一、基本信息
安徽省高校優(yōu)青,安徽工業(yè)大學(xué)青年拔尖人才。美國(guó)德克薩斯大學(xué)達(dá)拉斯分校訪問(wèn)學(xué)者,中國(guó)腐蝕與防護(hù)學(xué)會(huì)緩蝕劑與水處理專(zhuān)委會(huì)、腐蝕電化學(xué)與測(cè)試方法專(zhuān)委會(huì)、建筑工程專(zhuān)委會(huì)委員,中國(guó)腐蝕與防護(hù)學(xué)會(huì)、國(guó)際仿生工程學(xué)會(huì)、香港機(jī)械工程師協(xié)會(huì)會(huì)員,鎮(zhèn)江市化工產(chǎn)業(yè)專(zhuān)家?guī)鞂?zhuān)家,教育部學(xué)位與研究生教育發(fā)展中心論文評(píng)審/抽檢專(zhuān)家。SCI期刊《Frontiers in Materials》專(zhuān)刊主編,《稀有金屬》、《中國(guó)腐蝕與防護(hù)學(xué)報(bào)》、《材料保護(hù)》、《安徽工業(yè)大學(xué)學(xué)報(bào)(自然科學(xué)版)》等期刊青年編委,多次參加國(guó)際國(guó)內(nèi)學(xué)術(shù)會(huì)議并做口頭報(bào)告。發(fā)表學(xué)術(shù)論文70余篇,其中高被引論文2篇,公開(kāi)發(fā)明專(zhuān)利8項(xiàng),主持國(guó)家自然科學(xué)基金、省高校優(yōu)青、省科技廳、省教育廳、省住建廳等縱向項(xiàng)目9項(xiàng),重大產(chǎn)學(xué)研項(xiàng)目1項(xiàng),參與國(guó)家重點(diǎn)研發(fā)、重大專(zhuān)項(xiàng)、國(guó)家基金重點(diǎn)項(xiàng)目、安徽省杰青等項(xiàng)目4項(xiàng),獲安徽省教學(xué)成果特等獎(jiǎng)、中國(guó)建材聯(lián)合會(huì)科技二等獎(jiǎng)各1項(xiàng)。
二、教育背景
1、博士后:安徽工業(yè)大學(xué)&中鋼天源股份有限公司
2、博士:南京航空航天大學(xué)
3、訪問(wèn)學(xué)者:美國(guó)德克薩斯大學(xué)達(dá)拉斯分校
4、碩士:南京航空航天大學(xué)
三、研究領(lǐng)域
1、仿生智能防護(hù)涂層
2、金屬腐蝕與防護(hù)
3、鋼筋混凝土腐蝕
4、綠色建筑材料的開(kāi)發(fā)與應(yīng)用
四、學(xué)術(shù)、社會(huì)兼職
1、國(guó)際仿生工程學(xué)會(huì)會(huì)員(No. PM574)
2、香港機(jī)械工程師協(xié)會(huì)會(huì)員(No. m20160628001)
3、中國(guó)腐蝕與防護(hù)學(xué)會(huì)會(huì)員(No. E340607167M)
4、鎮(zhèn)江市化工產(chǎn)業(yè)專(zhuān)家?guī)斐蓡T
5、中國(guó)腐蝕與防護(hù)學(xué)會(huì)建筑工程專(zhuān)委會(huì)委員
6、中國(guó)腐蝕與防護(hù)學(xué)會(huì)緩蝕劑與水處理專(zhuān)委會(huì)委員
7、中國(guó)腐蝕與防護(hù)學(xué)會(huì)腐蝕電化學(xué)與測(cè)試方法專(zhuān)委會(huì)委員
8、《稀有金屬》、《中國(guó)腐蝕與防護(hù)學(xué)報(bào)》、《材料保護(hù)》、《安徽工業(yè)大學(xué)學(xué)報(bào)(自然科學(xué)版)》青年編委,多個(gè)SCI期刊專(zhuān)刊主編及審稿專(zhuān)家。
五、主要科研項(xiàng)目
主持:
1、國(guó)家自然科學(xué)基金
2、安徽省高校優(yōu)青項(xiàng)目
3、安徽省自然科學(xué)基金
4、安徽省高校自然科學(xué)研究重點(diǎn)項(xiàng)目
5、企業(yè)重大產(chǎn)學(xué)研項(xiàng)目
6、企業(yè)重點(diǎn)產(chǎn)學(xué)研項(xiàng)目
7、安徽省住建廳項(xiàng)目
8、科技部國(guó)際合作基地項(xiàng)目
9、教育部重點(diǎn)實(shí)驗(yàn)室開(kāi)放基金
10、氟材料創(chuàng)新中心開(kāi)放基金
11、教育部產(chǎn)學(xué)合作項(xiàng)目
12、科研啟動(dòng)基金
參與:
1、 國(guó)家重點(diǎn)研發(fā)計(jì)劃項(xiàng)目
2、 國(guó)家重點(diǎn)研發(fā)計(jì)劃課題
3、 國(guó)家自然科學(xué)基金重點(diǎn)項(xiàng)目
4、 JKW項(xiàng)目
5、 國(guó)家自然科學(xué)基金面上項(xiàng)目
六、獲獎(jiǎng)情況
1、安徽省教學(xué)成果特等獎(jiǎng)
2、中國(guó)建材聯(lián)合會(huì)-中國(guó)硅酸鹽學(xué)會(huì)建筑材料科學(xué)技術(shù)二等獎(jiǎng)
3、《材料導(dǎo)報(bào)》優(yōu)秀審稿專(zhuān)家
4、國(guó)際表面科學(xué)技術(shù)與應(yīng)用大會(huì)最佳口頭報(bào)告
5、校青年五四獎(jiǎng)?wù)芦@得者
6、校“優(yōu)秀本科生導(dǎo)師”
7、院“優(yōu)秀共產(chǎn)黨員”
8、吉縣英才博士工作站進(jìn)站指導(dǎo)專(zhuān)家、吉縣品牌共創(chuàng)官
七、學(xué)術(shù)成果
近年來(lái)主要論文情況:
[71] G.Y. Xu*, M.H. Shan, H.J. Chen, Y.T. Cao, P. Nie, T.F. Xiang*, C.Y. Dang, M.G. Stapelberg, D.Y. Zhu*, M.F. Zhu,Recycling of chicken feathers. Carbon Neutralization, 2024.
[70] W. Tong, M.M. Han, C. Ma, Z. Wu, N. Wang, N. Du*, T.F. Xiang*, J.S. Zhu*.Empowering Photovoltaic Panel Anti-Icing: Superhydrophobic Organic Composite Coating with In Situ Photothermal and Transparency. ACS Appl. Mater. Interface. 2024, 16, 24, 31567–31575.
[69] Y.S. Li, Z.Y. Guo, H. Zhi, Y.J. Qiang*, X.Y. Liu, Y. Zhang, Y. Wan, T.F. Xiang*, X.H. Li*,Experimental and computational exploration of the biodegradable platanus acerifolia leaf extract against mild steel corrosion in hydrochloric acid. J. Mater. Res. Technol. 2024, 30, 7830-7842.
[68] Y.J. Lv, K.J. Zhang, J.F. Qu, K. Yin, C. Yang, H.B. Zheng*, T.F. Xiang*.Study on physicochemical and anti-corrosion performance of methylsiloxane-based hydrophobic powder modified mortar. Constr. Build. Mater. 2024, 425, 135999.
[67] J.W. Li, Z. Zhou, P. Wang*, C.Y. Wang, T.F. Xiang, S.X. Yao, D. Zhang.Collaborative Optimization Design of Self-Powered Sterilizer with Highly Efficient Synergistic Antibacterial Effect. ACS Appl. Mater. Interface. 2024, 16, 16232–16242.
[66] J.W. Li, Y.T. Peng, P. Wang*, C.Y. Wang, J. Zhang, T.F. Xiang, S.X. Yao, D. Zhang. Enhancing the Output Performance of Triboelectric Nanogenerator Through Regulation of its Internal Nano-Architecture. Small. 2024, 2400041.
[65] L.J. Cui, T.F. Xiang*, B.J. Hu, Y.J. Lv, H. Rong*, D.E. Liu, S.Q. Zhang, M.L. Guo, Z. Lv, D.P. Chen*.Design of monolithic superhydrophobic concrete with excellent anti-corrosion and self-cleaning properties. Colloids and Surfaces A. 2024, 685, 133345.
[64] T.F. Xiang, X.X. Chen, Z.Q. Guo, J.Q. Wang, L.J. Cui, Y.J. Qiang*, S.H Zhang*,Robust solid slippery surface for anti-corrosion: Experimental and simulation. Prog. Org. Coat. 2024, 188, 108250.
[63] W.Y. Jiang, C.J. Chen*, C.Y. Wang, J.W. Li, M.M. Zhao, T.F. Xiang, P. Wang*. Design of triboelectric nanogenerators featuring motion form conversion, motion rectification, and frequency multiplication for low-frequency ocean energy harvesting. Energ. Environ. Sci. 2023, DOI: 10.1039/d3ee02688d.
[62] J.Q. Wang, L.J. Cui, B. Chen*, X.X. Chen, Z. Lv*, D.P. Chen, Y.J. Qiang, T.F. Xiang*. Corrosion inhibition effect of sycamore leaf extract on copper in H2SO4 solution. J. Mater. Res. Technol. 2023, 26, 6689-6702.
[61] B.Y. Ran, Z.Y. Guo, Y.L. Zhang, Y.J. Qiang*, J.C. Wang, B.M. Fan*, T.F. Xiang*. The new insights towards smart pH-responsive anticorrosion coating based on HNTs carrying synergistic inhibitors: Experimental and molecular simulation. Prog. Org. Coat. 2023, 185, 107933.
[60] T.F. Xiang*, L.J. Cui, D.P. Chen. Bio-Inspired Strategy for Concrete Anti-Corrosion. 2023. ISBN13: 9781668476895|ISBN10: 1668476894|EISBN13: 9781668476901. DOI:10.4018/978-1-6684-7689-5.ch007(IGI-Global 出版社英文專(zhuān)著).
[59] Z. Lv, M.Y. Shi, J. Yuan*, D.P. Chen, M.L. Guo, T.F. Xiang, H.S. Chen. A probability characteristic of crack intersecting with embedded microcapsules in capsule-based self-healing materials. Science and Engineering of Composite Materials. 2023, 30, 20220207.
[58] 項(xiàng)騰飛, 任黃威, 周軍, 張世宏*. 磁場(chǎng)對(duì)釹鐵硼表面電沉積Ni鍍層性能的影響. 表面技術(shù). 2023. (已錄用)
[57] Q.S. He*, Q.Y. Zhong, Z. Sun, H.R. Zhang, Z.J. Zhao, Z.Y. Shi, X.F. Liu, Z.F. Zhao, J. Lu, Y.Z. Ye, Y.F. Wang, Y. Li, T.F. Xiang, J. Zhao*, Y.N. Xie*. Highly stretchable, repeatable, and easy-to-prepare ionogel based on polyvinyl chloride for wearable strain sensors. Nano Energy 2023, 113, 108535.
[56] L.J. Cui, X.X Chen, J.Q. Wang, Y.J. Qiang*, D.P. Chen, T.F. Xiang*. Facile preparation of monolithic superhydrophobic concrete with excellent anti-corrosion property. Mater. Lett. 2023, 344, 134441.
[55] W. Dong*, Q.D. Gao, S.A. Zhou, G. Tang, T.F. Xiang, T.J. Chun, K. Zhang, H.M. Long*, F.P. Qian*, G. Li. Ultra-Superhydrophobic MOFs Coated on Polydopamine-Modified Polyethylene Terephthalate for Efficient Removal of Particulate Matter. Chem. Eng. J. 2023, 466, 143083.
[54] 董偉, 周士安, 唐剛, 項(xiàng)騰飛, 龍紅明, 丁磊, 張奎, 錢(qián)付平*, 李剛. 超疏水Ti-MOF涂覆PET復(fù)合濾料用于細(xì)顆粒物高效去除. 中國(guó)環(huán)境科學(xué). 2023, 43, 2171-2181.
[53] T.F. Xiang, X.X. Chen, Z. Lv, W. Tong, J. Cao, Y.Z. Shen, B.K. Liao*, Y.N. Xie, S.H. Zhang*. Stable Photothermal Solid Slippery Surface with Enhanced Anti-icing and De-icing Properties. Appl. Sur. Sci. 2023, 624, 157178.
[52] Q.W. Liu*, X. Liu, R. Chen, Z.Y. Kong*, T.F. Xiang. Experimental Study on Anchoring Performance of Short-Lapped-Rebar Splices with Pre-Set Holes and Spiral Hoops. Metals. 2023, 13(3), 530.
[51] T.F. Xiang, Y.L. Zhang, L.J. Cui, J.Q. Wang, D.P. Chen*, S.L. Zheng*, Yujie Qiang*. Synergistic inhibition of benzotriazole and sodium D-gluconate on steel corrosion in simulated concrete pore solution. Colloids and Surfaces A. 2023, 661, 130918.
[50] 崔琳晶, 陳德鵬, 呂忠, 項(xiàng)騰飛*. 超疏水混凝土的制備及應(yīng)用于防腐防冰領(lǐng)域的研究進(jìn)展. 功能材料. 2023, 6(54): 6066-6079.
[49] 任黃威, 廖伯凱, 崔琳晶, 項(xiàng)騰飛*. 液膜厚度對(duì)固態(tài)超滑表面在薄液膜下腐蝕行為的影響. 中國(guó)腐蝕與防護(hù)學(xué)報(bào). 2023, 43(4): 862-870 (曹楚南科教基金優(yōu)秀論文專(zhuān)欄).
[48] 呂忠, 劉子言, 宋奕昊, 項(xiàng)騰飛, 郭明磊, 陳德鵬. 多孔輕骨料自修復(fù)水泥基材料研究進(jìn)展. 功能材料, 2022, 10 (53) 10062-10070.
[47] 曹俊, 呂忠, 任黃威, 項(xiàng)騰飛*. 超疏水防冰表面研究進(jìn)展. 材料研究與發(fā)展. 2022. DOI: 10.57237/j.mater.2022.01.002.
[46] J. Cao, Z. Lv*, B.K. Liao*, D.P. Chen, W. Tong, Z.F. Zong, C. Li, T.F. Xiang*. In-situ fabrication of superhydrophobic surface on copper with excellent anti-icing and anti-corrosion properties. Mater. Today Commun. 2022, 104633.
[45] 任黃威, 周軍, 宗志芳, 項(xiàng)騰飛*. 電流密度對(duì)燒結(jié)釹鐵硼電鍍鎳性能的影響. 電鍍與涂飾, 2022, 41(13) 912-916.
[44] B.K. Liao*, H.Y. Chen, T.F. Xiang, H.F. Dai, H.X. Wu, S. Wan, X.P. Guo. Functionalized Nanocomposites as Corrosion Inhibitors. ISBN13: 9780841297593. eISBN: 9780841297586. (ACS出版社英文專(zhuān)著)
[43] Y.L. Zhang, Yujie Qiang*, H.W. Ren, J. Cao, L.J. Cui, Z.F. Zong, D.P. Chen*, T.F. Xiang*. Inhibitor loaded functional HNTs modified coatings towards corrosion protection in reinforced concrete environment. Prog. Org. Coat. 2022, 170, 106971.
[42] 魏菲菲, 項(xiàng)騰飛*,劉劍, 呂忠, 周殷康, 宗志芳, 陳德鵬*. 電沉積-水熱法構(gòu)建超疏水表面及其自清潔和防結(jié)冰性能. 電鍍與涂飾. 2022,41(07),502-510.
[41] T.F. Xiang, H.W. Ren, Y.L. Zhang, Y.J. Qiang*, Y. Yang, C. Li, P. Wang*, S.H. Zhang*. Rational design of PDMS/paraffin infused surface with enhanced corrosion resistance and interface erosion mechanism. Mater. Des. 2022, 215, 110450.
[40] Y.J. Qiang, H. Zhi, L. Guo, A.Q. Fu, T.F. Xiang, Y. Jin. Experimental and molecular modeling studies of multi-active tetrazole derivative bearing sulfur linker for protecting steel from corrosion. J. Mol. Liq. 2022, 351, 118638. (高被引論文)
[39] W. Dong, S.A. Zhou, F.P. Qian, Q. Li, G. Tang, T.F. Xiang, H.M. Long, T.J. Chun, J.L. Lu, Y.L. Han. Low-temperature silane coupling agent modified biomimetic micro/nanoscale roughness hierarchical structure superhydrophobic polyethylene terephthalate filter media. Polym. Adv. Technol. 2022.
[38] T.F. Xiang*, J. Liu, Z. Lv, F.F. Wei, Q.W. Liu, Y.L. Zhang, H.W. Ren, S.C. Zhou, D.P. Chen*. The effect of silicon-based water proof agent on the wettability of superhydrophobic concrete and enhanced corrosion resistance. Constr. Build. Mater. 2021, 313, 125482.
[37] L. Song, H.Y. Fan, T. Wang, T.F. Xiang, M.D. Zhang, C.G. Hu, W. Zhou, J.P. He. Facile synthesis of Co, N enriched carbon nanotube and active site identifications for bifunctional oxygen reduction and evolution catalysis. Energy Storage Materials. 2021. DOI:10.1016/j.ensm.2021.09.009.
[36] S.L. Zheng, C. Li, Y.P. Zhang, T.F. Xiang, Y. Cao, Q.L. Li, Z. Chen. A General Strategy towards Superhydrophobic Self-Cleaning and Anti-Corrosion Metallic Surfaces: An Example with Aluminum Alloy. Coatings. 2021, 11, 788.
[35] W. Dong, F.P. Qian, Q. Li, G. Tang, T.F. Xiang, T.J. Chun, J.L. Lu, Y. L. Han, Y.J. Xia, J. Hu. Fabrication of superhydrophobic PET filter material with fluorinated SiO2 nanoparticles via simple sol–gel process. Journal of Sol-Gel Science and Technology, 2021: 1-14.
[34] 胡敏, 項(xiàng)騰飛, 陳德鵬, 高恒昌. 泡沫混凝土的抗氯離子滲透性能研究. 安徽工業(yè)大學(xué)學(xué)報(bào)(自然科學(xué)版), 2020,37(01):80-86.
[33] W.G. Dong, C.L. Liu, X.B. Bao, T.F. Xiang, D.P. Chen, Advances in the Deformation and Failure of Concrete Pavement under Coupling Action of Moisture, Temperature, and Wheel Load. Materials, 2020, 13(23): 5530.
[32] W. Dong, F.P. Qian, Q. Li, T.F. Xiang, T.J. Chun, J.L. Lu, Y. L. Han, Y.J. Xia, J. Hu. Preparation and properties of polyethylene terephthalate filter material with superhydrophobic surface. 復(fù)合材料學(xué)報(bào), 2020, 37(12): 3017-3025.
[31] T.F. Xiang*, J. Liu, Q.W. Liu, F.F. Wei, Z. Lv, Y. Yang, L.P. Shi, C. Li, D.P. Chen*, G.Y. Xu*. Self-healing solid slippery surface with porous structure and enhanced corrosio resistance. Chem. Eng. J. 2021, 417, 128083.
[30] W. Dong, L. Yang, F.P. Qian, Z. Lv, C.H. Wu, T.F. Xiang*, D.P. Chen*. Sandwiched meshes with superwettability for oil/water separation and heavy metal ion absorption. Asia-Pac J Chem Eng. 2020.
[29] D.P Chen, Q.L. Zhu, Z.F. Zong, T.F. Xiang, C.L. Liu. The Linear Hygroscopic Expansion Coefficient of Cement-Based Materials and Its Determination. Materials, 2020, 13(1): 37.
[28] D.P Chen, J.J. Zou, L. Zhao, S.D. Xu, T.F. Xiang, C.L. Liu. Degradation of Dynamic Elastic Modulus of Concrete under Periodic Temperature-Humidity Action. Materials, 2020, 13(3): 611.
[27] T.F. Xiang*, Z. Lv, F. F. Wei, J. Liu, W. Dong, C. Li, Y.X. Zhao, C. Li, D.P. Chen*. Superhydrophobic civil engineering materials: A review from recent developments. Coatings, 2019, 9(11): 753.
[26] T.F. Xiang*, D.P. Chen, Z. Lv, Z.Y. Yang, L. Yang, C. Li. Robust superhydrophobic coating with superior corrosion resistance. J. Alloys Compd., 798 (2019) 320-325.
[25] 項(xiàng)騰飛, 鄭順麗, 李澄. 仿生超疏水技術(shù)用于航空材料領(lǐng)域防腐的研究現(xiàn)狀及展望. 航空制造技術(shù),6 (2018) 16-25. 特約綜述. (http://manu37.magtech.com.cn/hkzzjs/EN/abstract/abstract3584.shtml)
[24] T.F. Xiang, S.L. Zheng, M. Zhang, H.R. Sadig, C. Li. Bio-inspired slippery zinc phosphate coating for sustainable corrosion protection. ACS Sustainable Chem. Eng., 6 (2018) 10960-10968.
[23] T.F. Xiang, M. Zhang, H.R. Sadig, Z.C. Li, M.X. Zhang, C.D. Dong, L. Yang, W.M. Chan, C. Li. Slippery liquid-infused porous surface for corrosion protection with self-healing property. Chem. Eng. J., 345 (2018) 147-155.
[22] T.F. Xiang, Y. Han, Z.Q. Guo, R. Wang, S.L. Zheng, S. Li, C. Li, X.M. Dai. Fabrication of inherent anticorrosion superhydrophobic surfaces on metals. ACS Sustainable Chem. Eng., 6 (2018) 5598-5606.
[21] T.F. Xiang, M.X. Zhang, C. Li, C.D. Dong, L. Yang, W.M. Chan. CeO2 modified SiO2 acted as additive in electrodeposition of Zn-Ni alloy coating with enhanced corrosion resistance. J. Alloys Compd., 736 (2018) 62-70.
[20] C.D. Dong, M.X. Zhang, T.F. Xiang, L. Yang, W.M. Chan, C. Li. Novel self-healing anticorrosion coating based on L-valine and MBT-loaded halloysite nanotubes. J. Mater. Sci., 53 (2018) 7793–7808.
[19] H.R. Sadig, Cheng Li, T.F. Xiang. Using sol-gel supported by novel economic and environment-friendly spraycoating in the fabrication of nanostructure tri-system metal oxide-based pH sensor applications. J. Electroanal. Chem., 827 (2018) 93-102.
[18] H.R. Sadig, Cheng Li, T.F. Xiang. Synthesis of tetra-metal oxide system based pH sensor via branched cathodic electrodeposition on different substrates. Arab. J. Chem. (2018).
[17] W. Hu, C. Li, S.L. Zheng, T.F. Xiang, P.J. Liu, S.B. Ding. Synthesis of nickel-Al2O3 nanopowders and the research of their low dielectric constant properties. Mater. Sci. Forum, 916 (2018) 101-106.
[16] 張曼昕, 項(xiàng)騰飛, 董春棟, 楊玲, 蟬文明, 趙穎軒, 李澄. 基于硅烷改性沸石咪唑酯骨架的透明超疏水涂層的制備及性能研究(英文). 電鍍與涂飾,37 (2018).
[15] 楊玲, 李澄, 張曼昕, 董春棟, 項(xiàng)騰飛, 蟬文明, 胡瑋, 梁娟. 對(duì)類(lèi)水滑石材料在近紅外和遠(yuǎn)紅外區(qū)域的偽裝隱身的研究. 紅外技術(shù), 40 (2018) 915-922.
[14] T.F. Xiang, S.B. Ding, C. Li, S.L. Zheng, W. Hu, J. Wang, P.J. Liu. Effect of current density on wettability and corrosion resistance of superhydrophobic nickel coating deposited on low carbon steel. Mater. Des., 114 (2017) 65-72.
[13] T.F. Xiang, M.X. Zhang, C. Li, S.L. Zheng, S.B. Ding, J. Wang, C.D. Dong, L. Yang. A facile method for fabrication of superhydrophobic surface with controllable water adhesion and its applications. J. Alloys Compd., 704 (2017) 170-179.
[12] T.F. Xiang, S.B. Ding, C. Li, S.L. Zheng, M.X. Zhang, W. Hu, J. Wang. Fabrication of superhydrophobic Ni-SiO2 nanocomposite coating with excellent corrosion resistance on mild steel. Key Eng. Mater., 719 (2017) 14-19.
[11] J. Wang, L. Liu, C. Li, T.F. Xiang, S.L. Zheng, S.B. Ding, P.J. Liu. The study for formation mechanism of spectral red edge of green vegetation. Spectrosc. Spect. Anal., 37 (2017) 3940-3946.
[10] S.B. Ding, T.F. Xiang, C. Li, S.L. Zheng, J. Wang, M.X. Zhang, C.D. Dong, W.M. Chan. Fabrication of self-cleaning super-hydrophobic nickel/graphene hybrid film with improved corrosion resistance on mild steel. Mater. Des., 117 (2017) 280–288.
[9] 王晶, 李澄, 劉朗, 鄭順麗, 項(xiàng)騰飛, 楊玲. 綠色植被近紅外光譜模擬材料的設(shè)計(jì)及應(yīng)用. 光學(xué)學(xué)報(bào), 37 (2017) 0230004.
[8] 鄭順麗, 李澄, 項(xiàng)騰飛, 胡瑋, 丁詩(shī)炳, 王晶, 劉盼金. 陽(yáng)極氧化法制備鋁基超疏水涂層及其穩(wěn)定性和耐蝕性的研究. 材料工程, 45 (2017) 71-78.
[7] 丁詩(shī)炳, 項(xiàng)騰飛, 李澄, 鄭順麗, 王綺 杜夢(mèng)萍. 兩步法制備超疏水耐蝕鎳鍍層. 中國(guó)腐蝕與防護(hù)學(xué)報(bào), 36 (2016) 450-456.
[6] S.L. Zheng, C. Li, Q.F. Fu, W. Hu , T.F. Xiang, Q. Wang, M.P. Du, X.C. Liu, Z. Chen. Development of stable superhydrophobic coatings on aluminum surface for corrosion-resistant, self-cleaning, and anti-icing applications. Mater. Des., 93 (2016) 261–270. (高被引論文)
[5] S.L. Zheng, C. Li, Q.T. Fu, T.F. Xiang, W. Hu, J. Wang, S.B. Ding, P.J. Liu, Z. Chen. Fabrication of a micro-nanostructured superhydrophobic aluminum surface with excellent corrosion resistance and anti-icing performance. RSC Adv., 6 (2016) 79389-79400.
[4] 焦亞萍, 項(xiàng)騰飛, 梅天慶, 任春春. 除油和蝕刻對(duì)ITO導(dǎo)電玻璃化學(xué)鍍鎳的影響. 電鍍與精飾, 37 (2015) 35-39.
[3] 杜夢(mèng)萍, 李澄, 鄭順麗, 項(xiàng)騰飛, 丁詩(shī)炳, 王綺. 有機(jī)緩蝕劑對(duì)陽(yáng)極箔直流擴(kuò)面增容的影響. 南京航空航天大學(xué)學(xué)報(bào), 47 (2015) 725-729.
[2] 項(xiàng)騰飛, 焦亞萍, 梅天慶, 李桂麟. 納米SiO2對(duì)鋅-鎳合金鍍層耐蝕性的影響. 電鍍與精飾, 37 (2015) 28-32.
[1] 項(xiàng)騰飛, 任春春, 梅天慶, 焦亞萍, 王祥寧. 不溶性陽(yáng)極用于堿性鍍錫的研究. 電鍍與精飾, 36 (2014) 14-17.
近3年授權(quán)專(zhuān)利情況:
[1] METHOD OF CONSTRUCTING SOLID SLIPPERY SURFACE,美國(guó)專(zhuān)利, US011952507B2.
[2] 一種固態(tài)超滑表面的構(gòu)建方法 中國(guó)專(zhuān)利ZL 2022 1 1023236.8.
[3] 一種金屬表面防結(jié)冰的超疏水涂層及其制備方法 中國(guó)專(zhuān)利 ZL 2021 1 0728231.4.
[4] 一種金屬銅表面原位構(gòu)建的防結(jié)冰超疏水涂層、制備方法及其應(yīng)用 中國(guó)專(zhuān)利ZL 2022 1 0021714.5.
八、其他
聯(lián)系方式:xiangtf@ahut.edu.cn、18955504625(同微信)
