郭亞平

發布者:信息發布員發布時間:2022-12-07浏覽次數:3882




1. 個人簡介:

郭亞平博士,研究員/博士生導師,中國矽酸鹽學會特種陶瓷分會理事。主持完成國家自然科學基金、上海市科委基礎研究領域重點項目、寶武集團環境資源科技有限公司等20餘項。以通訊或第一作者在Chemical Engineering JournalJournal of Hazardous MaterialsJournal of Cleaner Production等期刊發表SCI論文100餘篇,總引用數超過3100次,h-index34。中國發明專利已授權21項。

教育經曆:

2005.3-2009.3,博士,哈爾濱工業大學

2002.9-2005.3,碩士,哈爾濱工程大學

1995.9-1999.7,學士,哈爾濱工程大學

工作經曆:

2017-至今,上海師範大學研究員

2011-2017,上海師範大學副教授

2010-2012中國科學院上海矽酸鹽研究所,博士後

2009-2011,上海師範大學講師

2. 主要研究方向:

[1] 生物活性陶瓷的設計制備

[2]環境淨化材料的開發和應用

[3] 導熱界面材料的開發和應用

3. 代表性科研項目:

[1] 廢鉑回收及鉑基催化劑的技術開發,橫峰縣凱怡實業有限公司,2022.10-2024.9。

[2] 活性炭纖維基複合材料的制備及其在電鍍廢水處理中的應用,上海市科委地方院校能力建設項目,2018.4-2021.3。

[3] 以礦渣微粉為原料制備羟基磷灰石用于吸附電鍍污水中的重金屬離子的技術開發,寶武集團環境資源科技有限公司,2017.1-2018.5。

[4]磁性介孔磷灰石三維多孔支架的構建、骨誘導性及抗骨肉瘤性能研究,國家自然科學基金(面上)2014.01-2017.12。

[5] 以礦渣微粉為原料制備磷灰石和分子篩重金屬吸附材料的開發,寶鋼發展有限公司,2015.6.1-2016.7.30

[6]碳纖維增強磁性介孔磷灰石三維多孔支架的構建機制及生物學性能研究,上海市科委基礎研究重點項目,2014.01-2016.12

[7]原位模闆犧牲法制備磁性介孔磷灰石微球及生物學性能研究,國家自然科學基金(青年)2011.1- 2013.12

4. 代表性論文及著作:

論文

[1] Wen-Jun Qiang, Qing Huang, Jia-Hao Shen, Qin-Fei Ke, Jun-Ying Lü, Ya-Ping Guo*, Copper oxide and manganese dioxide nanoparticles on corrugated glass-fiber supporters promote thermocatalytic oxidation of formaldehyde, Journal of Cleaner Production, 2022, 368, 133089.

[2] Danya Chen, Pei Liu, Mengna Li, Changqing Zhang, Youshui Gao*, Yaping Guo*, Nacre-mimetic hydroxyapatite/chitosan/gelatin layered scaffolds modifying substance P for subchondral bone regeneration, Carbohydrate Polymers, 2022, 291, 119575.

[3] Jing-Jing Shi, Yu-Wei Ge, Zhang-Hao Fan, Yang Li*, Wei-Tao Jia*, Ya-Ping Guo*, Graphene oxide-modified layered double hydroxide/chitosan nacre-mimetic scaffolds treat breast cancer metastasis-induced bone defects, Carbon, 2022, 200, 63-74.

[4] Min Chu, Zhenyu Sun, Zhanghao Fan, Degang Yu, Yuanqing Mao*, Yaping Guo*, Bi-directional regulation functions of lanthanum-substituted layered double hydroxide nanohybrid scaffolds via activating osteogenesis and inhibiting osteoclastogenesis for osteoporotic bone regeneration, Theranostics, 2021, 11, 6717-6734.

[5] Daoyu Zhu, Bin Lu, Qianhao Yang, Hongping Yu, Pei Liu, Junhui Yin, Yixuan Chen, Yigang Huang, Qinfei Ke, Changqing Zhang*, Yaping Guo*, Youshui Gao*, Lanthanum-doped mesoporous bioglasses/chitosan composite scaffolds enhance synchronous osteogenesis and angiogenesis for augmented osseous regeneration, Chemical Engineering Journal, 2021, 405, 127077.

[6] Pei-Pei Zhao, Yu-Wei Ge, Xiao-Liang Liu, Qin-Fei Ke, Jing-Wei Zhang, Zhen-An Zhu*, Ya-Ping Guo*, Ordered arrangement of hydrated GdPO4 nanorods in magnetic chitosan matrix promotes tumor photothermal therapy and bone regeneration against breast cancer bone metastases, Chemical Engineering Journal, 2020, 381, 122694

[7] Chuan-Jian Zhang, Min Hu, Qin-Fei Ke, Cui-Xiang Guo, Ya-Jun Guo, Ya-Ping Guo*, Nacre-inspired hydroxyapatite/chitosan layered composites effectively remove lead ions in continuous-flow wastewater, Journal of Hazardous Materials, 2020, 386, 121999.

[8] Ya-Qi Tang, Qi-Yang Wang, Qin-Fei Ke, Chang-Qing Zhang, Jun-Jie Guan, Ya-Ping Guo*, Mineralization of ytterbium-doped hydroxyapatite nanorod arrays in magnetic chitosan scaffolds improves osteogenic and angiogenic abilities for bone defect healing, Chemical Engineering Journal, 2020, 387, 124166.

[9]Bin Lu, Dao-Yu Zhu, Jun-Hui Yin, HeXu, Chang-Qing Zhang, Qin-Fei Ke, You-Shui Gao, Ya-Ping Guo, Incorporation of cerium oxide in hollow mesoporous bioglass scaffolds for enhanced bone regeneration by activating the ERK signaling pathway, Biofabrication, 2019, 11, 025012.

[10] Pei-Pei Zhao, Hao-Ran Hu, Jia-Yu Liu, Qin-Fei Ke, Xiao-YuanPeng, Hao Ding*, Ya-Ping Guo*, Gadolinium phosphate/chitosan scaffolds promote new bone regeneration via Smad/Runx2 pathway, Chemical Engineering Journal, 2019, 359, 1120-1129.

[11] Min Hu, Fei Xiao, Qin-Fei Ke, Yang Li*, Xiao-Dong Chen*, Ya-Ping Guo*, Cerium-doped whitlockite nanohybrid scaffolds promote new bone regeneration via SMAD signaling pathway, Chemical Engineering Journal, 2019, 359, 1-12.

[12] Haoran Hu, Peipei Zhao, Jiayu Liu, Qinfei Ke, Changqing Zhang, Yaping Guo*, Hao Ding*, Lanthanum phosphate/chitosan scaffolds enhance cytocompatibility and osteogenic efficiency via the Wnt/β-catenin pathway, Journal of Nanobiotechnology, 2018, 16, 98.

[13] Yixuan Chen, Jianqing Yu, Qinfei Ke, Youshui Gao, Changqing Zhang*, Yaping Guo*, Bioinspired fabrication of carbonated hydroxyapatite/chitosan nanohybrid scaffolds loaded with TWS119 for bone regeneration, Chemical Engineering Journal, 2018, 341, 112-125.

[14] He Xu, Yu-Wei Ge, Jia-Wei Lu, Qin-Fei Ke, Zhi-Qing Liu, Zhen-An Zhu*, Ya-Ping Guo*, Icariin loaded-hollow bioglass/chitosan therapeutic scaffolds promote osteogenic differentiation and bone regeneration, Chemical Engineering Journal, 2018, 354, 285-294.

[15]Jia-WeiLu, FanYang, Qin-FeiKe, Xue-TaoXie, Ya-PingGuo, Magnetic nanoparticles modified-porous scaffolds for bone regeneration and photothermal therapy against tumors, Nanomedicine: Nanotechnology, Biology and Medicine, 2018, 14, 811-822.

[16] Yi-Xuan Chen, Rong Zhu, Qin-Fei Ke, You-Shui Gao, Chang-Qing Zhang*, Ya-Ping Guo*, MgAl layered double hydroxide/chitosan porous scaffolds loaded with PFTα to promote bone regeneration, Nanoscale, 2017, 9, 6765-6776.

[17] Ming-Jun Tian, Fang Liao, Qin-Fei Ke, Ya-Jun Guo, Ya-Ping Guo*, Synergetic effect of titanium dioxide ultralong nanofibers and activated carbon fibers on adsorption and photodegradation of toluene, Chemical Engineering Journal, 2017, 328, 962-976.

[18] Min Li, Bin Lu, Qin-Fei Ke, Ya-Jun Guo, Ya-Ping Guo*, Synergetic effect between adsorption and photodegradation on nanostructured TiO2/activated carbon fiber felt porous composites for toluene removal. Journal of Hazardous Materials, 2017, 333, 88-98.

[19] Ya-Ping Guo, Li-Hua Guo, Yong-bo Yao, Cong-Qin Ning and Ya-Jun Guo. Magnetic Mesoporous Carbonated Hydroxyapatite Microspheres with Hierarchical Nanostructure for Drug Delivery System. Chemical Communications, 2011, 47, 12215-12217.

[20] Yaping Guo, Haijin Wang, Yajun Guo, Lihua Guo, Lianfeng Chu, Cuixiang Guo. Fabrication and Characterization of Hierarchical ZSM-5 Zeolites by Using Organosilanes as Additives.  Chemical Engineering Journal, 2011, 166, 391-400.

著作

[1] Ya-Ping Guo, Jun-ying Lü, Qin-Fei Ke. Chapter 4: Mesoporous Bioactive Glasses: Fabrication, Structure, Drug Delivery Property, and Therapeutic Potential, Elsevier, 2018

5. 代表性授權專利

[1]郭亞平、張川建李孟娜樊怡冰程五魁蔣照遠;範章豪儲敏郭亞軍.一種羟基磷灰石/殼聚糖複合材料及其制備方法和應用(ZL 201911043801.5),授權日:2022.09.06

[2] 郭亞平趙培培柯勤飛郭翠香張川建.一種稀土磷酸鹽/生物活性高分子三維多孔複合材料、其制備方法和應用(ZL201810831941.8)授權日: 2021.06.25

[3]郭亞平胡敏範章豪李苗苗郭翠香柯勤飛.一種摻雜稀土元素的白磷礦/明膠三維多孔複合材料、其制備方法和應用(ZL201810896266.7),授權日:2021.06.25

[4] 郭亞平溫玺胡敏尹瑞柯勤飛徐合.球形介孔矽酸鈣/殼聚糖三維多孔支架材料、制備方法及應用(ZL201710732607.2),授權日:2020.10.16

[5] 郭亞平李敏柯勤飛溫玺徐合.一種高吸附-光催化性能的納米二氧化钛/活性炭纖維氈三維多孔材料及其制備方法(ZL201610737919.8),授權日:2018.11.16

[6] 郭亞平曹丹丹張輝田明俊柯勤飛.一種水滑石/殼聚糖三維多孔支架及其制備方法(ZL201510756110.5),授權日:2018.08.31

[7] 郭亞平、雷勇、陳偉、柯勤飛、郭亞軍. 碳酸根型羟基磷灰石/殼聚糖三維多孔複合材料及制法(ZL201510141968.0),授權日:2017.03.01

[8] 郭亞平、雷勇、曹丹丹、柯勤飛、徐合. 一種納米二氧化钛/殼聚糖三維多孔複合材料及其制備方法(ZL201510144031.9),授權日:2017.08.29

[9]郭亞平、郭亞軍、陳婷、褚聯峰. 一種有序介孔ZSM-5分子篩及其制備方法(ZL201310067265.9 ),授權日:2016.5.11

[10] 郭亞平、陳偉、雷勇、宋真富、柯勤飛. 一種具有取向磁場的磁性羟基磷灰石/高分子三維多孔支架材料及其制備方法(ZL201410334393.X)授權日:2016.3.30

[11] 郭亞平、郭亞軍、陳婷、褚聯峰. 微噴射自由成型系統制備三維有序多級孔分子篩催化劑(ZL201210594606.3),授權日:2015.9.9

[12] 郭亞平、陳偉、唐沙、柯勤飛、郭亞軍. 一種有序棒狀羟基磷灰石塗層及其制備方法(ZL201310333025.9),授權日:2015.4.1

[13] 郭亞平、餘錫賓、劉怡卓、陽俊. 磁性介孔生物玻璃藥物傳遞系統及其制備方法(ZL201210480060.9),授權日:2015.1.21

[14] 郭亞平、唐沙、柯勤飛、陳偉、郭亞軍. 碳纖維基羟基磷灰石/殼聚糖複合多孔支架材料及其制備方法(ZL201310210931.X),授權日:2014.10.29

[15] 郭亞平、唐沙、柯勤飛、宋真富、郭亞軍. 羟基磷灰石/殼聚糖複合塗層及其制備方法(ZL201310210932.4),授權日:2014.11.5

[16]郭亞平、姚勇波、郭亞軍、褚聯峰. 水熱法制備磁性介孔磷灰石微球材料的方法(ZL201010294228.8),授權日:2013.5.29


E-mail: ypguo@shnu.edu.cn


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