周曉東 研究員 博士生導(dǎo)師(碩士生導(dǎo)師)
地址:華東理工大學(xué)實(shí)驗(yàn)十樓226室
電話:021-64253757
郵箱:xdzhou@ecust.edu.cn
【個人簡介】
教育經(jīng)歷
?1987-09 至 1991-07,華東工學(xué)院,大學(xué)本科
?1991-09 至 1992-12,華東工學(xué)院,碩士研究生
?1993-03 至 1996-05,南京理工大學(xué),博士研究生
工作經(jīng)歷
?1996-06 至 1998-10,華東理工大學(xué)化工學(xué)院,博士后
?1998-11 至 2001-10,華東理工大學(xué)化工學(xué)院,副研究員
?2001-11 至 至今,華東理工大學(xué)化工學(xué)院,研究員
?2003-12 至 至今,華東理工大學(xué)化工學(xué)院,博士生導(dǎo)師
主講課程
?化工學(xué)術(shù)講座(必修)
?材料加工原理(必修)
【所獲榮譽(yù)】
國家科學(xué)技術(shù)進(jìn)步獎二等獎,《有機(jī)化無機(jī)顆粒改性聚合物復(fù)合材料制備關(guān)鍵技術(shù)》;
教育部技術(shù)發(fā)明獎二等獎,《航空XXXXXX材料(軍工)》
教育部科學(xué)技術(shù)進(jìn)步獎二等獎,《高性能纖維增強(qiáng)熱塑性復(fù)合材料制備與成型的關(guān)鍵技術(shù)》
中國標(biāo)準(zhǔn)創(chuàng)新貢獻(xiàn)獎二等獎,《ISO 19699-1:2017 吸收血液用聚丙烯酸鈉高吸收樹脂 兩項(xiàng)國際標(biāo)準(zhǔn)》
上海市科學(xué)技術(shù)進(jìn)步獎三等獎,《通用塑料低成本改性的高性能化技術(shù)》
山東省發(fā)明創(chuàng)新獎一等獎,《新型聚丙烯酸鈉高吸收樹脂性樹脂材料關(guān)鍵技術(shù)的研發(fā)及應(yīng)用》
中國石油和化學(xué)化工聯(lián)合會技術(shù)發(fā)明獎三等獎,《聚烯烴高性能化的長纖維增強(qiáng)技術(shù)》
【社會兼職】
?上海市復(fù)合材料學(xué)會樹脂基復(fù)合材料專業(yè)委員會副主任
?“工程塑料應(yīng)用” 期刊 編委
?ISO TC61 SC11 WG12專家組成員
?復(fù)合材料科學(xué)與工程 期刊 編委
?材料研究與發(fā)展 期刊 編委
?Journal of Composites and Biodegradable Polymers, 編委
?Applied Chemical Engineering, 編委
【研究方向】
?聚合物基復(fù)合材料的界面設(shè)計(jì)與控制
?纖維增強(qiáng)熱塑性復(fù)合材料的制備與成型技術(shù)
?超分子組裝及相關(guān)功能材料
?生物資源高分子材料的高性能化、實(shí)用化技術(shù)
【承擔(dān)項(xiàng)目】
?嵌段共聚物納米膠束在纖維增強(qiáng) 聚合物界面的組裝行為
?聚合物刷在碳纖維/環(huán)氧樹脂復(fù)合材料界面的組裝及增強(qiáng)、增韌界面結(jié)構(gòu)的構(gòu)筑
?航空XXXXXXXXX材料的研制
?高能激光XXXXXX材料及結(jié)構(gòu)
?連續(xù)碳纖維增強(qiáng)聚醚醚酮的高效浸漬和纏繞成型工藝
?可降解吸水材料的研發(fā)
?二型耐熱聚乙烯復(fù)合管的材料研制及成型工藝開發(fā)
【主要成果】
承擔(dān)完成國家自然科學(xué)基金、國家863計(jì)劃、國防科工委配套研制計(jì)劃、國防科技創(chuàng)新計(jì)劃、總裝備部聯(lián)合基金及與企業(yè)合作的橫向課題50余項(xiàng),多項(xiàng)成果已實(shí)現(xiàn)產(chǎn)業(yè)化,研制的材料及制件在航空、汽車、軌道交通、家電、建材及軍工領(lǐng)域獲得應(yīng)用。在國內(nèi)外學(xué)術(shù)期刊發(fā)表論文200余篇( SCI收錄的國外期刊論文100余篇),申請發(fā)明專利60余項(xiàng),已獲授權(quán)30余項(xiàng);研究成果獲國家科技進(jìn)步二等獎1項(xiàng)(第四完成人)、省部級二等獎3項(xiàng)、省部級三等獎2項(xiàng)。
【近年來發(fā)表的代表性論文】
1.Environmental protection and thermostability modified sizing agent based on fluorenyl poly(aryl ether ketone) for carbon fiber/poly(ether ether ketone) composite interfacial enhancement.,Polym Compos., 2025; 1-16
2.Ultrasonic-Assisted alkali and polyvinyl alcohol treatment for enhancing the mechanical of sisal fiber and interfacial properties with starch. ,Composite Interfaces,2025, 1–16.
3.High-yield liquid phase production of high-quality graphene via dimethylacetamide-ethanol mixed solvent system,Journal of Power Sources, 2025, 630: 236149.
4.Effect of high quality hybrid coatings and coating condition on the properties of continuous glass fiber reinforced polypropylene prepreg composites.,J. Appl. Polym. Sci., 2025, 142(5), e56431.
5.Silica nano fiber membrane with high reflectivity and low absorptivity for high-energy laser protection (29.0 kW/cm2). ,Ceramics International ,2025, 51(1), 1298-1309.
6.Effect of dialdehyde starch on cassava starch/poly(vinyl alcohol) blends fabricated by melt mixing method with glycerol plasticized,Journal of Applied Polymer Science,2024, 37(141) : e55932.
7.Efficient fabrication of high-quality graphene via alternating-current co-intercalation and microwave-assisted expansion,Ceramics International, 2024, 19(50).
8.Effects of cold plasma treatment on the surface and properties of poly(lactic acid) fibers, Express Polymer Letters, 2024, 18(11) : 1164-1175.
9. High-Energy Laser Protection Performance of Fibrous Felt-Reinforced Aerogels with Hierarchical Porous Architectures ,ACS Applied Materials & Interfaces ,2024, 16(19) : 24147-25600.
10.Enhanced interfacial properties of carbon fibers reinforced epoxy or PP composites using modified graphene oxide with two different polymer brushes,Iranian Polymer Journal,2024, 33 : 1143-1156.
11.Mechanistic Insights into Surfactant-Modulated Electrode–Electrolyte Interface for Steering H2O2 Electrosynthesis,Journal of the American Chemical Society , 2024 146 (11), 7575-7583
12. Ablation properties of SiC-reinforced PBI resin matrix composites under high-energy continuous laser ablation ,Progress in Organic Coatings, 2024, 186 : 107964.
13.Optimization of processing parameters in poly(lactic acid)-reinforced acetylated starch composite films by response surface methodology ,Iranian Polymer Journal,2023, 32(3) : 251–261.
14.Preparation of MTMS modified glass fiber reinforced Al2O3–SiO2 aerogel composite for the laser irradiation protection,Journal of the Korean Ceramic Society ,2023.
15.Constructing An All‐Natural Bulk Structural Material from Surface‐Charged Bamboo Cellulose Fibers with Enhanced Mechanical and Thermal Properties, ChemSusChem,2023, 16(10) : e202202185.
16. All-natural and high-performance structural material based on lignin-reinforced cellulose,Materials Today Communications,2023, 36 : 106559.
17.Study on the stability of high solid content polyether‐ether‐ketone aqueous suspension,Journal of Applied Polymer Science, 2023, 140(45) : e54651.
18.Optimization of Powder Impregnation Process Parameters of Carbon Fiber Reinforced Polyether-ether-ketone Prepreg Tape by Response Surface Methodology,Fibers and Polymers,2022-07-15
19.Optical and thermal insulation properties of silica aerogel under a 7 kW·cm-2 power laser irradiation,Ceramics International,2022-07-15
20.Influence of starch nanocrystals on sisal fiber/starch composites compatibilized by glutaraldehyd,Journal of Applied Polymer Science,2022-02-05
21.Optimization of processing parameters in poly(lactic acid)-reinforced acetylated starch composite films by response surface methodology,Iranian Polymer Journal,2023-01-11
22.Study on the stability of high solid content polyether-ether-ketone aqueous suspension,Journal of applied polymer science,2023-10-06
23.All-natural and high-performance structural material based on lignin-reinforced cellulose,Materials Today Communications,2023-09-10
24.Energy aggregation properties of TiO2-silica composite aerogel under ultra-high-energy (7 kW·cm-2) continuous-wave laser irradiation,Ceramics International,2023,49(13):21161-21174
25.Ablation and mechanical properties of ZrC-reinforced PBI resin matrix composites,Ceramics International,2023,49(10):15527-15535
26.Optical and thermal insulation properties of silica aerogel under a 7 kW·cm-2 power laser irradiation,Ceramics International,2022,48(12) :16584–16598