杨政险，1976年3月生，安徽淮南人，教授，博士生导师，第一批福建省科技创新领军人才，福建省“闽江学者”特聘教授。博士毕业于荷兰代尔夫特理工大学土木工程与地质科学学院（代尔夫特理工大学是世界顶级理工大学之一，QS2024世界大学最新综合排名全球50，土木与结构工程学科排名全球第3），师从混凝土耐久性及腐蚀防护领域国际知名学者R.B. Polder，J.M.C Mol（Corrosion Science 期刊主编）和C. Andrade教授（RILEM前主席），在荷兰攻读博士期间获中国国家海外优秀留学生奖，是2011年“中欧青年交流年”中国驻荷兰使馆受邀中方代表。2007年起先后工作学习于美国、荷兰及西班牙等欧美知名高校和国家研究院。2018年以“建筑材料学科带头人” 引进至福州大学工作，目前担任磷矿及其共伴生资源绿色高效开发利用全国重点实验室学术成员、土木工程学院学术委员会和土木水利专业工程博士指导委员会委员、先进土木工程材料福建省高校工程研究中心主任、福州大学滨海与海洋基础设施及材料劣化和控制国际联合实验室主任；中国建筑学会工程诊治与运维分会委员，国家建筑工程技术研究中心建筑工程与材料测试技术论坛专委会委员，福建省力学学会常务理事；国内建材学科EI核心期刊《建筑材料学报》编委，瑞士学术期刊《Catalysts》专刊主编；土木工程材料领域多个国际著名SCI期刊和国际学术会议审稿人以及美国交通部、加拿大和国内多个自然科学基金项目、重大专项以及各类科技奖项的评审专家。

主持和参与包括美国和中国国家自然科学基金在内的各类科研项目40余项，获批总经费达400多万美元。已在Advanced Materials、Cement and Concrete Research、Cement and Concrete Composites等国际知名学术期刊发表第一或通讯作者SCI论文110余篇（多为中科院1区/2区），已授权专利43项（发明24项，实用新型 19项，国际发明4项），参编3本书籍章节和3项行业和地方标准；多次参加国际大会并作报告，第一和通讯作者国际会议论文20多篇。谷歌学术统计近5年发表论文总被引用4300余次，单篇最高被引460余次，h因子39。入选斯坦福大学 “全球前2%顶尖科学家”榜单。

杨政险博士的主要研究领域为滨海长寿命多功能结构工程材料、海洋工程材料劣化控制与腐蚀防护，AI驱动的低碳智能工程材料的设计以及多源固体废弃物在环保节能建材领域的资源化综合利用。自主设计开发了“钢筋混凝土腐蚀三联检测法及实时软件监测系统”；该新型测试法被荷兰皇家应用科学组织(TNO)资深科学家、荷兰代尔夫特理工大学教授R.B. Polder评价为 “杨/Delft法”。该法同时得到国际混凝土耐久性研究领域权威专家，国际腐蚀工程师协会（NACE）Willis Rodney Whitney 奖获得者、RILEM前主席，西班牙建筑科学院前院长 C. Andrade 教授的高度评价，并受邀赴西班牙访问合作。研发的“海砂高效深度净化关键技术及装备”在近30 家企业转化应用，合作企业四年新增产值2.26 亿元，有效缓解河砂资源短缺，保障海洋、水利及交通等重点工程建设；“海洋环保光催化混凝土”技术在多家企业应用，年消纳固废40 万吨，福建省内合作企业两年新增产值4600 万元；相关成果获福建水利科学技术二等奖、福建建设科学技术一等奖。

1. 海洋工程材料的腐蚀和生物污损控制，包括：新型低碳长寿命海洋工程材料的设计与高性能防腐抗污涂层产品研发；滨海基础设施耐久性及服役寿命预测及评估；钢筋的腐蚀机理及海工混凝土的劣化和生物污损控制。

2. 土木工程新材料、新技术以及AI驱动的材料智能设计，包括：有机/无机杂化材料分子AI功能化设计、自修复混凝土、光催化及纳米科技在建筑材料和环保领域的应用；水泥水化动力学、混凝土微观结构及界面多尺度性能表征。

3. 固体废弃物资源化综合利用及关键设备研发，包括：冶金废渣，淤泥、建筑渣土等大宗工业固废及废弃植物纤维等多种农业废弃物、生物质在水泥混凝土工业中的应用研究；海砂高效深度净化及固废渣超细磨粉关键设备。

4. 绿色低碳3D打印智能建造，包括：新型环保低碳水泥基材料3D打印快速成型机理与关键技术；绿色3D打印材料与结构的性能测试与评价。

1. 招收结构工程，高性能建筑材料方向学术博士以及土木水利和电子信息专业工程博士。

2. 招收结构工程、土木工程、道路交通工程与灾害防治、建筑材料与结构工程等方向学术和专业硕士。

3. 常年招收土木工程方向博士后及研究助理。

4. 与欧洲及美国多个知名高校有多年的科研合作和联合培养及研究生交换计划。支持学生在硕士或者博士期间以申请国家留学基金委或者福建省研究生留学计划以及课题组项目资金配套支持的方式赴国外交流学习1-2年。

5. 现指导博士及硕士研究生30余名, 博士后4名 （其中2名完成出站）；多名学生获得研究生国家奖学金和综合学业奖学金，多人次获省级和校级优秀毕业论文以及优秀毕业生称号。

GoogleScholar: https://scholar.google.com/citations?hl=en&user=RbFdzwQAAAAJ&view_op=list_works

ResearchGate: https://www.researchgate.net/profile/Zhengxian_Yang/contributions

2026年

1. Xu J., Yang Z.*, Zhang Y., Zheng Z., Briseghella B. Mitigating secondary pollution of NOx degradation through in-situ nitrate capture using a photocatalytic coating on cementitious substrate: mechanism and kinetic simulation. Chemical Engineering Journal, 2026, 530: 173754（影响因子：15.1，中科院 1 区）

2. Xu J., Yang Z.*, Zheng Z., Nicolaides D., Marano G.C., Briseghella B. Influence of core-shell nanospheres on the carbonation development of cement mortars and its mechanism: synergistic effect of hydration and early CO2 uptake，Cement and Concrete Composites, 2026, 165:106310（影响因子：13.1，中科院1区）

3. Xu J., Yang Z.*, Chen J., Briseghella B. Dual‑functional cementitious composites for photocatalytic NOx abatement and steel corrosion inhibition through TiO₂/g‑C₃N₄/MgAl‑CLDH integration. Construction and Building Materials, 2026, 531: 146680 (影响因子：8.0，中科院1区）

4. Lin Y., Yang Z.*, Xu J. Cation interaction and pH gradient effects on the passivation of reinforcing steel in ultra-fine steel slag and cement extract solutions: Experimental and DFT investigations, Applied Surface Science, 2026,720(Part C): 165347（影响因子：6.9，中科院2区）

5. Lin Y., Sun F., Ndžila J. S., Zhou F., Pan B., Yang Z.*, Zhang Y. Mechanistic enhancement of chloride-resistant passive films in alkali-activated slag through ultrafine steel slag incorporation. Construction and Building Materials, 2026, 514: 145536.影响因子：8.0，中科院1区）

6. Lin Y., Wu Z., Yang Z.*, Jin H. Synergistic ultrafine steel slag and fly ash for steel passivation in sustainable ternary cements: Temperature-dependent stability and composition regulation, RSC Advances, 2026, 16, 14361-14377. （影响因子：4.6，中科院3区）

7. Ndzila JS, Yang Z.*, Xu J. Exploring early carbonation properties of Sr4Al6O12SO4 compound for a sustainable alternative to cement clinker, ASCE Journal of Materials in Civil Engineering, 2026, 38(1): 04025524. （影响因子：3.1，中科院3区）

8. Ndzila JS, Yang Z.*,Extended Carbonation curing of C3S2 binder: Properties and Thermodynamics,  Journal of Building Engineering, 2026, 118: 114942（影响因子：7.4，中科院2区）

9. Wang W., Huang Y., Cheng L., Yang Z.*, Jiang Y., Zhang Q.*, Chen Y., Sun W*. Boosting photocathodic protection via synergistic (001) facets and Schottky junction engineering in TiO2@Ti3C2 heterostructure films, Ceramics International, 2026, DOI: 10.1016/j.ceramint.2026.04.207  (影响因子：5.6，中科院1区）

2025年

1. Yang Z.*, Xiong X., Li K., Briseghella B., Marano G.C., Chen S. Long-term volume stability of ECC containing high-volume steel slag, Cement and Concrete Composites, 2024, 145: 105352. （影响因子：13.1，中科院1区）

2. Lin Y., Sun F., Yang Z.* Effect of ultrafine steel slag on passive film stability of reinforcing steel in alkali-activated slag systems. Construction and Building Materials, 2025, 499: 144073.（影响因子：8.0，中科院1区）

3. Ndzila JS, Yang Z.* Enhancing steel slag performance in concrete via CCUS technique: Mechanisms, applications, and challenges. Journal of Environmental Chemical Engineering, 2025, 13(6): 119628（影响因子：7.2，中科院2区）

4. Li K, Yang Z.*, Lu L, Li Y, Wang W, Duan J, Marano G. The antibacterial and engineering properties of steel slag based pervious concrete incorporated with Cu-ZnO/g-C3N4 hybrid hetero-microspheres，Construction and Building Materials, 2025, 460: 139859.（影响因子：8.0，中科院1区）

5. Yang Z., Zheng Z., Xu P*., Ning P., Hu J., Petrou M F, Briseghella B. Effect of synthetic fibers on early and long-term performance of UHPC: A review，Journal of Building Engineering, 2025, 101: 111850. （影响因子：7.4，中科院2区）

6. Li K，Yang Z.*, Dong S，Ning P，Ye D，Zhang Y. Hydration heat and kinetics of ternary blended cement containing ultrafine steel slag and blast-furnace slag at elevated temperatures, Construction and Building Materials, 2025, 471：140712. （影响因子：8.0，中科院1区）

7. Wang W, Yu H, Yang Z.*, Wang W, Zhang Q, Jiang Y, Wang P, Marano G. Photocathodic protection performance of CuInSe2/TiO2 n-n heterojunction films for HRB400 steel rebar under visible light, Colloids and Surfaces A: Physicochemical and Engineering Aspects, 2025,715：136638. （影响因子：4.9，中科院2区）

8. Lu J, Zhang X, Yang Z.*, Xu S. Flocculation treatment for mitigating clogging of dredge slurry under vacuum preloading with particle image velocimetry analysis, Applied Science, 2025, 15(6):3097.

9. Ndzila JS, Yang Z.* Carbonation properties of ion-doped non-hydraulic calcium silicates binders: A review Journal of Building Engineering, 2025, 105: 112427. （影响因子：7.4，中科院2区）

10. Xue J, Mao S, Xu Wei, Aloisio A, Yang Z., Contento A, Briseghella B. Experimental characterization of prefabricated link slabs with randomly oriented and oriented-fibres UHPC under multiple geometric configurations, Engineering Structures, 2025, 323: 119253.（影响因子：5.6，中科院1区）

2024年

1. Yang Z., Li K., Yan X., Wu W.*, Briseghella B., Marano G.C. Characterization and value-added applications of natural cellulose fibers derived from cow dung in cementitious composites. Cellulose, 2024，31: 5575（影响因子：5.7，中科院1区）

2. Lu L, Yang Z.*, Ning P, Marano G, Zhang Y. Synergistic enhancement of g-C3N4/CoAl-LDH nanoflower and mineral admixtures on the properties of nano-engineered cementitious composites. Construction and Building Materials, 2024, 450: 138611.（影响因子：8.0，中科院1区）

3. Yang Z., Zheng M., Xiong X., Zhang Y.*, Briseghella B., Marano G.C. Passivation behavior of reinforcement in simulated pore solutions of composite cement incorporating ultrafine steel slag and blast furnace slag. Journal of Building Engineering, 2024, 97: 111002. （影响因子：7.4，中科院2区）

4. Sun J, Duan J*, Liu C, Liu X, Zhu Y, Zhai X, Zhang Y, Wang W, Yang Z, Hou B. Transparent and mechanically durable silicone/ZrO2 sol hybrid coating with enhanced antifouling properties. Chemical Engineering Journal, 2024, 490: 151567. （影响因子：15.1，中科院1区）

5. Lu L, Yang Z.*, Ye D, Luo S, Marano G. Photocatalytic NOx degradation and NO-3 adsorption by mortar modified with S-g-C3N4/MgAl-CLDH: Influence factors and stability. Journal of Environmental Chemical Engineering, 2024, 12(6): 114248（影响因子：7.7，中科院2区）

6. Xue J, Mao S, Cacciola P, Contento A, Lampropoulos A, Nicolaides D, Petrou M F, Yang Z., Briseghella B. Experimental evaluation of the effectiveness of fiber orientation methods on the mechanical performance of UHPFRC. Construction and Building Materials, 2024, 448: 138184. （影响因子：8.0，中科院1区）

7. Xu J., Yang Z.*, Lu L., Wang W., Briseghella B., Marano G.C. New S-g-C3N4 based photocatalytic mortar with long-term photocatalytic performance by constructing three-dimensional structure Mg-Al layered double hydroxides. Construction and Building Materials, 2024, 438: 137199. （影响因子：8.0，中科院1区）

8. Xue J, Aloisio A, Contento A, Yang Z., Hu N, Briseghella B. A piece-wise linear model for modelling the tension-stiffening effect in steel-reinforced UHPC composites. Composite Structures, 2024, 345: 118373. （影响因子：6.24，中科院1区）

9. Shi P, Falliano D, Yang Z., Marano G.C., Bruno B. Investigation on the anti-carbonation properties of alkali-activated slag concrete: Effect of activator types and dosages. Journal of Building Engineering, 2024, 91: 109552. （影响因子：7.4，中科院2区）

10. Li K., Yang Z., Nicolaides D., Liang M., Briseghella B., Marano G.C. Zhang Y*. Autogenous shrinkage and sustainability assessment of alkali-activated slag incorporating steel slag. Construction and Building Materials, 2024, 438: 137219. （影响因子：8.0，中科院1区）

11. Lu L., Yang Z.*, Hong R., Briseghella B., Marano G.C. Effect of dry-wet cycling on NOx degradation and sterilization properties of cement mortar with g-C3N4/CoAl-LDH. Journal of Environmental Chemical Engineering, 2024, 12(3): 113049. （影响因子：7.7，中科院2区）

12. Chen S., Xiong X., Yang Z.*, Lin J., Zhang J., Briseghella B., Marano G.C. The microstructure and NOx degradation ability of alkali-activated steel slag-based pervious concrete doped with g-C3N4/CoAl-LDH. Construction and Building Materials, 2024, 419: 135506. （影响因子：8.0，中科院1区）

13. Yang Z., Dong S., Zhang Y*. Particle packing optimization and pore structure assessment of ternary cementitious system based on X-ray computed tomography and mercury intrusion porosimetry. Construction and Building Materials, 2024, 413: 134913. （影响因子：8.0，中科院1区）

14. Xiong X., Xu J., Yang Z.*, Chen W., Zhang J., Marano, G.C. NOx degradation by cement mortar containing B-TiO2/MgAl-CLDH under visible light: Experimental and modeling. Journal of Environmental Chemical Engineering, 2024, 12: 112548. （影响因子：7.7，中科院2区）

15. Zhang Y, Xu X, Wang Z, Yang Z.*, Qian R, Marano G.C. Nanoscale chloride diffusion in alkali-activated steel slag and ultrafine blast furnace slag considering the electrical double layer effect. Journal of Building Engineering, 2024, 88: 109234. （影响因子：7.4，中科院2区）

16. Wen J., Li H*., Yang Z., Yang Z., Dong H. Damage evaluation of ballastless track concrete under high frequency flexural fatigue loading based on surface resistivity. Construction and Building Materials, 2024, 411: 134363. （影响因子：8.0，中科院1区）

17. 林元明, 林佳福, 熊晓立, 杨政险*. TiO2改性钢渣基透水混凝土的力学和NOx降解性能研究. 硅酸盐通报, 2024, 43 (01): 191-199.

18. Li H., Dong H., Wen J., Yang Z., Yang Z., Huang F. Fracture behavior investigation of ballastless track of high-speed railway based on DIC technique. Engineering Failure Analysis, 2024, 158: 107992.（影响因子：4.000，中科院2区）

19. Wang D., Gong Q., Luo S., Yang Z*. Effects of desalinated sea sand on the alkali–silica reaction of seawater and sea sand concrete. Magazine of Concrete Research, 2024, 76 (7): 366-374.（影响因子：2.700，中科院4区）

2023年

1. Yang Z.*, Xu J., Wang W., Zhang Y., Yang L. Surface properties and de-polluting performance of a photocatalytic coating incorporating novel core@ shell nanospheres for cementitious substrate. Cement and Concrete Composites, 2023, 139: 105036. （影响因子：13.1，中科院1区）

2. Zhang Y., Fang Y., Shen Y., Yang Z.*, Wu K. Chloride penetration and binding behavior in unsaturated alkali-activated slag mortars. Cement and Concrete Composites, 2023, 140: 105098. （影响因子：13.1，中科院1区）

3. Yan X, Wang F, Luo Y, Liu X, Yang Z, Mao H. Mechanical performance study of basalt-polyethylene fiber reinforced concrete under dynamic compressive loading. Construction and Building Materials, 2023, 409: 133935. （影响因子：8.0，中科院1区）

4. Xiong X., Yang Z.*, Yan X., Zhang Y., Dong S., Li K., Marano G.C. Mechanical properties and microstructure of engineered cementitious composites with high volume steel slag and GGBFS. Construction and Building Materials, 2023, 398: 132512. （影响因子：8.0，中科院1区）

5. Lu L., Yang Z.*, Li K., Zhang K., Yan X., Briseghella B., Marano G.C. Synergy of inert granite powder and active mineral admixture in manufactured sand mortar: The effect on mechanical properties, chloride permeability and water absorption properties. Construction and Building Materials, 2023, 408: 133660. （影响因子：8.0，中科院1区）

6. Lu L., Yang Z.*, Lin Y., Dong S. Partial replacement of manufactured sand with homologous granite powder in mortar: The effect on porosity and capillary water absorption. Construction and Building Materials, 2023, 376: 131031. （影响因子：8.0，中科院1区）

7. Lu L., Yang Z.*, Huang M., Xu J., Zhou J., Briseghella B., Marano G. C. Microstructural and mechanical properties of photocatalytic cement mortar with g-C3N4/CoAl-LDH nanoflowers. Journal of Building Engineering, 2023, 74: 106900. （影响因子：7.4，中科院2区）

8. Liu X., Yang Z.*, Li K., Briseghella B., Marano G.C., Xu, J. Visible light antibacterial potential of cement mortar incorporating Cu-ZnO/gC3N4 nanocomposites. RSC Advances, 2023, 13 (14): 9448-9456. （影响因子：4.036，中科院3区）

9. Li K., Yang Z.*, Yan X., Xu L., Briseghella B., Marano G. C. Effect of Modified cow dung fibers on strength and autogenous shrinkage of alkali-activated slag mortar. Materials, 2023, 16 (20): 6808. （影响因子：3.748，中科院3区）

10. Wang W., Xia B., Zhang Y., Wang N., Yang Z.*, Zhai X., Ju P. Oxygen vacancy-induced efficient photocatalytic antifouling activities of Bi5O7I microspheres on marine concrete. Journal of Physics and Chemistry of Solids, 2023, 181: 111539. （影响因子：4.383，中科院3区）

11. Lin J., Zhang Y., Yang Z*. A review of recent advances in alkali-activated materials from silica-rich wastes derived sodium silicate activators. Journal of Advanced Concrete Technology, 2023, 21 (3): 189-203. （影响因子：2.459，中科院4区）

12. Wei Z., Chen B.*, Gu K., Yang Z. Study of untreated phosphogypsum as a fine aggregate for magnesium oxysulfate cement. Construction and Building Materials, 2023, 365: 130040. （影响因子：8.0，中科院1区）

13. Yang Z., Xiong X., Chen S., Briseghella B., Marano G. C., Zhang Y*. Effect of fineness on the hydration and microstructure of cementitious materials with high-volume steel slag and blast furnace slag. Journal of Building Engineering, 2023, 72: 106682. （影响因子：7.4，中科院2区）

14. Niu D., Zhang Z., Gao Y*., Li Y., Yang Z., Niu Y. Effect of pretreated cow dung fiber on rheological and fatigue properties of asphalt binder. Cellulose, 2023, 30 (6): 3773-3791. （影响因子：6.123，中科院1区）

15. Wang W., Ye Y., Li G., Yang Z.*, Duan J., Sun J., Yan Y. High-efficiency photocathodic protection performance of novel MnIn2S4/TiO2 n-n heterojunction films for Q235 carbon steel in chloride containing simulated concrete pore solution. Journal of Alloys and Compounds, 2023, 941: 168957. （影响因子：6.371，中科院2区）

16. Cao W., Wang W.*, Yang Z., Wang W., Chen W., Wu K. Enhancing photocathodic protection performance by controlled synthesis of Bi/BiOBr/TiO2 NTAs Z-scheme heterojunction films. Journal of Alloys and Compounds, 2023, 960: 170675. （影响因子：6.371，中科院2区）

17. Yang Z., Xiong X., Yan X., Luo S., Zhang Y.*, Briseghella B., Marano G. C. NOx degradation ability of S-g-C3N4/MgAl-CLDH nanocomposite and its potential application in cement-based materials. RSC Advances, 2023, 13 (31): 21510-21520. （影响因子：4.036，中科院3区）

18. Niu D., Zhang Z., Meng J., Yang Z.*, Jing R. Surface modification of steel slag aggregate for engineering application in asphalt mixture. Buildings, 2023, 13 (1), 16. （影响因子：3.800，中科院3区）

19. 卢林, 杨政险*,陈兵, 张坤朝, 张勇. 花岗岩石粉对机制砂砂浆性能的影响. 混凝土, 2023, (11): 185-189.

20. 熊晓立, 杨政险*, 罗盛洋, 林佳福, 董世林. ECC路面面层的生命周期评价和成本分析. 硅酸盐通报,2023, 42 (11): 3927-3936.

21. 陈尚鸿, 林佳福, 杨政险*, 张勇, 熊晓立. 钢渣-矿渣透水混凝土力学性能的试验研究. 硅酸盐通报,2023, 42 (05): 1767-1777.

22. 张勇, 方宇迟, 徐轶扬, 夏雨, 杨政险*. 双电层对碱矿渣胶凝材料氯离子传输的影响.建筑材料学报, 2023, 26 (09): 949-954.

2022年及其他

1. Zhang Y, Wu K, Yang Z.*, Ye G*. A reappraisal of the ink-bottle effect and pore structure of cementitious materials using intrusion-extrusion cyclic mercury porosimetry. Cement and Concrete Research, 2022, 161: 106942. （影响因子：13.1，中科院1区）

2. Zhang Y., Yang Z.*, Ye G*. Dependence of unsaturated chloride diffusion on the pore structure in cementitious materials. Cement and Concrete Research, 2020, 127: 105919. （影响因子：13.1，中科院1区）

3. Yang Z.*, Polder R., Mol J.M.C., Andrade, C. The effect of two types of modified mg-al hydrotalcites on reinforcement corrosion in cement mortar. Cement and Concrete Research, 2017, 100: 196-202. （影响因子：13.1，中科院1区）

4. Li W., Dong B., Yang Z., Xu J., Chen Q., Li H., Xing F., Jiang Z*.  Recent advances in intrinsic self-healing cementitious materials. Advanced Materials, 2018, 30 (17): e1705679. （影响因子：32.086，中科院1区）

5. Yang Z.*, Fischer H., Polder R. Laboratory investigation of the influence of two types of modified hydrotalcites on chloride ingress into cement mortar. Cement and Concrete Composites, 2015, 58: 105-113. （影响因子：13.1，中科院1区）

6. Yang Z.*, Fischer H., Polder R. Synthesis and characterisation of modified hydrotalcites and their ion exchange characteristics in chloride-rich simulated concrete pore solution. Cement and Concrete Composites, 2014, 47 (3): 87-93. （影响因子：13.1，中科院1区）

7. Yang Z.*, Hollar J., He X., Shi X. A self-healing cementitious composite using oil core/silica gel shell microcapsules. Cement and Concrete Composites, 2011, 33 (4): 506-512. （影响因子：13.1，中科院1区）

8. Niu D., Xie X. Zhang Z., Niu Y., Yang Z.*. Influence of binary waste mixtures on road performance of asphalt and asphalt mixture. Journal of Cleaner Production, 2021, 298: 126842. （影响因子：11.072，中科院1区）

9. Li H., Wang Z., Sun R., Huang F., Yi Z., Yuan Z., Wen J., Lu L., Yang Z.*. Effect of different lithological stone powders on properties of cementitious materials. Journal of Cleaner Production, 2021, 289: 125820. （影响因子：11.072，中科院1区）

10. Li K., Zhang Y. Lu L., Li Y., Yang Z.*, Niu Y.* Effect of pretreated cow dung fiber on mechanical and shrinkage properties of cementitious composites. Journal of Cleaner Production, 2022, 375: 131374. （影响因子：11.072，中科院1区）

11. Yang Z., Shi P., Zhang Y., Li Z*. Effect of superabsorbent polymer introduction on properties of alkali-activated slag mortar. Construction and Building Materials, 2022, 340: 127541. （影响因子：8.0，中科院1区）

12. Fang L., Zhou J., Yang Z.*, Yuan Q., Que Y. Interaction between cement and asphalt emulsion and its influences on asphalt emulsion demulsification, cement hydration and rheology. Construction and Building Materials, 2022,329: 127220. （影响因子：8.0，中科院1区）

13. Xu J., Yang H. Yang Z.*, Huang M., Zhang Y., Yang C. The effect of TiO2@CoAl-LDH nanosphere on early hydration of cement and its photocatalytic depollution performance under UV-visible light. Construction and Building Materials, 2022, 319: 126277. （影响因子：8.0，中科院1区）

14. Yang Z., Shi P. Zhang Y., Li Z*. Influence of liquid-binder ratio on the performance of alkali-activated slag mortar with superabsorbent polymer. Journal of Building Engineering, 2022, 48: 103934. （影响因子：7.4，中科院2区）

15. 杨政险, 李慷, 张勇, 王艳, 牛荻涛. 天然植物纤维预处理方法对水泥基复合材料性能的影响研究进展. 硅酸盐学报, 2022, 50 (02): 522-532.

16. 张勇,方宇迟,沈颖, 杨政险*. 非饱和碱矿渣砂浆的氯离子传输试验研究. 建筑材料学报, 2022, 25 (12): 1219-1224.

17. Wang W., Yang Z.*, Li G., Zhang Y., Cao W., Xu J., Zheng R. Drastic promotion of the photocathodic protection property of TiO2 nanotube films decorated with n-type CuInS2 nanoparticles. Journal of Alloys and Compounds, 2021, 89: 161895. （影响因子：6.371，中科院2区）

18. Xu J., Yang Z.*, Chen S., Wang W., Zhang Y. Compatibility and photocatalytic capacity of the novel core@shell nanospheres in cementitious composites. Catalysts, 2022,12,1574. （影响因子：4.501，中科院3区）

19. Huang M., Yang Z.*, Lu L., Xu J., Wang W., Yang C. The preparation of g-C3N4/CoAl-LDH composites and their depollution performance in cement mortars under UV-visible light. Catalysts, 2022, 12, 443. （影响因子：4.501，中科院3区）

20. Zhu S., Ji T., Niu D., Yang Z.*. Investigation of PEG/mixed metal oxides as a new form-stable phase change material for thermoregulation and improved UV ageing resistance of bitumen. RSC Advances, 2020, 10: 44903-44911. （影响因子：4.036，中科院3区）

21. Li H., Huang F., Yi Z., Wang Z., Zhang Y., Yang Z.*. Investigations of Mixing Technique on the Rheological Properties of Self-Compacting Concrete. Applied Sciences, 2020, 10: 5189.（影响因子：2.474，中科院4区）

22. Li H., Sun D., Wang Z., Huang F., Yi Z.,Yang Z. A Review on the Pumping Behavior of Modern Concrete. Journal of Advanced Concrete Technology, 2020, 18: 352-363. （影响因子：2.459，中科院4区）

23. Zhang Q., Ji T., Yang Z. Influence of different activators on microstructure and strength of alkali-activated nickel slag cementitious materials. Construction and Building Materials, 2020, 235: 117449. （影响因子：8.0，中科院1区）

24. Yang Y., Ji T.*, Yang Z., Zhang Y., Su W., Wu R., Wu Z. Efficiency and durability of g-C3N4-based coatings applied on mortar under peeling and washing trials. Construction and Building Materials, 2020, 234: 117438. （影响因子：8.0，中科院1区）

25. Zhang Y., Ye G., Yang Z.*. New insight into long-term chloride transport in unsaturated cementitious materials: Role of degree of water saturation. Construction and Building Materials, 2020, 238: 117677. （影响因子：8.0，中科院1区）

26. Zhang Y., Ye G, Yang Z.*. Pore size dependent connectivity and ionic transport in saturated cementitious materials. Construction and Building Materials, 2020, 238: 117680. （影响因子：8.0，中科院1区）

27. Zhuo W., Yan Q., Yang Z.*, Lin S., Lin K., He F. Chloride penetration in coastal concrete structures: Field investigation and model development. Advances in Materials Science and Engineering, 2019: 4537283. （影响因子：1.271，中科院4区）

28. Chen Y., Ji T., Yang Z.*, Zhan W., Zhang Y. Sustainable use of ferronickel slag in cementitious composites and the effect on chloride penetration resistance. Construction and Building Materials, 2020, 240: 117969. （影响因子：8.0，中科院1区）

29. Zhu S., Ji T., Yang B., Yang Z.* Preparation and characterization of PEG/surface-modified layered double hydroxides (LDHs) as a new shape-stabilized phase change material for thermal management. RSC Advances, 2019, 9 (41): 23435-23443. （影响因子：4.036，中科院3区）

30. Yang Y., Ji T., Su W., Yang B., Zhang Z., Yang Z.* Photocatalytic NO abatement and self-cleaning performance of cementitious composites with g-C3N4 nanosheets under visible light. Construction and Building Materials, 2019, 225: 120-131. （影响因子：8.0，中科院1区）

31. Xu Q., Ji T.*, Yang Z., Ye Y. Steel rebar corrosion in artificial reef concrete with sulphoaluminate cement, sea water and marine sand. Construction and Building Materials, 2019, 227: 116685. （影响因子：8.0，中科院1区）

32. Zheng X., Easa M.S., Yang Z., Ji T.*, Jiang Z. Life-cycle sustainability assessment of pavement maintenance alternatives: Methodology and case study. Journal of Cleaner Production, 2019, 213: 659-672. （影响因子：11.072，中科院1区）

33. Zhang Y., Yang B., Yang Z.*, Ye G. Ink-bottle effect and pore size distribution of cementitious materials identified by pressurization–depressurization cycling mercury intrusion porosimetry. Materials, 2019, 12: 1454.（影响因子：3.748，中科院3区）

34. Zhang Y., Ouyang X.*, Yang Z.* Microstructure-based relative humidity in cementitious system due to self-desiccation. Materials, 2019, 12: 1214. （影响因子：3.748，中科院3区）

35. Niu D., Chen H., Kim R., Sheng Y., Geng J., Xiong R., Yang Z.* Damage assessment of asphalt concrete with composite additives at the FAM-coarse aggregate interfacial zone. Construction and Building Materials, 2019, 198: 587-596. （影响因子：8.0，中科院1区）

36. Xu Q., Ji T., Gao S., Yang Z.*, Wu N. Characteristics and applications of sugar cane bagasse ash waste in cementitious materials. Materials, 2019, 12 (1), 39. （影响因子：3.748，中科院3区）

37. Yang Z., Zhang Y., Shi X. Impact of nanoclay and carbon microfiber in combating the deterioration of asphalt concrete by non-chloride deicers. Construction and Building Materials, 2018, 160: 514-525. （影响因子：8.0，中科院1区）

38. He J., Du S., Yang Z*., Shi X*. Laboratory investigation of graphene oxide suspension as a surface sealer for cementitious mortars. Construction and Building Materials, 2018, 162: 65-79. （影响因子：8.0，中科院1区）

39. Yang Y., Ji T., Lin X., Chen C, Yang Z.*. Biogenic sulfuric acid corrosion resistance of new artificial reef concrete. Construction and Building Materials, 2018, 158: 33-41. （影响因子：8.0，中科院1区）

40. Yang Z*, Polder R, Mol J.M.C., Modified hydrotalcites as chloride scavengers and inhibitor release agents for concrete application. HERON, 2017, 62 (2): 61-83.

41. Lv L., Zhang H., Schlangen E., Yang Z*., Xing F*. Experimental and numerical study of crack behaviour for capsules-based self-healing cementitious materials. Construction and Building Materials, 2017, 156: 219-229. （影响因子：8.0，中科院1区）

42. Lv L., Yang Z*., Chen G., Han N., Schlangen E., Zhu G., Xing F*. Synthesis and characterization of a new polymeric microcapsule and feasibility investigation in self-healing cementitious materials. Construction and Building Materials, 2016, 105: 487-495. （影响因子：8.0，中科院1区）

43. Yang Z.*, Fischer H., Cerezo J., Mol J.M.C., Polder R. Modified hydrotalcites for improved corrosion protection of reinforcing steel in concrete--preparation, characterization and assessment in alkaline chloride solution. Materials and Corrosion, 2016, 67 (7): 721-738.（影响因子：1.832，中科院4区）

44. Yang Z.*, Fischer H., Cerezo J., Mol J.M.C., Polder R. Aminobenzoate modified mg-al hydrotalcites as a novel smart additive of reinforced concrete for anticorrosion applications. Construction and Building Materials, 2013, 47: 1436-1443. （影响因子：8.0，中科院1区）

45. Yang Z., Hollar J., Shi X. Surface-sulfonated polystyrene microspheres improve crack resistance of carbon microfiber-reinforced portland cement mortar. Journal of Materials Science, 2010, 45 (13): 3497-3505. （影响因子：4.682，中科院3区）

46. Yang Z., Shi X., Creighton A.T., Peterson M.M. Effect of styrene-butadiene rubber latex on the chloride permeability and microstructure of portland cement mortars. Construction and Building Materials, 2009, 23 (6): 2283-2290. （影响因子：8.0，中科院1区）

47. Yang Z.*, Fischer H., Polder R. Modified hydrotalcites as a new emerging class of smart additive of reinforced concrete for anti-corrosion applications: A literature review. Materials and Corrosion, 2013, 64 (12): 1066-1074. （影响因子：1.832，中科院4区）

48. Yang Z., Hollar J., Shi X., He X. Laboratory assessment of a self-healing cementitious composite. Transportation Research Record, 2010, 2142: 9-17.（影响因子：2.019，中科院4区）

49. Han B*., Yang Z.*, Shi X, Yu X. Transport properties of carbon-nanotube/cement composite. Journal of Materials Engineering and Performance, (co-first author), 2013, 22 (1): 184-189.（影响因子：2.300，中科院4区）

50. Yang Z.*, Fischer H., Polder R. The Effect of modified hydrotalcites on mechanical properties and chloride penetration resistance in cement mortar. Key Engineering Materials, 2015 (629-630): 156-16.

51. Lv L., Schlangen E., Yang Z., Xing F. Micromechanical properties of a new polymeric microcapsule for self-healing cementitious materials. Materials, 2016, 9 (12), 1025. （影响因子：3.748，中科院3区）

52. Du S., Zhao H., Ge Y., Yang Z., Shi X. Laboratory investigation into the modification of transport properties of high volume fly ash mortar by chemical admixtures. ASCE Journal of Materials in Civil Engineering, 2017, 29 (10): 04017184. （影响因子：3.651，中科院3区）

53. Shi X., Fortune K., Fay L., Smithlin R., Yang Z., Cross D., Wu J. Longevity of corrosion inhibitors and performance of anti-icingproductss after pavement application: A case study. Cold Regions Science and Technology, 2012, (83-84): 89-97. （影响因子：4.427，中科院2区）

54. Shi X., Yang Z., Liu Y., Cross D. Strength and corrosion properties of portland cement mortar and concrete with mineral admixtures. Construction and Building Materials, 2011, 25 (8): 3245-3256. （影响因子：8.0，中科院1区）

55. Shi X., Fay L., Peterson M.M., and Yang Z. Freeze-thaw damage and chemical change of a portland cement concrete in the presence of diluted deicers. Materials and Structures, 2010, 43 (7): 933-946. （影响因子：4.285，中科院3区）

56. Shi X., Yang Z., Nguyen T.A., Suo, Z., Avci, R., Song, S. An electrochemical and microstructural characterization of steel-mortar admixed with corrosion inhibitors. Science in China, Series E: Technological Sciences, 2009, 52 (1): 52-66.

57. Shi X., Fay L., Yang Z., Nguyen T.A., Liu Y. Corrosion of deicers to metals in transportation infrastructure: introduction and recent developments. Corrosion Reviews, 2009, 27 (1-2): 23-52. （影响因子：3.690，中科院4区）

58. Shi X., Akin M., Pan. T., Fay L., Liu Y., Yang Z. Deicer impacts on pavement materials: introduction and recent developments. The Open Civil Engineering Journal, 2009, 3: 16-27.

已授权的发明专利

1. 杨政险,卢林, 董世林,张坤朝.一种海砂氯离子固化剂及其应用方法, 2025, ZL202311404614.1

2. 杨政险,黄小宇,卢林,陈发军,陈少宇, 吴智伟. 一种耐腐蚀性钢渣改性钢结构防火涂料，2025，ZL202411420727.5

3. 杨政险,沈立越,卢林,陈发军,陈少宇,黄小宇. 一种自激发地聚物防腐蚀涂料及其制备方法，2025，ZL202411420727.5

4. Yang Zhengxian, Shen K, Lu L, Jiang S, Chen A. Water-soluble single-component intumescent flame retardant and preparation method and application thereof , 南非发明, 2025, ZA2025/06112

5. Yang Zhengxian, Shen L, Huang X, Lu L, Chen S, Chen F. Corrosion-resistant steel slag-modified fireproof coating for steel structure, 荷兰发明, 2025, NL2040880A

6. Yang Zhengxian, Huang X, Lu L, Chen S, Wu Z, Chen F.  Self-activated geopolymer anti-corrosion coating and preparation method thereof, 荷兰发明, 2025, NL2040879A

7. Yang Zhengxian, Hong R, Lu L, Cai S, Deng C. Detection method for determining content of chloride ions in marine sand, 2024, 美国发明, US11940431B2

8. 杨政险,董世林,张坤朝,卢林. 模拟滨海环境水泥基材料劣化的试验装置, 2024, ZL202210299723.0.

9. 杨政险,张坤朝,董世林,卢林. 一种用于箱式炉的煅烧装置及其工作方法, 2024, ZL202211168378.3.

10. 杨政险,陈柏全,卢林. 一种磷酸激发粉煤灰胶凝型铁锈转化剂及其制备方法, 2023, ZL202111605740.4.

11. 杨政险,林佳福,卢林,陈尚鸿. 一种透水混凝土的流动性测试装置及其测试方法, 2023, ZL202211168389.1.

12. 杨政险,卢林,黄梦崖. 一种具有光催化作用的人工粗骨料及其制备方法, 2022, ZL202110056394.2.

13. 杨政险,卢林,王文成. 一种抗菌水泥砂浆及其制备和应用方法, 2021, ZL202110056602.9.

14. 杨政险,卢林,张勇,郭婷. 一种抗菌粗骨料及其制备方法, 2021, ZL202110057180.7.

15. 杨政险,卢林,王文成. 一种抗菌水泥混凝土及其制备方法, 2021, ZL202110056603.3.

16. 杨政险,卢林,王志远. 一种抗菌沥青混凝土及其制备方法, 2021, ZL202110057202.X.

17. 杨政险,洪荣灿,卢林. 一种确定海砂中氯离子含量的检测方法, 2020, ZL201910802795.0.

18. 杨政险,辛东升,林旭健. 一种以石灰-碳酸钠为激发剂的单组份碱激发胶凝材料, 2019, ZL201810045798.X.

19. 王心晨,杨政险,阳灿,卢林. 一种含硼碳氮的光催化水泥砂浆及其制备方法, 2021, ZL202110055931.1.

20. 王心晨,杨政险,阳灿,卢林. 一种光催化水泥混凝土及其制备方法, 2021, ZL202110055943.4.

21. 张勇,杨政险,卢林. 一种确定水泥基材料不同尺度孔隙连通性的方法, 2022, ZL202110160767.0.

22. 王文成,林镇坤,杨政险,程名,卢林,曹望城. 一种氯离子响应智能缓蚀微胶囊及其制备方法, 2023, ZL202210595911.8.

23. 王文成,程林森,林镇坤,杨政险,叶玉娇,卢林. TiO2/MXene光阳极材料在光生阴极保护中的应用, 2024, ZL202210957777.1.

24. 颜学渊,张鸿晖,杨国,汪大洋,周福彬,李坤伦,杨政险. 玄武岩-聚乙烯纤维混凝土动态损伤本构模型建立方法, 2023, ZL202310934300.6.

已授权的实用新型专利

1. 杨政险,张坤朝,卢林,董世林,费太雄. 一种用于旋转出料器的可拆卸式搅拌装置, 2024, ZL202322813527.3.

2. 杨政险,费太雄,陈尚鸿. 一种3D打印混凝土层间粘结强度的万能试验机, 2024, ZL202322575650.6.

3. 杨政险,卢林,张坤朝,董世林. 一种测试水泥基材料光催化脱氮性能的试验装置, 2024, ZL202322813523.5.

4. 杨政险,费太雄,陈尚鸿,张坤朝. 一种旋转出料器, 2024, ZL202322220708.5.

5. 杨政险,雷李杭. 一种微波适用水泥基材料养护模具, 2023, ZL202321935832.3.

6. 杨政险,卢林. 一种移动式一体化免烧砖制砖设备, 2021, ZL202020878580.5.

7. 杨政险,洪荣灿,卢林. 一种用于海砂脱膜及氯离子固化的设备, 2020, ZL201921949551.7.

8. 杨政险,卢林,洪荣灿. 一种用于海砂脱膜的搅洗筒, 2020, ZL201921950028.6.

9. 杨政险,陈卓睿,卢林. 一种新型保水淤泥砖, 2020, ZL201921515527.2.

10. 杨政险,辛东升,林旭健. 层状梁式的高抗折自榫卯透水砖, 2018, ZL201820023546.2.

11. 陈尚鸿, 杨政险, 张德长, 郭汉彬, 陈香清. 矿渣超细复合粉用的耐久性试验设备, 2025, 202421300390X.

12. 陈尚鸿, 杨政险, 张德长, 郭汉彬, 陈香清. 光催化混凝土用细骨料和掺合料制备配料装置, 2025, ZL202421300396.7.

13. 陈尚鸿, 费太雄, 杨政险, 张坤朝, 朱塞佩·马拉诺. 一种混凝土废料回收机, 2024,  ZL202420113403.6.

14. 陈尚鸿, 费太雄, 杨政险. 一种自动化混凝土3D打印装置. 2024, ZL202322963525.2.

15. 颜学渊,张鸿晖,张裕东,杨政险,陈再现,毛会敏. 一种采用玄武岩-聚乙烯纤维混凝土加固桥墩, 2024, ZL202321449578.6.

16. 叶成顺,杨政险,马春,郑伟群,卢林.一种复合改性沥青混合料制备装置, 2022, ZL202122880564.7.

17. 陈尚鸿,林佳福,卢林,杨政险. 一种透水混凝土的流动性测试装置, 2023, ZL202222530395.9.

18. 颜学渊,张鸿晖,林华洋,杨政险,陈再现,毛会敏. 一种钢-玄武岩纤维与钢板复合加固混凝土梁柱节点, 2023, ZL202321604796.2.

19.  马春,叶成顺,段振益,杨政险,王海南,牛冬瑜. 适用于地沟油改性沥青的地沟油回收处理设备, 2021, ZL202120315894.9.