Enhanced photo-driven ion pump through silver nanoparticles decorated graphene oxide membranes

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摘要 Biology systems harvest solar energy to regulate ions and molecules precisely across cell membrane that is essential to maintain their life sustainability.Recently,artificial light-driven directional ion transport through graphene oxide membranes has been established,where the membrane converts light power into a transmembrane motive force.Herein,we report a silver nanoparticles decorated graphene oxide membranes for enhanced photo-driven ionic transport.Asymmetric light stimulated charge carrier dynamics,such as advanced light absorption efficiency,extended lifetime and efficient separation of photo-excited charge carriers,are account for the ion-driven force enhancement.Based on metal nanoparticles decoration,the concept of the guest-interactions of plasmon-enhanced photo-driven ion transport in two-dimentional layered membranes will stimulate broad researches in sensing,energy storage and conversion and water treatment.

作者 Yaping Feng Haoyu Dai Yi Zhang Jianjun Chen Fengxiang Chen Lei Jiang

机构地区 CAS Key Laboratory of Bio-inspired Materials and Interfacial Science University of Chinese Academy of Sciences National Engineering Laboratory for Advanced Municipal Wastewater Treatment and Reuse Technology Key Laboratory of New Textile Materials and Advanced Processing Technologies

出处《Nano Research》 SCIE EI CSCD 2022年第1期612-616,共5页 纳米研究（英文版）

基金 the National Natural Science Foundation of China(No.51603211) the 111 Project(No.B14009).

关键词 ion pump silver nanoparticles nanofluidics PHOTOCURRENT

分类号 TB383 [一般工业技术—材料科学与工程]

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参考文献7

1Kun Lu,Danlei Shen,Shipeng Dong,Chunying Chen,Sijie Lin,Shan Lu,Baoshan Xing,Liang Mao.Uptake of graphene enhanced the photophosphorylation performed by chloroplasts in rice plants[J].Nano Research,2020,13(12):3198-3205. 被引量：5
2Bihag Anothumakkool,Dominique Guyomard,Joel Gaubicher,Lenaic Madec.Interest of molecular functionalization for electrochemical storage[J].Nano Research,2017,10(12):4175-4200. 被引量：1
3Michael Coleman,Xiaowu (Shirley) Tang.Diffusive transport of two charge equivalent and structurally similar ruthenium complex ions through graphene oxide membranes[J].Nano Research,2015,8(4):1128-1138. 被引量：2
4Amir Lohrasebi,Samaneh Rikhtehgaran.Ion separation and water purification by applying external electric field on porous graphene membrane[J].Nano Research,2018,11(4):2229-2236. 被引量：2
5Haichen Liang,Xiyan Liu,Dongliang Gao,Jiangfeng Ni,Yan Li.Reduced graphene oxide decorated with Bi2O2.33 nanodots for superior lithium storage[J].Nano Research,2017,10(11):3690-3697. 被引量：3
6Khang June Lee,Cheolmin Park,Hyeok Jun Jin,Gwang Hyuk Shin,Sung-Yool Choi.Atomically thin heterostructure with gap-mode plasmon for overcoming trade-off between photoresponsivity and response time[J].Nano Research,2021,14(5):1305-1310. 被引量：1
7Chengyu Zhang,Fucan Jia,Zhuoyao Li,Xiao Huang,Gang Lu.Plasmon-generated hot holes for chemical reactions[J].Nano Research,2020,13(12):3183-3197. 被引量：3

二级参考文献52

1Sun, P. Z.; Zhu, M.; Wang, K. L.; Zhong, M. L.; Wei, J. Q.; Wu, D. H.; Xu, Z. P.; Zhu, H. W. Selective ion penetration of graphene oxide membranes. ACS Nano 2013, 7, 428437.
2Hu, M.; Mi, B. X. Enabling graphene oxide nanosheets as water separation membranes. Environ. Sci. Technol. 2013, 47, 3715 3723.
3Schneider, G. F.; Kowalczyk, S. W.; Calado, V. E.; Pandraud, G.; Zandbergen, H. W.; Vandersypen, L. M. K.; Dekker, C. DNA translocation through graphene nanopores. Nano. Lett. 2010, 10, 3163-3167.
4Wells, D.; Belkin, M.; Comer, J.; Aksimentiev, A. Assessing graphene nanopores for sequencing DNA. Nano. Lett. 2012, I2, 41174123.
5Ignat, M.; Van Oers, C.; Vemimmen, J.; Mertens, M.; Potgieter-Vermaak, S.; Meynen, V.; Popovici, E.; Cool, P. Textural property tuning of ordered mesoporous carbon obtained by glycerol conversion using SBA-15 silica as template. Carbon 2010, 48, 1609-1618.
6Han, S.; Hyeon, T. Novel silica-sol mediated synthesis ofhigh surface area porous carbons. Carbon 1999, 37, 1645 1647.
7Ryoo, R.; Joo, S.; Kntk, M.; Jaroniec, M. Ordered mesoporous carbons. Adv. Mater. 2001, 13, 677-681.
8Bagshaw, S.; Prouzet, E.; Pinnavaia, T. Templating of mesoporous molecular sieves by nonionic polyethylene oxide surfactants. Science 1995, 269, 1242-1244.
9Mi, B. X. Graphene oxide membranes for ionic and molecular sieving. Science 2014, 343, 740-742.
10Georgakilas, V.; Otyepka, M.; Bourlinos, A.; Chandra, V.; Kim, N.; Kemp, K.; Hobza, P.; Zboril, R.; Kim, K. S. Functionalization of graphene: Covalent and non-covalent approaches, derivatives and applications. Chem. Rev. 2012, 112, 6156-6214.

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1Kai Song,Yong Long,Xun Wang,Gang Zhou.Theoretical investigations of transport properties of organic solvents in cation-functionalized graphene oxide membranes： Implications for drug delivery[J].Nano Research,2018,11(1):254-263.
2金玉强.铋基材料作为锂离子电池负极材料的研究进展[J].山东化工,2020,49(10):85-85.
3Min Xi,Longchang Xu,Nian Li,Shudong Zhang,Zhenyang Wang.Plasmonic Cu_(27)S_(24)nanocages for novel solar photothermal nanoink and nanofilm[J].Nano Research,2022,15(4):3161-3169.
4Zhenzhen Dong,Jinbo Fei,Tonghui Wang,Xia Xu,Weiguang Dong,Junbai Li.Black Phosphorus Nanosheets Enhance Photophosphorylation by Positive Feedback[J].Chinese Journal of Chemistry,2022,40(8):939-945.
5Sili Lin,Wenlong Tan,Pengfei Han,Xu Li,Jinzhao Li,Zhou Nie,Kun Li.A photonanozyme with light-empowered specific peroxidasemimicking activity[J].Nano Research,2022,15(10):9073-9081.
6史大炜,伍纲,杨其长,程瑞锋.石墨烯材料在农业领域的应用研究进展[J].江苏农业科学,2023,51(7):39-48. 被引量：1
7Hangbin Lei,Qian Zhang,Xiaoyan Xiang,Liang Jiang,Shiyan Wang,Lingxuan Duan,Shizhen Wang.Metal-organic framework hybrid materials of ZIF-8/RGO for immobilization of D-amino acid dehydrogenase[J].Nano Research,2024,17(1):290-296.
8Yiwen Liao,Dawei Xu,Yuhong Cao,Yong-Guan Zhu.Advancing sustainable agriculture: Enhancing crop nutrition with next-generation nanotech-based fertilizers[J].Nano Research,2023,16(12):13205-13225.
9孙敏,郝毅,许鑫鑫,商和平,马传鑫.工程纳米材料抵抗作物病害的研究进展[J].生态与农村环境学报,2024,40(2):157-167.
10陈达.含氟废水处理工艺的改进[J].广州化工,2024,52(15):125-127.

1Yuan-Yuan Zhao,Xue-Liang Ren,Mei-Ling Zheng,Feng Jin,Jie Liu,Xian-Zi Dong,Zhen-Sheng Zhao,Xuan-Ming Duan.Plasmon-enhanced nanosoldering of silver nanoparticles for high-conductive nanowires electrodes[J].Opto-Electronic Advances,2021,4(12):25-33. 被引量：3
2Tian Ruixia,Zhou Detai,Su Jianjun,Zhang Jianchuan,Wang Yanyu.Ion pump control system designed for HIRFL[J].Radiation Detection Technology and Methods,2021,5(1):78-82.
3Jin Yang,Jingbo He,Xiaobin Zou,Bo Sun,Yong Sun,Chengxin Wang.Multi-time scale photoelectric behavior in facile fabricated transparent and flexible silicon nanowires aerogel membrane[J].Nano Research,2022,15(2):1609-1615. 被引量：1
4禾本(译).比利时:垂直种植草莓提效增质[J].中国果业信息,2022,39(2):36-37.
5王进,石文杰,金邻豫,马鹏涛,王敬平,牛景杨.两种砷钼杂化多酸盐的合成、结构及变色性质[J].高等学校化学学报,2022,43(1):118-123. 被引量：1
6Yu‑Xiang Hu,Lian‑Zhou Wang.Preface to the special issue on advanced preparation of tungsten-related materials and their applications[J].Tungsten,2020,2(4):335-336.
7Wei Ma,Hao Wan,Lili Zhang,Jin You Zheng,Zhen Zhou.Single-atom catalysts for electrochemical energy storage and conversion[J].Journal of Energy Chemistry,2021,30(12):170-194. 被引量：4
8Chao Li,Jie Li,Yanbin Huang,Jun Liu,Mengmeng Ma,Kong Liu,Chao Zhao,Zhijie Wang,Shengchun Qu,Lei Zhang,Haiyan Han,Wenshuang Deng,Zhanguo Wang.Recent development in electronic structure tuning of graphitic carbon nitride for highly efficient photocatalysis[J].Journal of Semiconductors,2022,43(2):24-34. 被引量：5
9Katsuo Sakai.A New Electrostatic Generator Driven by Only an Electric Field of an Electret[J].Journal of Electromagnetic Analysis and Applications,2021,13(12):161-171.
10SUN Pengfei,LI Kuiran,YI Shaokui,LI Hui,CHEN Xi.Effects of Silver Nanoparticles on Denitrification and Associated N_(2)O Release in Estuarine and Marine Sediments[J].Journal of Ocean University of China,2022,21(1):131-140.

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Enhanced photo-driven ion pump through silver nanoparticles decorated graphene oxide membranes

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