*代表通讯作者;#代表共同第一作者
2025
[49] Jing-Jing Luo, Shu-Chang Zhao, Dan Wu, Ya-Nan Kong, Chang Liu (本科生), Ya-Jing Wang (本科生), Xun Zhu (本科生) and Rui-Lin Liu*. Urea-assisted fabrication of defect and oxygen vacancy-enriched Ce(MoO4)2 oxidase mimetics: A dual-mode sensor array for detection and recognition of phenolic antioxidants. Sensors and Actuators B: Chemical 2025, 424,136922. (IF 8.0, JCR-Q1, 中科院SCI一区Top期刊)
2024
[48] Jun-Xi Zhou #(本科生),Ting Wu #(本科生), Qing-Yin Ni #(本科生), Bo-Yi Yuan, Shu-Chang Zhao, Yun-Yun Sun (本科生), Jing Huang (本科生), Min-Lin Zou (本科生), Rui-Lin Liu*. A simulated sunlight-activated plastic mimic enzyme for dual-mode detection of D-penicillamine and serum iron. Microchemical Journal 2024, 207, 112160. (IF 4.9, JCR-Q1, 中科院SCI二区Top期刊)
[47] Ying Lin #(本科生), Wan-Wan Shao # (本科生), Dan Wu, Tong Zhang (本科生), Dan-Ni Fei (本科生), Ya-Nan Kong, Yi-Fan Gao, Shu-Chang Zhao and Rui-Lin Liu*. Spatially confined CuFe2O4 nanosphere in N/O-codoped porous carbon mimetics for triple-mode sensing of antibiotics and visual detection of neurotransmitters in biofluids. Analytica Chimica Acta 2024, 1306, 342598. (IF 6.2, 中科院SCI一区TOP期刊)
[46] Yuan Gao #, Juan Wang #, Lin-Lan Zhao (本科生), Bo-Yi Yuan, Ya-Nan Kong, Jing-Jing Luo, Shu-Chang Zhao, Wei-Ming Yang, Rui-Lin Liu*. Biotemplated fabrication of N/O co-doped porous carbon confined spinel NiFe2O4 heterostructured mimetics for triple-mode sensing of antioxidants and ameliorating packaging properties. Food Chemistry 2024, 441, 138365. (IF 8.8, 中科院SCI一区TOP期刊)
【亮点】N/O共掺杂多孔碳限域的尖晶石NiFe2O4异质结构模拟物用于抗氧化剂的三模式传感和包装性能的改善
2023
[45] Yanhui Ge*, Shuchang Zhao, Boyi Yuan, Yuan Gao, Ruilin Liu*. In-situ growth of metal coordination-synergistic imprinted polymer onto shrimp shell-derived magnetic FeNi biochar for specific recognition of monocrotaline in herbal medicine. Materials Today Sustainability 2023, 24, 100599. (IF 7.8)
[44] Juan Wang*, Shun Feng, Qingqing Sheng, Ruilin Liu*. Influence of InP/ZnS quantum dots on thermodynamic properties and morphology of the DPPC/DPPG monolayers at different temperatures. Molecules 2023, 28, 1118. (IF 4.6, 中科院SCI二区TOP期刊)
[43] Jingjing Luo, Ruilin Liu*, Shuchang Zhao and Yuan Gao. Bimetallic Fe-Co nanoalloy confined in porous carbon skeleton with enhanced peroxidase mimetic activity for multiple biomarkers monitoring. Journal of Analysis and Testing 2023, 7, 53-68. (IF 4.7, 中国科技期刊国际影响力提升计划期刊) Invited paper
[42] Yi-Cai Jiang #(本科生), Meng-Fan Luo # (本科生), Zi-Nuo Niu (本科生), Si-Yuan Xu (本科生), Yue Gao (本科生), Yuan Gao, Wen-Juan Gao, Jing-Jing Luo and Rui-Lin Liu*. In-situ growth of bimetallic FeCo-MOF on magnetic biochar for enhanced clearance of tetracycline and fruit preservation. Chemical Engineering Journal 2023, 451, 138804. (IF 16.744, 中科院SCI一区TOP期刊)
[41] 杨沁宜 (本科生),刘瑞林*. 废虾壳衍生多孔碳纳米酶的制备及在自来水中双氧水比色传感检测中的应用. 分析试验室,2023, 42(7): 957-963. 【《分析试验室》创刊40周年邀稿】
2022
[40] Rui-Lin Liu*. Editorial: Optical technologies for disease diagnosis and therapy in deep tissues. Frontiers in Bioengineering and Biotechnology 2022, 1012949. (IF 6.064)
[39] Guang-Bing Wei#, Zi-Jun Wang#, Rui-Lin Liu*, Can-Can Zhou, En-Meng Li, Tian-Li Shen, Xing-Jie Wang, Yun-Hua Wu and Xu-Qi Li*. A combination of hybrid polydopamine-human keratinocyte growth factor nanoparticles and sodium hyaluronate for the efficient prevention of postoperative abdominal adhesion formation. Acta Biomaterialia 2022, 138, 155-167. (IF 10.633)
http://news.xjtu.edu.cn/info/1004/179392.htm
[38] Rui-Lin Liu* and Ru-Qian Cai. Recent advances in ultrasound-controlled fluorescence technology for deep tissue optical imaging. Journal of Pharmaceutical Analysis 2022, 12(4), 530-540. (IF 14.026)
2021
[37] Juan Wang*, Shun Feng, Jie Liu and Ruilin Liu*. Effects of carboxyl or amino group modified InP/ZnS nanoparticles toward simulated lung surfactant membrane. Frontiers in Bioengineering and Biotechnology 2021, 9, 714922. (IF 6.064)
2020
[36] Liu Ruilin #, Yao Tingfeng #, Liu Yang, et al. Nano Research 2020, 13(4), 1100-1110. (IF 10.269)
[35] Xu Xinya, Guo Pengqi, Shu Hua, Qu Kenan, Ge Yanhui, Chen Guoning, Luo Zhimin, Du Wei, Chang Chun, Liu Ruilin,* Fu Qiang.* Materials Science and Engineering C 2020, 115, 111063. (IF 8.457)
2019
[34] Ge Yan-Hui, Shu Hua, Xu Xin-Ya, Guo Peng-Qi, Liu Rui-Lin,* Luo Zhin-Min, Chang Chun, Fu Qiang*. Materials Science and Engineering C 2019, 97, 650-657. (IF 8.457)
[33] Wang Yan, Liu Rui-Lin,* Chen Guo-Ning, Wang Lu, Yu Pei, Shu Hua, Bashir Kamran, Fu Qiang*. Microchimica Acta 2019, 186(7), 446-455. (IF 6.408)
2018
[32] Shu Hua, Ge Yanhui, Xu Xin-Ya, Guo Peng-Qi, Luo Zhi-Min, Du Wei, Chang Chun, Liu Rui-Lin,* Fu Qiang*. Journal of Chromatography A 2018, 1561, 13-19. (IF 4.759)
[31] Liu Rui-Lin,* Hou Jia-Xue. International Journal of Pharmaceutics&Pharmacology, 2018, 2(1):122-128. (Invited paper)
[30] Xu Xinya, Liu Ruilin, Guo Pengqi, Luo Zhimin, Cai Xiang, Shu Hua, Ge Yanhui, Chang Chun, Fu Qiang.* Food Chemistry 2018, 256, 91-97. (IF 7.514)
2017
[29] Liu Rui-Lin,* Mao Shuai, Wang Yan, Wang Lu, Ge Yan-Hui, Xu Xin-Ya, Fu Qiang.* Environmental Science: Nano 2017, 4, 2164-2174. (IF 9.473)
[28] Liu Rui-Lin,* Yu Pei, Luo Zhi-Min, Fu Qiang. Journal of Controlled Release, 2017, 259, e118-119. (IF 11.467)
[27] Liu Rui-Lin,* Wang Yan, Ge Xian-Li, Yu Pei, Liu Hui-Qin, Wang Ming-Chan, Lu Wen, Fu Qiang.* Journal of Biomaterials Science, Polymer Edition 2017, 28(14), 1444-1468. (IF 3.51)
Mater. Adv. 2021, 2, 7210-7236长篇幅亮点介绍
[26] Liu Rui-Lin,* Yu Pei, Luo Zhi-Min, Bai Xiu-Feng, Li Xing-Qiang, Fu Qiang.* Chemical Engineering Journal 2017, 315, 437-447. (IF 16.744)
Trend. Anal. Chem. 2019, 121, 115678 (IF 12.296)长篇幅亮点介绍
[25] Liu Rui-Lin,* Yu Pei, Ge Xian-Li, Bai Xiu-Feng, Li Xing-Qiang, Fu Qiang.*Food Analytical Methods 2017, 10, 1669-1680. (IF 3.366)
[24] Liu Rui-Lin,* Wang Shu-Hui, Zhao Yue-Lei, Wang Yan, Yu Pei. Nanomedicine & Nanotechnology Open Access, 2017, 2(3):1-8. (Invited paper)
[23] Ma Huan-Yu, Xing Zi-Ping, Liu Rui-Lin,* Wang Shu-Hui, Zhao Yue-Lei. Austin Cardiology 2017, 2(1):1010-1014. (Invited paper)
[22] 刘瑞林*, 余佩, 陈国宁, 等. 西北药学杂志, 2017, 32(6), 718-722.
2016
[21] Liu Rui-Lin, Li Xing-Qiang, Liu Hui-Qin, Luo Zhi-Min, Ma Jin, Zhang Zhi-Qi, Fu Qiang.* RSC Advances 2016, 6:30301-30310. (IF 3.361)
[20] Liu Rui-Lin, Ge Xian-Li, Gao Xiang-Yu, Zhan Han-Ying, Shi Ting, Su Na, Zhang Zhi-Qi.* Food & Function 2016, 7, 3733-3739. (IF 5.396; 2016年度热点论文)
[19] Liu Rui-Lin, Zhang Zhi-Qi, Jing Wang-Hui, Wang Lu, Luo Zhi-Min, Chang Rui-Miao, Zeng Ai-Guo, Du Wei, Chang Chun, Fu Qiang.*Materials Science and Engineering C 2016, 62:605-613. (IF 7.328)
[18] Gao Xiang-Yu, Liu Rui-Lin, Ma Jin, Zhan Han-Ying, Zhang Zhi-Qi.* Journal of Porous Materials 2016, 23:157-164. (IF 2.496)
[17] Jing Wanghui, Liu Ruilin, Du Wei, Luo Zhimin, Guo Pengqi, Zhang Ting, Zeng Aiguo, Chang Chun, Qiang Fu.* Molecules 2016, 21, 314. (IF 4.411)
2015
[16] Liu Rui-Lin,* Gao Xiang-Yu, An Lei, Ma Jin, Zhang Ji-Fang, Zhang Zhi-Qi.* RSC Advances 2015, 5, 93858-93866. (IF 3.361)
2014
[15] Liu Rui-Lin, Ji Wen-Juan, He Tian, Zhang Zhi-Qi,* Zhang Jing, Dang Fu-Quan. Carbon 2014, 76: 84-95. (IF 11.307)
Prog. Mater. Sci. 2019, 102, 1-71 (IF 39.580)长篇幅亮点介绍
[14] Liu Rui-Lin, Liu Yu, Zhou Xin-Yu, Zhang Zhi-Qi,* Zhang Jing, Dang Fu-Quan. Bioresource Technology 2014, 154: 138-147. (IF 11.889)
[13] Liu Rui-Lin, Yin Fu-Yu, Zhang Ji-Fang, Zhang Jing, Zhang Zhi-Qi.*RSC Advances 2014, 4: 21465-21470. (IF 3.361)
[12] Zhou Xin-Yu, Liu Rui-Lin, Ma Xue, Zhang Zhi-Qi.* Carbohydrate Polymers 2014, 101: 886-889. (IF 9.381)
[11] 多本加, 刘瑞林,* 许海燕, 张继芳. 食品工业科技 2014, 24: 258-263.
2013
[10] Liu Rui-Lin, Song Shuang-Hong, Wu Mei, He Tian, Zhang Zhi-Qi.*Food Chemistry 2013, 141: 4269–4277. (IF 7.514)
[9] Han Zhi-Ping, Liu Rui-Lin, Cui Hai-Yan, Zhang Zhi-Qi.* Journal of Liquid Chromatography & Related Technologies 2013, 36: 2182-2195. (IF 0.987)
[8] Zhan Han-Yin, Liu Rui-Lin, Wang De-Jin, Yuan Jing, Xu Sheng-Jie, Zhang Zhi-Qi.* Chinese Journal of Chromatography 2013, 31, 240-248.
2012
[7] Liu Rui-Lin, Zhang Jing, Mou Zhao-Li, Hao Shuang-Li, Zhang Zhi-Qi.* Analyst 2012, 137(21): 5135-5143. (IF 4.616)
[6] Liu Lei, Liu Rui-Lin, Zhang Jing, Zhang Zhi-Qi.* Journal of Separation Science 2012, 35: 3412-3420. (IF 3.64)
[5] Mou Zhao-Li, Qi Xiao-Ni, Liu Rui-Lin, Zhang Jing, Zhang Zhi-Qi.* Journal of Chromatography A 2012, 1243: 33-38. (IF 4.759)
[4] 刘瑞林, 詹汉英, 陈钿, 等. 食品科学, 2012 (33):1-7;
[3] 刘瑞林, 詹汉英, 张志琪. 食品工业科技, 2012 (33):228-231;
[2] 刘瑞林, 詹汉英, 陈钿, 等. 陕西师范大学学报(自然科学版), 2012 (40):47-51;
[1] 刘瑞林, 王德金, 袁静, 等. 中国食品添加剂, 2012 (5):83-91.
Patents
1. 张志琪; 刘瑞林; 刘喻; 尹福玉; 张继方; 管丽红. 一种氮掺杂多级孔碳材料的制备方法(ZL201310533518.7)
2. 张志琪; 刘瑞林; 安蕾等. 一种磁性碳质固体酸催化剂的制备方法. (ZL201410260469.9)
3. 张志琪; 葛先立; 刘瑞林; 苏娜. 具有血管紧张素转化酶抑制活性的扁杏仁肽及其制备方法. (ZL201510458400.1)
4. 张志琪; 周鑫玉; 刘瑞林. 聚乙二醇-超声微波辅助提取石榴皮多糖的方法.(ZL201310296526.4)
5. 张志琪; 史婷; 苏娜; 刘瑞林. 聚乙二醇-微波辅助提取杏仁蛋白的方法.(ZL 201210352769.0)
6. 傅强; 徐欣雅; 刘瑞林; 郭鹏琦; 周玉兰; 曾爱国; 常春.磁性碳材料表面菠萝蛋白酶分子印迹聚合物的制备方法.(ZL201611200968.4)
7. 傅强; 余佩; 刘瑞林; 王燕; 葛燕辉; 王铭婵; 常春. 蘑菇栽培基质衍生的磁性多孔碳复合材料的制备及应用.(ZL201810182982.9)
8. 刘瑞林;罗菁菁;高媛. 一种磁性FeCo双金属碳基多孔纳米酶的制备方法及应用. (ZL202210813193.7)
9. 刘瑞林;罗梦凡;蒋逸材;高媛. 一种磁性碳基FeCo双金属有机框架复合材料的制备方法及应用. (ZL202210813201.8)
10. 刘瑞林; 高媛; 袁铂溢;赵林澜. 一种同时具备多种酶活性的缺陷型磁性FeNi多孔碳纳米酶. (CN202310748111.X)
11. 刘瑞林;罗菁菁. 一种富含氧空位缺陷型Ce(MoO4)2纳米酶及其制备方法和应用. (CN202311503167.5)
12. 刘瑞林;罗菁菁;吴丹;赵淑昌. 一种类海胆状氧空位Ce掺杂Bi2MoO6纳米酶及其制备方法和应用. (CN202410588576.8)
13. 刘瑞林;林英;邵婉婉;张同;费丹妮. 一种双酶活性的磁性FeCu多孔碳纳米酶及应用. (CN202410412064.6)
14. 刘瑞林;赵淑昌. 一种多酶活性的微米级花状CuZn双金属有机骨架模拟酶及其制备方法和应用. (CN202410598775.7)