2022 - Research.com Rising Star of Science Award
Xiaoliang Zeng focuses on Thermal conductivity, Boron nitride, Composite material, Nanotechnology and Composite number. His Thermal conductivity research is multidisciplinary, incorporating perspectives in Vinyl alcohol and Toughness. The various areas that he examines in his Boron nitride study include Electrical conductor, Glass transition and Miniaturization.
His study brings together the fields of Graphene and Composite material. His work on Monolayer as part of general Nanotechnology study is frequently connected to Hydrogen bond, therefore bridging the gap between diverse disciplines of science and establishing a new relationship between them. Xiaoliang Zeng has included themes like Graphene foam and Polymer in his Composite number study.
Composite material, Thermal conductivity, Epoxy, Polymer and Boron nitride are his primary areas of study. In general Composite material, his work in Electronic packaging and Glass transition is often linked to Fabrication and Conductivity linking many areas of study. His Thermal conductivity study combines topics from a wide range of disciplines, such as Electrical conductor, Silver nanoparticle, Composite number, Interfacial thermal resistance and Graphene.
His Epoxy research includes themes of Polymer composites, Sintering, Thermal stability, Thermal conduction and Microstructure. His studies in Polymer integrate themes in fields like Filler, Glass fiber, Carbon nanotube and Ceramic. His research integrates issues of Phonon, Nanosheet and Thermosetting polymer in his study of Boron nitride.
Xiaoliang Zeng mainly investigates Composite material, Thermal conductivity, Polymer, Electrical conductor and Epoxy. His work on Thermal expansion, Nanocomposite and Sintering as part of general Composite material research is frequently linked to Conductivity and Fabrication, bridging the gap between disciplines. His Thermal conductivity study integrates concerns from other disciplines, such as Electronic packaging, Interfacial thermal resistance, Boron nitride and Composite number.
His study in Polymer is interdisciplinary in nature, drawing from both Thermal grease and Ceramic. His Electrical conductor study deals with Graphene intersecting with Optoelectronics. Xiaoliang Zeng interconnects Silicon carbide, Dielectric and Mass fraction in the investigation of issues within Epoxy.
His scientific interests lie mostly in Composite material, Thermal conductivity, Interfacial thermal resistance, Epoxy and Polymer. In the field of Composite material, his study on Sintering, Borosilicate glass, Adhesive and Boron nitride overlaps with subjects such as Phase. His study ties his expertise on Carbide together with the subject of Thermal conductivity.
His biological study spans a wide range of topics, including Epoxy nanocomposites and Nanocomposite. His work is dedicated to discovering how Epoxy, Glass transition are connected with Thermal grease and other disciplines. His Polymer research is multidisciplinary, incorporating perspectives in Filler and Electronic packaging.
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Ice‐Templated Assembly Strategy to Construct 3D Boron Nitride Nanosheet Networks in Polymer Composites for Thermal Conductivity Improvement
Xiaoliang Zeng;Yimin Yao;Zhengyu Gong;Fangfang Wang.
High-Strength, Tough, Fatigue Resistant, and Self-Healing Hydrogel Based on Dual Physically Cross-Linked Network
Zhengyu Gong;Guoping Zhang;Guoping Zhang;Xiaoliang Zeng;Jinhui Li.
ACS Applied Materials & Interfaces (2016)
Silver Nanoparticle-Deposited Boron Nitride Nanosheets as Fillers for Polymeric Composites with High Thermal Conductivity
Fangfang Wang;Xiaoliang Zeng;Xiaoliang Zeng;Yimin Yao;Yimin Yao;Rong Sun.
Scientific Reports (2016)
Artificial nacre-like papers based on noncovalent functionalized boron nitride nanosheets with excellent mechanical and thermally conductive properties
Xiaoliang Zeng;Lei Ye;Shuhui Yu;Hao Li.
A Combination of Boron Nitride Nanotubes and Cellulose Nanofibers for the Preparation of a Nanocomposite with High Thermal Conductivity
Xiaoliang Zeng;Jiajia Sun;Jiajia Sun;Yimin Yao;Rong Sun.
ACS Nano (2017)
Electronic Properties of MoS2–WS2 Heterostructures Synthesized with Two-Step Lateral Epitaxial Strategy
Kun Chen;Xi Wan;Jinxiu Wen;Weiguang Xie.
ACS Nano (2015)
Significant Enhancement of Thermal Conductivity in Bioinspired Freestanding Boron Nitride Papers Filled with Graphene Oxide
Yimin Yao;Xiaoliang Zeng;Fangfang Wang;Fangfang Wang;Rong Sun.
Chemistry of Materials (2016)
Polymer Composite with Improved Thermal Conductivity by Constructing a Hierarchically Ordered Three-Dimensional Interconnected Network of BN.
Jiantao Hu;Yun Huang;Yun Huang;Yimin Yao;Guiran Pan;Guiran Pan.
ACS Applied Materials & Interfaces (2017)
Lateral Built-In Potential of Monolayer MoS2–WS2 In-Plane Heterostructures by a Shortcut Growth Strategy
Kun Chen;Xi Wan;Weiguang Xie;Jinxiu Wen.
Advanced Materials (2015)
Construction of 3D Skeleton for Polymer Composites Achieving a High Thermal Conductivity
Yimin Yao;Jiajia Sun;Jiajia Sun;Xiaoliang Zeng;Rong Sun.
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