1. 李强等.Polyoxometalate-IonicLiquids (ILs) and Polyvinyl Alcohol/Chitosan/ILs Hydrogels for Inhibiting Bacteria Colonising Wall Paintings (多金属氧酸盐-离子液体和聚乙烯醇/壳聚糖/离子液体水凝胶用于壁画表面细菌防治). Carbohydrate Polymers, 2021, 256:117592. SCI (IF=9.381)
2. 吴朦等. Study of Colored Lacquerwares from Zenghou Yi Tomb in early Warring States (战国早期曾侯乙墓的彩漆器研究).New Journal of Chemistry, 2021, 45(21): 9434-9442. SCI (IF=3.591)
3. 翟宽容等.The earliest lacquerwares of China were discovered at Jingtoushan site in the Yangtze River Delta (发现于长江三角洲井头山遗址的中国最早漆器). Archaeometry,2021, https://doi.org/10.1111/arcm.12698. A&HCI,SCI (IF=1.886)
4. 陈学强等. A novel method of temporary solidification and extraction of underwater fragile relics in their original state(一种新的水下脆弱文物原位临时固型提取方法). International Journal of Adhesion and Adhesives, 2021, 104: 102724. SCI(IF= 3.189)
5. 李强等.Hydrophilic ZnO Nanoparticle Based Antimicrobial Coatings for Sandstone Heritage Conservation (用于砂岩遗产保护的亲水性氧化锌纳米颗粒抗菌涂层). ACS Applied Nano Materials,2021,doi:an-2021-03224j (acsanm. 1c03224). SCI (IF=5.097)
6. 王新鑫等.Research onextraction of fragile bamboo slips by underwater temporary solidification inoriginal state (水下脆弱竹简临时原状固型提取研究). Journal of Cultural Heritage,2021, 51:174-181. A&HCI, SCI (IF=2.955)
7. 翁昕等. Detection and analysis of sources of limemineral in ancient buildings (古建筑石灰矿物来源的检测分析方法). New Journal of Chemistry, 2021,45:16490-16499. SCI (IF=3.591)
8. 谢丽娜等. A Novel Methodof Preparing A Standard Weathered Sandstone Specimen: A Case Study of Red Sandstone from the Leshan Giant Buddha (Sichuan, China) (一种新的标准风化砂岩样品的制备方法:以中国四川乐山大佛的红砂岩样品为例). International Journal of Architectural Heritage, 2021, https://doi.org/ 10.1080/ 15583058.2021.1942591a. A&HCI, SCI (IF=2.580)
9. 伍洋等. Monitoring the Deterioration of Masonry Relics at a UNESCO World Heritage Site (监测世界遗产地砖石质文物的降解情况). KSCE Journal of Civil Engineering, 2021, 25(8): 3097-3106. SCI (IF=1.805)
10. 翁昕等. Detection of early Chinese organic-inorganic composite lime surface from the Lushanmao site,4300 years ago (4300年前芦山峁遗址中国早期有机-无机复合石灰面的检测). Journalof Cultural Heritage, 2021,52:128-133. A&HCI, SCI (IF=2.955)
11. 王芳璐等. Technique of Temporary Undisturbed Reinforcement Extraction of Fragile Lacquerware from Shipwrecks (从沉船中提取易碎漆器的临时原状加固技术). Journal of Maritime Archaeology, 2021,16:27–38. A&HCI (IF=0.75)
12. 王新鑫等. Comprehensive Test of Tabia at The Humen Fort Sites in Guangzhou, China (广州虎门炮台遗址三合土的综合分析). Journal of Cultural Heritage, 2021, 49:298-304. A&HCI, SCI (IF=2.955)
13. 翁昕等. Analysis of Construction Materials of Xiongnu Tongwan City, Built 1600 Years Ago (建于1600年前的匈奴统万城建筑材料的分析). Studies in Conservation, 2021, 66(7): 413-422. A&HCI, SCI (IF=0.739)
14. 朱慧等. Sticky Rice in Traditional Chinese Mortar (中国传统糯米灰浆). Journal of Rice Science, 2021, 1(4): 1-4.
15. 王鑫等. The application of thymol-loaded chitosan nanoparticles to control thebiodeterioration of cultural heritage sites (载百里香酚的壳聚糖纳米粒子在控制文化遗产生物劣化中的应用). Journal of Cultural Heritage,2022,53,206-211. A&HCI,SCI (IF=2.955)
16. 谢丽娜等. Preliminary assessment of the efficacy of nano–MgO–based dispersion for the consolidation of artificial weathered sandstone (初步评估以纳米氧化镁为基础的加固液用于模拟风化砂岩加固的有效性). Archaeometry, 2021, 接收. A&HCI, SCI(IF=1.886)
17. 张迪等. A new method for detecting sticky rice in ancient mortar based on ELISA (基于ELISA的古砂浆糯米检测新方法). Archaeometry, 2021, 接收. A&HCI, SCI(IF=1.886)
18. 王新鑫等. Emporary solidifying extraction and in situpreservation of fragile marine artifacts: Experimental study and pilot test(海洋水下脆弱文物及遗迹临时固型提取和原状呈现,研究与试验),Journal of Cultural Heritage, 2021, 接收. A&HCI, SCI(IF=2.955)
19. 陈尔新等. 南方传统壁画传承中墨和颜料的科学鉴定,中国国家画院文丛,2021,第三辑:200-215.
20. 姜宁等. 中西方传统“石作”特色比较谈,石材,2021, 5: 55-59.
21. 刘璐瑶等. 彩绘文物中蓝色颜料群青的鉴定技术研究,黑龙江科学,2021, 12(2): 7-14.
22. 姜宁等. 北京故宫和南京明孝陵建筑石作石料探讨,石材,2021, 1: 56-60.
23. 潘力伟等. 石窟文物的微生物病害与防治对策探讨,石材,2021, 11:31-37.
24. 刘静轩等. 浙江乡土古建筑壁画保存状况调研——以武义俞源村六处古建筑壁画为例,东方博物. 2021,接收
图 2021年度本实验室发表或被接收论文第一作者的工作照:
本实验室团队的文物保护实践工作将另文报道。
文字:浙江大学文物保护材料实验室
审核:张秉坚、胡瑜兰