercaptan alcohols mediated in protic ionic liquids under mild conditions
Showing 5 of 28 shared publications
Zhuoheng Tu
Nanjing University (CN)
20 shared publications
- Task-specific deep eutectic solvents for the highly efficient and selective separation of H2S
- Highly efficient and selective H2S capture by task-specific deep eutectic solvents through chemical dual-site absorption
- Natural deep eutectic solvent-based gels with multi-site interaction mechanism for selective membrane separation of SO2 from N2 and CO2
- The efficient conversion of H<sub>2</sub>S into mercaptan alcohols mediated in protic ionic liquids under mild conditions
- Facilitated transport separation of CO2 and H2S by supported liquid membrane based on task-specific protic ionic liquids
Showing 5 of 20 shared publications
Mingzhen Shi
Nanjing University (CN)
15 shared publications
- Low viscosity superbase protic ionic liquids for the highly efficient simultaneous removal of H2S and CO2 from CH4
- Task-specific deep eutectic solvents for the highly efficient and selective separation of H2S
- Highly efficient and selective H2S capture by task-specific deep eutectic solvents through chemical dual-site absorption
- Rational Design of Porous Ionic Liquids for Coupling Natural Gas Purification with Waste Gas Conversion
- Natural deep eutectic solvent-based gels with multi-site interaction mechanism for selective membrane separation of SO2 from N2 and CO2
Showing 5 of 15 shared publications
Wenjie Xiong
Nanjing University (CN)
14 shared publications
- Low viscosity superbase protic ionic liquids for the highly efficient simultaneous removal of H2S and CO2 from CH4
- Task-specific deep eutectic solvents for the highly efficient and selective separation of H2S
- Highly efficient and selective H2S capture by task-specific deep eutectic solvents through chemical dual-site absorption
- Natural deep eutectic solvent-based gels with multi-site interaction mechanism for selective membrane separation of SO2 from N2 and CO2
- The efficient conversion of H<sub>2</sub>S into mercaptan alcohols mediated in protic ionic liquids under mild conditions
Showing 5 of 14 shared publications
Ping Zhang
Nanjing University (CN)
7 shared publications
- Natural deep eutectic solvent-based gels with multi-site interaction mechanism for selective membrane separation of SO2 from N2 and CO2
- Unexpectedly efficient absorption of low-concentration SO2 with phase-transition mechanism using deep eutectic solvent consisting of tetraethylammonium chloride and imidazole
- Tuning the composition of deep eutectic solvents consisting of tetrabutylammonium chloride and n-decanoic acid for adjustable separation of ethylene and ethane
- Acidic protic ionic liquid‐based deep eutectic solvents capturing <scp>SO<sub>2</sub></scp> with low enthalpy changes
- Deep eutectic solvent-based blended membranes for ultra-super selective separation of SO2
Showing 5 of 7 shared publications
Shuyue Wen
Nanjing University (CN)
7 shared publications
- Novel amino acid ionic liquids prepared via one‐step lactam hydrolysis for the highly efficient capture of <scp>CO<sub>2</sub></scp>
- Novel amino acid ionic liquids as messenger of multi-tertiary-amines solutions for highly efficient capture of CO2
- Aqueous solutions of sterically hindered amino acid ionic liquids for rapid and efficient capture of CO2
- Construction of hybrid ionic liquid‐catalysts for the highly effective conversion of <scp>H<sub>2</sub>S</scp> by nitriles into thioamides
- Unveiling protic amino acid ionic liquids for the efficient capture of carbon dioxide
Showing 5 of 7 shared publications
Lingling Peng
Nanjing University (CN)
4 shared publications
- Low viscosity superbase protic ionic liquids for the highly efficient simultaneous removal of H2S and CO2 from CH4
- Facilitated transport separation of CO2 and H2S by supported liquid membrane based on task-specific protic ionic liquids
- Ultrahigh carbon monoxide capture by novel protic cuprous-functionalized dicationic ionic liquids through complexation interactions
- Reversible absorption of NF3 with high solubility in Lewis acidic ionic liquids
Guangzhi Xu
Nanjing University (CN)
4 shared publications
- Unexpectedly efficient absorption of low-concentration SO2 with phase-transition mechanism using deep eutectic solvent consisting of tetraethylammonium chloride and imidazole
- Tuning the composition of deep eutectic solvents consisting of tetrabutylammonium chloride and n-decanoic acid for adjustable separation of ethylene and ethane
- Supported Ruthenium catalysts with electronic effect and acidity-basicity for efficient reductive amination of biomass-based carbonyl compounds
- Protic Brønsted acidic ionic liquids with variable acidity for efficient conversion of xylose and hemicellulose to furfural
Yi Pan
Nanjing University (CN)
3 shared publications
- Highly efficient absorption of HCl in deep eutectic solvents and their corresponding ethylene glycol blends
- Ultrahigh carbon monoxide capture by novel protic cuprous-functionalized dicationic ionic liquids through complexation interactions
- Design of deep eutectic solvents with multiple-active-sites for HCl separation and storage
Yuefeng Song
Dalian Institute of Chemical Physics (CN)
3 shared publications
- Tailoring Ion Ordering in Perovskite Oxide for High‐Temperature Oxygen Evolution Reaction
- In-situ exsolution of cobalt nanoparticles from La0.5Sr0.5Fe0.8Co0.2O3-δ cathode for enhanced CO2 electrolysis performance
- In Situ Self‐Assembled Active and Stable Ir@MnO<sub>x</sub>/La<sub>0.7</sub>Sr<sub>0.3</sub>Cr<sub>0.9</sub>Ir<sub>0.1</sub>O<sub>3−δ</sub> Interfaces for CO<sub>2</sub> Electrolysis
Guoxiong Wang
Dalian Institute of Chemical Physics (CN)
3 shared publications
- Tailoring Ion Ordering in Perovskite Oxide for High‐Temperature Oxygen Evolution Reaction
- In-situ exsolution of cobalt nanoparticles from La0.5Sr0.5Fe0.8Co0.2O3-δ cathode for enhanced CO2 electrolysis performance
- In Situ Self‐Assembled Active and Stable Ir@MnO<sub>x</sub>/La<sub>0.7</sub>Sr<sub>0.3</sub>Cr<sub>0.9</sub>Ir<sub>0.1</sub>O<sub>3−δ</sub> Interfaces for CO<sub>2</sub> Electrolysis
Panyang He
Xi'an University of Architecture and Technology (CN)
2 shared publications
- Diverse zeolites derived from a circulating fluidized bed fly ash based geopolymer for the adsorption of lead ions from wastewater
- Development of a facile and robust silicomanganese slag-based geopolymer membrane for oil/water separation
Yaojun Zhang
Xi'an University of Architecture and Technology (CN)
2 shared publications
- Diverse zeolites derived from a circulating fluidized bed fly ash based geopolymer for the adsorption of lead ions from wastewater
- Development of a facile and robust silicomanganese slag-based geopolymer membrane for oil/water separation
Hao Chen
Xi'an University of Architecture and Technology (CN)
2 shared publications
- Diverse zeolites derived from a circulating fluidized bed fly ash based geopolymer for the adsorption of lead ions from wastewater
- Development of a facile and robust silicomanganese slag-based geopolymer membrane for oil/water separation
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