Mingyuan He mainly focuses on Catalysis, Organic chemistry, Inorganic chemistry, Mesoporous material and Selectivity. His Catalysis study frequently draws connections between adjacent fields such as Medicinal chemistry. He focuses mostly in the field of Organic chemistry, narrowing it down to topics relating to Polymer chemistry and, in certain cases, Lamellar structure and Calcination.
His work deals with themes such as Isomorphous substitution, Molecular sieve, Adsorption and Sulfur, which intersect with Inorganic chemistry. Within one scientific family, Mingyuan He focuses on topics pertaining to Polymer under Mesoporous material, and may sometimes address concerns connected to Mesoporous organosilica, Nanotechnology, Stereochemistry and Manganese. His work in Selectivity addresses issues such as Hydrogen peroxide, which are connected to fields such as Combinatorial chemistry, Hydroxyl radical and Acetonitrile.
His main research concerns Catalysis, Inorganic chemistry, Organic chemistry, Zeolite and Mesoporous material. His work carried out in the field of Catalysis brings together such families of science as Raw material and Hydrogen peroxide. His Inorganic chemistry research incorporates themes from Hydrothermal synthesis, Flue-gas desulfurization, Sulfur and Adsorption.
Organic chemistry is closely attributed to Polymer chemistry in his study. Mingyuan He combines subjects such as Crystallization, Molecular sieve, Molecule, Cyclohexanone and Crystallinity with his study of Zeolite. His Mesoporous material research includes elements of Nanotechnology, Polymer, ZSM-5 and Scanning electron microscope.
His primary areas of study are Catalysis, Zeolite, Inorganic chemistry, Mesoporous material and Crystallization. His biological study spans a wide range of topics, including Titanium, Decomposition and Oxide. His Zeolite study deals with the bigger picture of Organic chemistry.
In the field of Organic chemistry, his study on Low-density polyethylene, Porosity and Palladium overlaps with subjects such as Direct coupling and Cleavage. His study in Inorganic chemistry is interdisciplinary in nature, drawing from both Ion exchange, Diffuse reflectance infrared fourier transform, Rhodamine B, Nanorod and Condensation. His research in Mesoporous material intersects with topics in ZSM-5 and Polymer.
The scientist’s investigation covers issues in Catalysis, Cobalt hydroxide, Electrochemistry, Bifunctional and Oxide. Mingyuan He works mostly in the field of Cobalt hydroxide, limiting it down to concerns involving Tafel equation and, occasionally, Inorganic chemistry. His research in Inorganic chemistry tackles topics such as Photocatalysis which are related to areas like Mesoporous material.
Mingyuan He usually deals with Electrochemistry and limits it to topics linked to Hydrogen production and Oxygen evolution and Water splitting. His work in Bifunctional covers topics such as Selectivity which are related to areas like Zeolite. His Zeolite research is within the category of Organic chemistry.
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Chemodynamic Therapy: Tumour Microenvironment‑Mediated Fenton and Fenton‑like Reactions
Zhongmin Tang;Yanyan Liu;Mingyuan He;Wenbo Bu;Wenbo Bu.
Angewandte Chemie (2019)
Green Carbon Science: Scientific Basis for Integrating Carbon Resource Processing, Utilization, and Recycling
Mingyuan He;Yuhan Sun;Buxing Han.
Angewandte Chemie (2013)
Antiferromagnetic Pyrite as the Tumor Microenvironment‐Mediated Nanoplatform for Self‐Enhanced Tumor Imaging and Therapy
Zhongmin Tang;Huilin Zhang;Yanyan Liu;Dalong Ni.
Advanced Materials (2017)
Design of environmentally friendly ionic liquid aqueous two-phase systems for the efficient and high activity extraction of proteins
Zhiyong Li;Xinxin Liu;Yuanchao Pei;Jianji Wang.
Green Chemistry (2012)
Methodology for synthesizing crystalline metallosilicates with expanded pore windows through molecular alkoxysilylation of zeolitic lamellar precursors.
Peng Wu;Juanfang Ruan;Lingling Wang;LeiLei Wu.
Journal of the American Chemical Society (2008)
Deep Oxidative Desulfurization of Fuels Catalyzed by Ionic Liquid in the Presence of H2O2
Liang Lu;Shifu Cheng;Jinbao Gao;Guohua Gao.
Energy & Fuels (2007)
Modulating Hypoxia via Nanomaterials Chemistry for Efficient Treatment of Solid Tumors.
Yanyan Liu;Yaqin Jiang;Meng Zhang;Zhongmin Tang.
Accounts of Chemical Research (2018)
Novel Solid Acid Catalysts: Sulfonic Acid Group‐Functionalized Mesostructured Polymers
Rong Xing;Na Liu;Yueming Liu;Haihong Wu.
Advanced Functional Materials (2007)
Active solid acid catalysts prepared by sulfonation of carbonization-controlled mesoporous carbon materials
Rong Xing;Yueming Liu;Yong Wang;Li Chen.
Microporous and Mesoporous Materials (2007)
Nickel-molybdenum nitride nanoplate electrocatalysts for concurrent electrolytic hydrogen and formate productions.
Yan Li;Xinfa Wei;Lisong Chen;Jianlin Shi;Jianlin Shi.
Nature Communications (2019)
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