His Oxide research extends to the thematically linked field of Organic chemistry. In most of his Oxide studies, his work intersects topics such as Organic chemistry. In his works, Luhua Jiang undertakes multidisciplinary study on Adsorption and Activated carbon. By researching both Activated carbon and Adsorption, he produces research that crosses academic boundaries. He integrates Ecology and Environmentally friendly in his research. His Chemical engineering study typically links adjacent topics like Nanocomposite. Nanocomposite and Nanotechnology are two areas of study in which Luhua Jiang engages in interdisciplinary work. By researching both Nanotechnology and Graphene, he produces research that crosses academic boundaries. He combines topics linked to Chemical engineering with his work on Graphene.
His study on Computer network is often connected to Astrophysics as part of broader study in Routing (electronic design automation). Luhua Jiang carries out multidisciplinary research, doing studies in Computer network and Routing protocol. Luhua Jiang brings together Routing protocol and Link-state routing protocol to produce work in his papers. His study ties his expertise on Black hole (networking) together with the subject of Link-state routing protocol. Black hole (networking) is frequently linked to Routing (electronic design automation) in his study. His Adsorption research encompasses a variety of disciplines, including Activated carbon, Langmuir adsorption model, Sorption and Freundlich equation. Many of his studies involve connections with topics such as Aqueous solution and Langmuir adsorption model. His studies link Freundlich equation with Aqueous solution. Luhua Jiang integrates Sorption with Adsorption in his research.
His Thermodynamics research is linked to Spin (aerodynamics) and Dimensionless quantity. He frequently studies issues relating to Thermodynamics and Spin (aerodynamics). Many of his studies on Dimensionless quantity apply to Quantum mechanics as well. He applies his multidisciplinary studies on Quantum mechanics and Computational physics in his research. He integrates many fields in his works, including Computational physics and Astrophysics. His Astrophysics study frequently draws connections between adjacent fields such as Quasi periodic. Luhua Jiang integrates Link-state routing protocol with Computer network in his research. He integrates Computer network with Black hole (networking) in his study. Much of his study explores Black hole (networking) relationship to Routing protocol.
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High performance platinum single atom electrocatalyst for oxygen reduction reaction
Jing Liu;Menggai Jiao;Lanlu Lu;Heather M. Barkholtz.
Nature Communications (2017)
Size-controllable synthesis of monodispersed SnO2 nanoparticles and application in electrocatalysts.
Luhua Jiang;Gongquan Sun;Zhenhua Zhou;Shiguo Sun.
Journal of Physical Chemistry B (2005)
Bi- and tri-metallic Pt-based anode catalysts for direct ethanol fuel cells
W.J. Zhou;W.Z. Li;S.Q. Song;Z.H. Zhou.
Journal of Power Sources (2004)
Structure and chemical composition of supported Pt-Sn electrocatalysts for ethanol oxidation
Luhua Jiang;Gongquan Sun;Shiguo Sun;Jianguo Liu.
Effect of Surface Manganese Valence of Manganese Oxides on the Activity of the Oxygen Reduction Reaction in Alkaline Media
Qiwen Tang;Luhua Jiang;Jing Liu;Suli Wang.
ACS Catalysis (2014)
Direct ethanol PEM fuel cells: The case of platinum based anodes
S.Q. Song;W.J. Zhou;Z.H. Zhou;L.H. Jiang.
International Journal of Hydrogen Energy (2005)
Novel synthesis of highly active Pt/C cathode electrocatalyst for direct methanol fuel cell
Zhenhua Zhou;Suli Wang;Weijiang Zhou;Guoxiong Wang.
Comparison of different promotion effect of PtRu/C and PtSn/C electrocatalysts for ethanol electro-oxidation
Huanqiao Li;Gongquan Sun;Lei Cao;Luhua Jiang.
Electrochimica Acta (2007)
Ethanol electrooxidation on novel carbon supported Pt/SnOx/C catalysts with varied Pt : Sn ratio
L. Jiang;L. Jiang;L. Colmenares;Z. Jusys;G.Q. Sun.
Electrochimica Acta (2007)
Carbon nanofibers supported Pt–Ru electrocatalysts for direct methanol fuel cells
Junsong Guo;Gongquan Sun;Qi Wang;Guoxiong Wang.
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