• Click:

王海

Personal Information

 Doctoral Supervisor  Master Tutor

Gender:Male

Alma Mater:北达科他大学

Degree:Doctoral Degree

School/Department:化工学院

Discipline:Polymer Materials. Polymer Chemistry and Physics

Business Address:化工实验楼A段(知顺楼)221

E-Mail:haiwang@dlut.edu.cn

Profile

招生需求 高分子相关学术博士,学术/专业硕士


教育及工作经历

2018年12月至今,大连理工大学 化工学院 高分子材料系 副教授(博导,硕导)


2016年5月至2018年11月 博士后 

中国科学院长春应用化学研究所,高分子物理与化学国家重点实验室  


2013年10月至2016年4月 博士后 

日本丰田工业大学,极限高分子材料研究室 

Toyota Technological Institute, Japan 

 

2013年1月至2013年8月 研究助理 

美国北达科他大学化学工程系 

Department of Chemical Engineering, University of North Dakota, USA 

 

2008年8月至2012年12月 化学工程 博士 

美国北达科他大学化学工程系 

Department of Chemical Engineering, University of North Dakota, USA 

 

2004年9月至2008年7月 学士 

大连理工大学,高分子材料与工程系 


研究方向

1.高分子晶体结构解析

2.高分子结晶行为和晶型转变机理

3.高分子纤维聚集态结构与物性关系

4.高分子功能纤维结构与性能关系

5.高分子隔热复合材料结构与性能


独立主持基金

1.国家自然科学基金——青年基金项目“间规聚甲氧基苯乙烯的晶体结构解析和相转变”2018-2020

2.中石化地区联合研发项目“耐高温隔热保温防腐材料研发”2020-2022

3.国家自然科学基金——面上项目“基于X射线晶体结构解析的全同立构手性CO2基聚碳酸酯聚集态结构与性能关系研究”2021-2024


研究课题

1. 高分子功能纤维的结构与性能

以隔热、导热、热响应为主要功能的多功能高分子纤维的制备方法和工艺探索、聚集态结构与性能关系研究。


2. 高性能隔热复合材料结构与性能

杂萘联苯聚芳醚酮系列耐高温高性能复合材料的设计和制备方法探索、结构与性能关系研究。


3.CO2基聚碳酸酯的聚集态结构

多种全同立构单一手性CO2基聚碳酸酯的晶体结构解析、结晶行为研究、相转变行为和机理探索。


4. 新型聚烯烃聚集态结构

间规聚甲氧基苯乙烯(syndiotactic polymethoxystyrene)和间规立构聚苯乙烯(syndiotactic polystyrene)的晶体结构、晶型转变和结晶行为研究。


5. 结晶性聚合物的阶层构造

聚乳酸(poly(L-lactic acid))多种晶型(mesophase, α, δ and β)的晶体结构解析和相转变关系;聚(3-羟基丁酸酯)的多种晶体结构及相转变研究。


论文发表情况

应用研究(聚合物/纳米碳复合材料于柔性传感、温差发电、湿度发电等方面应用)

Sodium Alginate Based Energy Harvesting Fibers: Multiscale Structures and Moisture-electrical Properties. Chemical Engineering Journal, 2023 Online (Q1, IF = 16.74)


Sodium Alginate Based Skin-Core Fibers with Profoundly Enhanced Moisture-Electric Generation Performance and their Multifunctionality. Journal Material Chemistry A, 2023, 11, 3616-3624. (Q1, IF = 14.51)


Poly(phthalazinone ether ketone) - Poly(3,4-ethylenedioxythiophene) Fiber for Thermoelectric and Hygroelectric Energy Harvesting. Chemical Engineering Journal, 2022, 450, 138093. (Q1, IF = 16.74)

 

Chitosan-based thermal insulation compressible foam enhanced with high performance of piezoelectric generation and sensing. Carbohydrate Polymers 2022, 294,119775. (Q1, IF = 10.72)

 

Polyethersulfone foam with aligned porous structure from frozen solvent templating for high-performance thermal insulation. Journal of Materials Science, 2022, 57, 12147–12160. (Q2, IF = 4.60)

 

A Thermally-electrically Double-responsive Polycaprolactone – thermoplastic polyurethane/ Multi-walled Carbon Nanotube Fiber Assisted with Highly Effective Shape Memory and Strain Sensing Performance. Chemical Engineering Journal, 2022, 427, 131648. (Q1, IF = 16.74)

 

A Poly(vinyl alcohol)/Poly(stearyl acrylate) Core-shell Fibers with Robust Performance Realized by Taking Advantages of the Phase Change Property. Journal of Applied Polymer Science, 2022, 139: e51794. (Q2, IF = 3.16)


A Highly Stretchable Natural Rubber/Buckypaper/Natural rubber (NR/ NBP/NR) Sandwich Strain Sensor with Ultrahigh Sensitivity. Advanced Composites and Hybrid Materials, 2021, 4, 1039-1047. (Q2, IF = 11.80)


High Stretchable, PH-sensitive and Self-Adhesive rGO/CMCNa/PAA Composite Conductive Hydrogel with Good Strain-sensing Performance. Composites Communications, 2021, 24, 100669. (Q2, IF = 7.68)

 

Self-healing and Anti-freezing Graphene–hydrogel–graphene Sandwich Strain Sensor with Ultrahigh Sensitivity. Journal of Material Chemistry B, 2021, 9, 3088-3096. (Q1, IF = 7.57)

 

Strong and Tough PVA/PAA Hydrogel Fiber with Highly Strain Sensitivity Enabled by Coating MWCNTs. Composites Part A, 2020, 138, 106050. (Q1, IF = 9.46)

 

MWCNTs Reinforced Conductive, Self-healing Polyvinyl alcohol/Carboxymethyl chitosan/Oxidized sodium alginate Hydrogel as the Strain Sensor. Journal of Applied Polymer Science, 2020, 138, e49800. (Q2, IF = 3.16)

 

Mussel-Inspired Self-Adhesive, Antidrying, and Antifreezing Poly(acrylic acid)/Bentonite/Polydopamine Hybrid Glycerol-Hydrogel and the Sensing Application. ACS Applied Polymer Materials, 2020, 2, 3094 -3106. (Q2, IF = 4.09)

 

Comparative Study of Structure, Mechanical and Electromagnetic Interference Shielding Properties of Carbon Nanotube Buckypapers Prepared by Different Dispersion Media. Materials & Design, 2019, 184, 108175. (Q1, IF = 9.42)

 

 

基础研究(工程塑料、生物降解树脂的晶体结构与相转变)

β-Form Crystal Modification of Poly(glycolic Acid): Formation, Stabilization, and β-α Transition. Macromolecules, 2023, Online. (Q1, IF = 5.98)


X-ray Diffraction Study of Crystal Structures of Syndiotactic Polymethoxystyrene-Solvent Compelxes. Macromolecules 2022, 55, 18, 8222–8233. (Q1, IF = 5.98)

 

Effect of Methoxy Side Groups on the Crystal Structures of A Series of Syndiotactic Polymethoxystyrenes as Studied by the Xray Diffraction Data Analysis. Macromolecules 2021, 54, 1881-1893. (Q1, IF = 5.98)


Lamellar Thickness Dependence of Crystal Modification Selection in the Syndiotactic Polystyrene γto-α/β Phase Transition Process. Macromolecules 2018, 51, 497-503. (Q1, IF = 5.98)


Retardance of Form II to Form I Transition in Polybutene-1 at Late Stage: A Proposal of a New Mechanism. Macromolecules 2018 51, 2232-2239. (Q1, IF = 5.98)

 

Equilibrium Crystallization Temperature of Syndiotactic Polystyrene γ Form. Chinese Journal of Polymer Science, 2018, 36, 749-755. (Q3, IF = 3.82)

 

Phase Transition Mechanism of Poly(L-Lactic Acid) among the α, δ, and β Forms On the Basis of the Reinvestigated Crystal Structure of the β Form. Macromolecules 2017, 50, 3285-3300. (Q1, IF = 5.98)

 

Confirmation of the X-ray-analyzed Heterogeneous Distribution of the PDLA and PLLA Chain Stems in the Crystal Lattice of Poly(lactic acid) Stereocomplex on the Basis of the Vibrational Circular Dichroism IR Spectral Measurement. Macromolecules 2017, 50, 8048-8065. (Q1, IF = 5.98)

 

Crystal Structure of Poly(Lactic Acid) Stereocomplex: Random Packing Model of PDLA and PLLA Chains as Studied by X-ray Diffraction Analysis. Macromolecules 2017, 50, 8066-8071. (Q1, IF = 5.98)

 

Re-investigation of Crystal Structure and Intermolecular Interaction of Biodegradable Poly(3-hydroxybutyrate). Macromolecules 2016, 49, 581-594 (Q1, IF = 5.98)

 

A. Refinement of the Crystal Structures of Forms I and II of isotactic Polybutene-1 and a Proposal of Phase Transition Mechanism between Them. Macromolecules 2016, 49, 1392-1404. (Q1, IF = 5.98)

 

Xu, D.; Wang, H.;* Bin, Y.* The investigation of the growth and perfection of the poly(ethylene terephthalate) crystalline region from amorphous state during annealing using a controlled temperature gradient. Polymer Crystallization 2021, 4, e10178. (Q2, IF = 2.03)

 

 Xu, D.; Wang, H.; Bin, Y.* Morphology transition of micron-thick linear low-density polyethylene films and the construction of nested spherulitic crystals via combinatorial methodology. Polymer Crystallization 2021, 4, e10163. (Q2, IF = 2.03)

 

Hierarchical structure of polybutene-1 in crystal blocks resulting from the form II to I solid-to-solid transition as revealed by small-angle X-ray scattering. Polymer 2020, 195, 122425. (Q1, IF = 4.43)

 

论著发表

Structures and Phase Transitions of PLA and Its Related Polymers, Chapter 6 in Poly(lactic Acid): Synthesis, Structures, Properties, Processing, and Applications, John Wiley & Sons, Inc, 2022.

 

Trans-crystallization in Polymer Composites and Nanocomposites, Chapter 12 in Crystallization in Multiphase Polymer Systems, Elsevier, 2017.









Other Contact Information

No Content

Educational Experience

  • 2008.9-2012.12

    北达科他大学 | 化工 | Doctoral Degree
     

  • 2004.9-2008.7

    大连理工大学 | 化学 | Bachelor's Degree
     

  • 2001.9-2004.7

    大连育明高中 | 无 
     

Work Experience

  • 2018.12-Now

     大连理工大学  | 副教授 
     

  • 2016.5-2018.10

     长春应用化学研究所  | 博士后 
     

  • 2013.10-2016.4

     日本丰田工业大学  | 博士后 
     

  • 2013.1-2013.8

     美国北达科他大学  | 研究助理 
     

Social Affiliations

Research Focus

  • 结晶高分子的晶体结构解析

  • 高分子材料晶型转变机理

  • 高分子材料结晶行为

Research Group

No Content