What is he best known for?
The fields of study he is best known for:
- Organic chemistry
- Chemical engineering
- Catalysis
Xianluo Hu spends much of his time researching Nanotechnology, Anode, Chemical engineering, Electrochemistry and Lithium.
His Nanotechnology study focuses on Nanocrystal in particular.
His work deals with themes such as Battery, Nanoparticle, Carbon nanofiber, Composite number and Graphene, which intersect with Anode.
His Chemical engineering study frequently draws connections between adjacent fields such as Polypyrrole.
His Electrochemistry study combines topics in areas such as Ion and Cathode.
His Lithium research integrates issues from Porosity and Monolith.
His most cited work include:
- Nitrogen‐Doped Porous Carbon Nanofiber Webs as Anodes for Lithium Ion Batteries with a Superhigh Capacity and Rate Capability (1237 citations)
- Synthesis of functionalized 3D hierarchical porous carbon for high-performance supercapacitors (791 citations)
- Na + intercalation pseudocapacitance in graphene-coupled titanium oxide enabling ultra-fast sodium storage and long-term cycling (654 citations)
What are the main themes of his work throughout his whole career to date?
Xianluo Hu mainly investigates Nanotechnology, Chemical engineering, Anode, Lithium and Electrochemistry.
His work in Nanotechnology addresses issues such as Supercapacitor, which are connected to fields such as Energy storage.
He has included themes like Electrolyte, Cathode and Scanning electron microscope in his Chemical engineering study.
His work investigates the relationship between Anode and topics such as Porosity that intersect with problems in Specific surface area.
His Lithium research is multidisciplinary, incorporating elements of Nanofiber, Battery, Nanocrystal and Electrospinning.
As a member of one scientific family, Xianluo Hu mostly works in the field of Electrochemistry, focusing on Lithium-ion battery and, on occasion, Composite number.
He most often published in these fields:
- Nanotechnology (54.12%)
- Chemical engineering (42.78%)
- Anode (41.24%)
What were the highlights of his more recent work (between 2019-2021)?
- Anode (41.24%)
- Lithium (34.02%)
- Nanotechnology (54.12%)
In recent papers he was focusing on the following fields of study:
His scientific interests lie mostly in Anode, Lithium, Nanotechnology, Energy storage and Chemical engineering.
His studies in Anode integrate themes in fields like Cathode, Electrochemistry and Architectural engineering.
His studies deal with areas such as Battery, Smart grid and Atomic layer deposition as well as Lithium.
He is interested in Graphene, which is a branch of Nanotechnology.
His Energy storage research focuses on Electronics and how it connects with Inkwell and Electrochemical energy storage.
His work on Nanorod as part of general Chemical engineering study is frequently linked to Current density, bridging the gap between disciplines.
Between 2019 and 2021, his most popular works were:
- Coupling of bowl-like VS2 nanosheet arrays and carbon nanofiber enables ultrafast Na+-Storage and robust flexibility for sodium-ion hybrid capacitors (20 citations)
- Holey Graphene for Electrochemical Energy Storage (12 citations)
- Functional Inks for Printable Energy Storage Applications based on 2 D Materials. (11 citations)
In his most recent research, the most cited papers focused on:
- Organic chemistry
- Chemical engineering
- Catalysis
The scientist’s investigation covers issues in Nanotechnology, Anode, Chemical engineering, Computer science and Lithium.
His Nanotechnology study incorporates themes from Lithium–sulfur battery, Energy storage, Inkwell and Electronics.
The Anode study combines topics in areas such as Cathode and Carbon nanofiber.
His Cathode research includes themes of Nanofiber and Graphene.
His research on Chemical engineering focuses in particular on Nanorod.
The study incorporates disciplines such as Etching, Composite number, Carbon and Silicon in addition to Lithium.
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