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郭思瑶

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发布人:王俊富     时间:2021-09-17
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Curriculum Vitae

Prof.GUO Si-Yao

Qingdao University of Technology

School of Civil Engineering

Email: siyaoguo@126.com

Telephone:18562550556

RESEARCH AREA AND TEAM

Guo Si-Yao, who is professor, doctoral advisor, Xiangjiang scholar, Taishan scholar, Shandong "excellent youth" and head of youth innovation team of Shandong Province. In 2015, she was selected into the "Xiangjiang scholar program" and won the honorary title of "Xiangjiang scholar", becoming one of only 55 winners in China, and the only winner in the field of civil engineering. In March 2018, she won the "Huo Yingdong young teacher award", as the one of only 100 winners nationwide. In 2018, she was selected into the "Taishan scholar" youth program. More than 50 high-level SCI papers have been published, and won the scientific and technological award of Shandong Province, Qingdao Natural Science Award, etc.

Her group research interests mainly include nano functional materials, super dispersed graphene, novel green civil functional materials, intelligent concrete material, concrete durability, cement-based environmentally friendly materials and other interdisciplinary fields.

EMPLOYMENT HISTORY

11/2020–Present

Professor | Qingdao University of Technology, Qingdao, China

11/2015–11/2020

Associate Professor | Qingdao University of Technology, Qingdao, China

EDUCATION

Prof. Guo obtained her doctorate from Huazhong University of science and technology. As a Xiangjiang scholar, she worked as a postdoctoral in the Hong Kong Polytechnic University for three years.

CURRENT RESEARCH PROJECTS

She has successively presided over national, provincial and ministerial projects, such as NSFC youth fund, general projects of NSFC, Taishan scholar youth program, Xiangjiang scholar program, Shandong Collaborative Innovation Center, etc.

PUBLICATIONS

[1] Li Y, Luo H , Bao Y, et al. Construction of Hierarchical BiOI/MoS2/CdS Heterostructured Microspheres for Boosting Photocatalytic CO2 Reduction under Visible Light[J]. Solar RRL, 2021.

[2] Xu Z A, Jie R, et al. Preparation of TiO2/epoxy resin composite and its effect on mechanical and bonding properties of OPC mortars[J]. Construction and Building Materials, 272.

[3] Qi X, Zhang S, Wang T, et al. Effect of High-Dispersible Graphene on the Strength and Durability of Cement Mortars[J]. Materials, 2021, 14(4):915.

[4] Guo S Y, Luo H H, Tan Z, et al. Impermeability and interfacial bonding strength of TiO2 -graphene modified epoxy resin coated OPC concrete[J]. Progress in Organic Coatings, 2020, 151:106029.

[5] Ying L A, et al. Structure-controlled three-dimensional BiOI/MoS2 microspheres for boosting visible-light photocatalytic degradation of tetracycline[J]. Journal of Alloys and Compounds, 2020, 852.

[6] Guo S Y, Zhang X, Chen J Z, et al. Mechanical and interface bonding properties of epoxy resin reinforced Portland cement repairing mortar[J]. Construction and Building Materials, 2020, 264.

[7] Guo S, Qiao X, Zhao T, et al. Preparation of Highly Dispersed Graphene and Its Effect on the Mechanical Properties and Microstructures of Geopolymer[J]. Journal of Materials in Civil Engineering, 2020, 32(11):04020327.

[8] Ying G G, Guo S Y, Chen L P, et al. A novel alveolate-structured organic-inorganic hybrid with high activity for photocatalytic hydrogen evolution[J]. International Journal of Hydrogen Energy, 2020, 45(24).

[9] Ren J. Constructing a novel nano-TiO2/Epoxy resin composite and its application in alkali-activated slag/fly ash pastes[J]. Construction and Building Materials, 2020, 232:117218.

[10] Guo S, Lu Y, Wan X, et al. Preparation, characterization of highly dispersed reduced graphene oxide/epoxy resin and its application in alkali-activated slag composites[J]. Cement and Concrete Composites, 2020, 105: 103424.

[11] Ren J, Guo S Y, Su J, et al. A novel TiO2/Epoxy resin composited geopolymer with great durability in wetting-drying and phosphoric acid solution[J]. Journal of Cleaner Production, 2019, 227: 849-860.

[12] Shang J, Dai J G, Zhao T J, et al. Alternation of traditional cement mortars using fly ash-based geopolymer mortars modified by slag[J]. Journal of cleaner production, 2018, 203: 746-756.

[13] Liu, LN, Dai, et al. A novel Zn(II) dithiocarbamate/ZnS nanocomposite for highly efficient Cr6+ removal from aqueous solutions[J]. RSC ADV, 2017, 2017,7(56)(-):35075-35085.

[14] Guo S Y, Dai J G, Zhao T J, et al. A novel microporous amorphous-ZnO@ TiO 2/graphene ternary nanocomposite with enhanced photocatalytic activity[J]. RSC advances, 2017, 7(58): 36787-36792.

[15] Guo S, Zhao T, Jin Z, et al. Self-assembly synthesis of precious-metal-free 3D ZnO nano/micro spheres with excellent photocatalytic hydrogen production from solar water splitting[J]. Journal of Power Sources, 2015, 293: 17-22.

[16] Guo S, Han S. Constructing a novel hierarchical 3D flower-like nano/micro titanium phosphate with efficient hydrogen evolution from water splitting[J]. Journal of Power Sources, 2014, 267: 9-13.

[17] Guo S Y, Han S, Chi B, et al. A Facile Low-Temperature Approach to Designing Controlled Amorphous-Based Titania Composite Photocatalysts with Excellent Noble-Metal-Free Photocatalytic Hydrogen Production[J]. Acs Applied Materials & Interfaces, 2014, 6(7):4743.

[18] Guo S Y, Song H, Bo C, et al. Synthesis of shape-controlled mesoporous titanium phosphate nanocrystals: The hexagonal titanium phosphate with enhanced hydrogen generation from water splitting[J]. International Journal of Hydrogen Energy, 2014, 39(6):24462453.

[19] Guo S, Song H, Mao H, et al. Structurally controlled ZnO/TiO2 heterostructures as efficient photocatalysts for hydrogen generation from water without noble metals: The role of microporous amorphous/crystalline composite structure[J]. Journal of Power Sources, 2014, 245(jan.1):979-985.

[20] Guo S, Song H, Mao H, et al. Synthesis of phosphorus-doped titania with mesoporous structure and excellent photocatalytic activity[J]. Materials Research Bulletin, 2013, 48(9):3032-3036.

最后更新时间:2021-09-17
 
 

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