• Complex
  • Title
  • Keyword
  • Abstract
  • Scholars
  • Journal
  • ISSN
  • Conference
搜索
High Impact Results & Cited Count Trend for Year Keyword Cloud and Partner Relationship

Query:

学者姓名:纪树兰

Refining:

Source

Submit Unfold

Co-Author

Submit Unfold

Language

Submit

Clean All

Sort by:
Default
  • Default
  • Title
  • Year
  • WOS Cited Count
  • Impact factor
  • Ascending
  • Descending
< Page ,Total 33 >
Graphene oxide membranes with stable porous structure for ultrafast water transport. PubMed
期刊论文 | 2021 , 16 (3) , 337-343 | Nature nanotechnology
Abstract&Keyword Cite

Abstract :

The robustness of carbon nanomaterials and their potential for ultrahigh permeability has drawn substantial interest for separation processes. However, graphene oxide membranes (GOms) have demonstrated limited viability due to instabilities in their microstructure that lead to failure under cross-flow conditions and applied hydraulic pressure. Here we present a highly stable and ultrapermeable zeolitic imidazolate framework-8 (ZIF-8)-nanocrystal-hybridized GOm that is prepared by ice templating and subsequent in situ crystallization of ZIF-8 at the nanosheet edges. The selective growth of ZIF-8 in the microporous defects enlarges the interlayer spacings while also imparting mechanical integrity to the laminate framework, thus producing a stable microstructure capable of maintaining a water permeability of 60 l m-2 h-1 bar-1 (30-fold higher than GOm) for 180 h. Furthermore, the mitigation of microporous defects via ZIF-8 growth increased the permselectivity of methyl blue molecules sixfold. Low-field nuclear magnetic resonance was employed to characterize the porous structure of our membranes and confirm the tailored growth of ZIF-8. Our technique for tuning the membrane microstructure opens opportunities for developing next-generation nanofiltration membranes.

Cite:

Copy from the list or Export to your reference management。

GB/T 7714 Zhang Wen-Hai , Yin Ming-Jie , Zhao Qiang et al. Graphene oxide membranes with stable porous structure for ultrafast water transport. [J]. | Nature nanotechnology , 2021 , 16 (3) : 337-343 .
MLA Zhang Wen-Hai et al. "Graphene oxide membranes with stable porous structure for ultrafast water transport." . | Nature nanotechnology 16 . 3 (2021) : 337-343 .
APA Zhang Wen-Hai , Yin Ming-Jie , Zhao Qiang , Jin Cheng-Gang , Wang Naixin , Ji Shulan et al. Graphene oxide membranes with stable porous structure for ultrafast water transport. . | Nature nanotechnology , 2021 , 16 (3) , 337-343 .
Export to NoteExpress RIS BibTex
Nano-confinement-inspired metal organic framework/polymer composite separation membranes SCIE
期刊论文 | 2020 , 8 (33) , 17212-17218 | JOURNAL OF MATERIALS CHEMISTRY A
WoS CC Cited Count: 18
Abstract&Keyword Cite

Abstract :

A defect-free, robust and selective barrier is essential for manufacturing membranes with targeted high permeability and selectivity. Here we report a new route to engineering a separation composite membrane by confining both channels in nanoscale metal organic frameworks (MOFs) and charges in a polyelectrolyte in the inner space of a porous supportviaa counter-diffusion method. A simple thermal annealing treatment of the interface between the MOF, polymer and support favorably reduced voids inside this nano-confinement environment. As this composite membrane combines both the support and barrier as one, it minimizes mass transfer resistance of water molecules. In a separation test, it readily achieved the state-of-the-art permeance. This simple chemical approach to upgrade membrane structures will offer wide opportunities in separation devices.

Cite:

Copy from the list or Export to your reference management。

GB/T 7714 Li, Xiaoting , Wang, Naixin , Bao, Xinmin et al. Nano-confinement-inspired metal organic framework/polymer composite separation membranes [J]. | JOURNAL OF MATERIALS CHEMISTRY A , 2020 , 8 (33) : 17212-17218 .
MLA Li, Xiaoting et al. "Nano-confinement-inspired metal organic framework/polymer composite separation membranes" . | JOURNAL OF MATERIALS CHEMISTRY A 8 . 33 (2020) : 17212-17218 .
APA Li, Xiaoting , Wang, Naixin , Bao, Xinmin , Li, Qian , Li, Jie , Xie, Ya-Bo et al. Nano-confinement-inspired metal organic framework/polymer composite separation membranes . | JOURNAL OF MATERIALS CHEMISTRY A , 2020 , 8 (33) , 17212-17218 .
Export to NoteExpress RIS BibTex
用于有机溶剂体系分离的氧化石墨烯基复合膜的构筑 CSCD
期刊论文 | 2020 , 40 (01) , 352-359 | 膜科学与技术
CNKI Cited Count: 4
Abstract&Keyword Cite

Abstract :

膜技术在有机溶剂体系分离领域具有广阔的应用前景,但其在应用过程中选择性与渗透性博弈的Trade-off现象是限制其发展的主要瓶颈.在保证分离层致密完整的前提下,构筑高效稳定的选择性传质通道为解决该问题提供了新策略,其中具有二维片层结构、丰富的功能化基团及良好机械强度的氧化石墨烯(GO)已成为极具潜力的构筑基元.通过对GO纳米片的功能化改性及对成膜组装过程的优化调控以构筑有机小分子快速传质的渗透通道,可实现GO基复合膜在有机溶剂纳滤和优先透有机物渗透汽化领域的应用.文中总结了近年来课题组在这一领域的研究进展.

Keyword :

渗透汽化 渗透汽化 有机溶剂纳滤 有机溶剂纳滤 传质通道 传质通道 氧化石墨烯 氧化石墨烯

Cite:

Copy from the list or Export to your reference management。

GB/T 7714 汪林 , 纪树兰 , 王乃鑫 et al. 用于有机溶剂体系分离的氧化石墨烯基复合膜的构筑 [J]. | 膜科学与技术 , 2020 , 40 (01) : 352-359 .
MLA 汪林 et al. "用于有机溶剂体系分离的氧化石墨烯基复合膜的构筑" . | 膜科学与技术 40 . 01 (2020) : 352-359 .
APA 汪林 , 纪树兰 , 王乃鑫 , 张文海 , 安全福 , 王晓琳 . 用于有机溶剂体系分离的氧化石墨烯基复合膜的构筑 . | 膜科学与技术 , 2020 , 40 (01) , 352-359 .
Export to NoteExpress RIS BibTex
PEC/g-C_3N_4杂化膜的制备及其渗透汽化性能研究 CSCD
期刊论文 | 2020 , 40 (02) , 67-74 | 膜科学与技术
CNKI Cited Count: 2
Abstract&Keyword Cite

Abstract :

将石墨态氮化碳(g-C_3N_4)和聚电解质络合物(PEC)相结合,以聚丙烯腈(PAN)超滤膜为基底制备PEC/g-C_3N_4杂化膜,考察了杂化膜的渗透汽化有机溶剂脱水性能.用傅里叶红外光谱、扫描电镜和低场核磁等表征了杂化膜的组成、形貌和水在膜中的状态.研究了g-C_3N_4含量、PEC浓度和抽滤溶液体积等成膜因素和进料液温度、进料液水含量、分离体系等操作条件对杂化膜渗透汽化性能的影响.结果表明,在最优制膜条件和操作温度下,PEC/g-C_3N_4杂化膜对进料液中乙醇质量分数为90%的乙醇/水体系通量和透过液水质量分数分别为2 560 g/(m~2·h)和98.0%,且PEC/g-C_3N_...

Keyword :

渗透汽化 渗透汽化 PEC PEC g-C_3N_4 g-C_3N_4 乙醇脱水 乙醇脱水 杂化膜 杂化膜

Cite:

Copy from the list or Export to your reference management。

GB/T 7714 李小晴 , 李杰 , 王乃鑫 et al. PEC/g-C_3N_4杂化膜的制备及其渗透汽化性能研究 [J]. | 膜科学与技术 , 2020 , 40 (02) : 67-74 .
MLA 李小晴 et al. "PEC/g-C_3N_4杂化膜的制备及其渗透汽化性能研究" . | 膜科学与技术 40 . 02 (2020) : 67-74 .
APA 李小晴 , 李杰 , 王乃鑫 , 纪树兰 , 安全福 . PEC/g-C_3N_4杂化膜的制备及其渗透汽化性能研究 . | 膜科学与技术 , 2020 , 40 (02) , 67-74 .
Export to NoteExpress RIS BibTex
Vacuum -assisted assembly of iron cage intercalated layered double hydroxide composite membrane for water purification SCIE
期刊论文 | 2020 , 603 | JOURNAL OF MEMBRANE SCIENCE
WoS CC Cited Count: 15
Abstract&Keyword Cite

Cite:

Copy from the list or Export to your reference management。

GB/T 7714 Wang, Naixin , Li, Qian , Li, Xiaoting et al. Vacuum -assisted assembly of iron cage intercalated layered double hydroxide composite membrane for water purification [J]. | JOURNAL OF MEMBRANE SCIENCE , 2020 , 603 .
MLA Wang, Naixin et al. "Vacuum -assisted assembly of iron cage intercalated layered double hydroxide composite membrane for water purification" . | JOURNAL OF MEMBRANE SCIENCE 603 (2020) .
APA Wang, Naixin , Li, Qian , Li, Xiaoting , Zhang, Wenhai , Ji, Shulan , An, Quan-Fu . Vacuum -assisted assembly of iron cage intercalated layered double hydroxide composite membrane for water purification . | JOURNAL OF MEMBRANE SCIENCE , 2020 , 603 .
Export to NoteExpress RIS BibTex
Enhanced permeance for PDMS organic solvent nanofiltration membranes using modified mesoporous silica nanoparticles SCIE
期刊论文 | 2020 , 612 | JOURNAL OF MEMBRANE SCIENCE
WoS CC Cited Count: 42
Abstract&Keyword Cite

Abstract :

Organic solvent nanofiltration (OSN) is emerging as an efficient and emerging approach for separation and purification of solute from organic solvents, which however were severely underdeveloped because of the low permeance of membranes. Herein, a novel mixed matrix membrane (MMM) was developed by incorporation of modified mesoporous silica nanoparticle (MSN) into commercially-available polydimethylsiloxane (PDMS) matrix for removal of trace impurities, such as Evans blue or vitamin B12, from different organic solvents. Notably, because of the designed nanoscale spaces originated from MSN, the permeance of the optimized MMM reached up to 31.2 L m(-2).h(-1).MPa-1, around 17-fold enhancement compared with that of pristine PDMS membrane. Low-field nuclear magnetic resonance was employed to trace the solvent state in the MMM. The MMM exhibited high MeOH absorption capability but low-swelling attribute, certificating the high permeance and long-term stability of the MMM. The MMM was stably tested in MeOH solution for more than 80 h, indicating the great promise for future practical OSN applications.

Keyword :

Nanohybrid Nanohybrid Low-field nuclear magnetic resonance Low-field nuclear magnetic resonance Organic solvent nanofiltration Organic solvent nanofiltration Mesoporous silica nanoparticles Mesoporous silica nanoparticles Polydimethylsiloxane Polydimethylsiloxane

Cite:

Copy from the list or Export to your reference management。

GB/T 7714 Li, Chong , Li, Jie , Zhang, Wen-Hai et al. Enhanced permeance for PDMS organic solvent nanofiltration membranes using modified mesoporous silica nanoparticles [J]. | JOURNAL OF MEMBRANE SCIENCE , 2020 , 612 .
MLA Li, Chong et al. "Enhanced permeance for PDMS organic solvent nanofiltration membranes using modified mesoporous silica nanoparticles" . | JOURNAL OF MEMBRANE SCIENCE 612 (2020) .
APA Li, Chong , Li, Jie , Zhang, Wen-Hai , Wang, Naixin , Ji, Shulan , An, Quan-Fu . Enhanced permeance for PDMS organic solvent nanofiltration membranes using modified mesoporous silica nanoparticles . | JOURNAL OF MEMBRANE SCIENCE , 2020 , 612 .
Export to NoteExpress RIS BibTex
Hollow Polyhedron-Modified Graphene Oxide Membranes for Organic Solvent Nanofiltration with Enhanced Permeance SCIE
期刊论文 | 2020 , 3 (6) , 5874-5880 | ACS APPLIED NANO MATERIALS
WoS CC Cited Count: 19
Abstract&Keyword Cite

Abstract :

Organic solvent nanofiltration (OSN) is an emerging membrane-based technology for molecular separation. The design and fabrication of membranes with unique structures are important to obtain high performance. Herein, ZIF-8 nanoparticles are grown in situ on the surface of graphene oxide (GO) nanosheets and then assembled on a tubular ceramic substrate through a vacuum-assisted assembly method. ZIF-8 anchored on the GO nanosheets is evolved into ZnS polyhedra with a hollow structure through in situ sulfurization. The formed ZnS@GO membrane is composed of a layered structure of GO with the interlayer intercalated by ZnS hollow polyhedra and demonstrates high permeance for organic solvents. Compared to that of the ZIF-8@GO membrane, the permeance of the ZnS@GO membrane is enhanced by 4.4-fold when separating dyes from methanol, indicating their promising potential in the application of organic solvent nanofiltration.

Keyword :

graphene oxide graphene oxide ZIF-8 derivatives ZIF-8 derivatives organic solvent nanofiltration organic solvent nanofiltration high permeance high permeance in situ sulfurization in situ sulfurization

Cite:

Copy from the list or Export to your reference management。

GB/T 7714 Wang, Naixin , Sun, Hao , Yang, Hengyu et al. Hollow Polyhedron-Modified Graphene Oxide Membranes for Organic Solvent Nanofiltration with Enhanced Permeance [J]. | ACS APPLIED NANO MATERIALS , 2020 , 3 (6) : 5874-5880 .
MLA Wang, Naixin et al. "Hollow Polyhedron-Modified Graphene Oxide Membranes for Organic Solvent Nanofiltration with Enhanced Permeance" . | ACS APPLIED NANO MATERIALS 3 . 6 (2020) : 5874-5880 .
APA Wang, Naixin , Sun, Hao , Yang, Hengyu , Li, Xiaoting , Ji, Shulan , An, Quan-Fu . Hollow Polyhedron-Modified Graphene Oxide Membranes for Organic Solvent Nanofiltration with Enhanced Permeance . | ACS APPLIED NANO MATERIALS , 2020 , 3 (6) , 5874-5880 .
Export to NoteExpress RIS BibTex
Recovery of bio-butanol from aqueous solution with ZIF-8 modified graphene oxide composite membrane SCIE
期刊论文 | 2020 , 598 | JOURNAL OF MEMBRANE SCIENCE
WoS CC Cited Count: 25
Abstract&Keyword Cite

Abstract :

Recovery of butanol is a potential biofuel production process, which can be achieved through membrane separation technology. In this study, Zeolitic Imidazolate Framework-8 (ZIF-8) modified graphene oxide (ZGO) with polyether block amide (PEBA) was deposited on ceramic tubular substrate to prepare composite membrane for bio-butanol recovery. ZGO laminates can be used to form transport channels for butanol molecules to enhance the permeance. The affinity of laminate to butanol was improved because of the hydrophobic ZIF-8 particles. Therefore, the separation performance of ZGO/PEBA membrane was enhanced. The microstructure and chemical property of the ZGO/PEBA membranes were characterized. Different preparation and operation conditions were also investigated to optimize the separation performance. Moreover, ZGO/PEBA composite membranes were evaluated in model acetone-butanol-ethanol (ABE) solution, which also exhibited high butanol recovery performance. Therefore, this facile strategy may provide a potential application in the commercialized ABE fermentation process.

Keyword :

Biobutanol recovery Biobutanol recovery PEBA PEBA ZIF-8 ZIF-8 Pervaporation Pervaporation Graphene oxide Graphene oxide

Cite:

Copy from the list or Export to your reference management。

GB/T 7714 Li, Wenhui , Li, Jie , Wang, Naixin et al. Recovery of bio-butanol from aqueous solution with ZIF-8 modified graphene oxide composite membrane [J]. | JOURNAL OF MEMBRANE SCIENCE , 2020 , 598 .
MLA Li, Wenhui et al. "Recovery of bio-butanol from aqueous solution with ZIF-8 modified graphene oxide composite membrane" . | JOURNAL OF MEMBRANE SCIENCE 598 (2020) .
APA Li, Wenhui , Li, Jie , Wang, Naixin , Li, Xiaoting , Zhang, Yifan , Ye, Qing et al. Recovery of bio-butanol from aqueous solution with ZIF-8 modified graphene oxide composite membrane . | JOURNAL OF MEMBRANE SCIENCE , 2020 , 598 .
Export to NoteExpress RIS BibTex
Covalent organic frameworks hybird membrane with optimized mass transport nanochannel for aromatic/aliphatic mixture pervaporation SCIE
期刊论文 | 2020 , 598 | JOURNAL OF MEMBRANE SCIENCE
WoS CC Cited Count: 34
Abstract&Keyword Cite

Abstract :

Building up selective mass transfer channels in polymeric membranes is a promising strategy to fabricate effective separation membranes. Herein, a thioether-functionalized hydrazone-linked covalent organic framework, COF-LZU8, pre-modified by Ag ion, was incorporated for constructing aromatic selective channels within a commercial poly (ether-block amide) (Pebax 2533) membrane. The inside nanochannels of resulting membrane were effectively confirmed by measuring the affinity and the selective free volume to toluene via quartz crystal microbalance and low-field nuclear magnetic resonance. Owing to the selective channels, the Ag-COF-LZU8/Pebax membrane presented a considerably enhanced performance for toluene/n-heptane separation comparing with pristine Pebax membranes. The optimized membrane could perform a permeation flux of 293 g/m(2)h and a separation factor of 4.03 for the separation of 50 wt% toluene/n-heptane mixture.

Keyword :

Pebax Pebax Pervaporation Pervaporation Hybrid membrane Hybrid membrane Covalent organic frameworks (COFs) Covalent organic frameworks (COFs) Aromatic/aliphatic hydrocarbons Aromatic/aliphatic hydrocarbons

Cite:

Copy from the list or Export to your reference management。

GB/T 7714 Zhang, Lilong , Wang, Lin , Wang, Naixin et al. Covalent organic frameworks hybird membrane with optimized mass transport nanochannel for aromatic/aliphatic mixture pervaporation [J]. | JOURNAL OF MEMBRANE SCIENCE , 2020 , 598 .
MLA Zhang, Lilong et al. "Covalent organic frameworks hybird membrane with optimized mass transport nanochannel for aromatic/aliphatic mixture pervaporation" . | JOURNAL OF MEMBRANE SCIENCE 598 (2020) .
APA Zhang, Lilong , Wang, Lin , Wang, Naixin , Guo, Hongxia , Zhang, Wen-Hai , Li, Xiaoting et al. Covalent organic frameworks hybird membrane with optimized mass transport nanochannel for aromatic/aliphatic mixture pervaporation . | JOURNAL OF MEMBRANE SCIENCE , 2020 , 598 .
Export to NoteExpress RIS BibTex
3D re-crosslinking of an acid-resistant layer on NaA tubular membrane for application in acidic feed SCIE
期刊论文 | 2019 , 589 | JOURNAL OF MEMBRANE SCIENCE
WoS CC Cited Count: 7
Abstract&Keyword Cite

Abstract :

NaA membranes are recognized as one of the most promising materials for fabrication of high-performance pervaporation membrane for dehydration, which has been widely employed in dehydration industry. However, the chemical structure breakage of NaA in acidic conditions severely hampered the application of NaA membrane in purification of biomass fermentation. In order to overcome this bottleneck, we proposed construction of a protective acid-resistant skin on the 3D surface of NaA tube. The protective layer was prepared by self-assembly of sodium alginate (SA) and CaCl2, which formed the 'egg-box' network via crosslinking SA with Ca2+. The effect of cross-linking, SA concentration, layer numbers and operation pH on the membrane performance was investigated. When applied for pervaporation at acidic feed, the protective skin was partly broken, but it can be re-crosslinked again by simple ionic exchange to form a solid acid-resistant skin. After the re-crosslinking treatment, the performance of membrane can be recovered (the water content in the permeate and the flux were 99.6 wt% and 860 g/(m(2)h), respectively) with operation condition at pH = 2. Notably, the membrane can be continuously operated in acid feed for 100 h and showed no obvious performance degradation.

Keyword :

Pervaporation Pervaporation Acid-resistant Acid-resistant Re-crosslinking Re-crosslinking NaA NaA

Cite:

Copy from the list or Export to your reference management。

GB/T 7714 Li, Jie , Li, Chong , Li, Xiaoqing et al. 3D re-crosslinking of an acid-resistant layer on NaA tubular membrane for application in acidic feed [J]. | JOURNAL OF MEMBRANE SCIENCE , 2019 , 589 .
MLA Li, Jie et al. "3D re-crosslinking of an acid-resistant layer on NaA tubular membrane for application in acidic feed" . | JOURNAL OF MEMBRANE SCIENCE 589 (2019) .
APA Li, Jie , Li, Chong , Li, Xiaoqing , Wang, Naixin , Ji, Shulan , An, Quan-Fu . 3D re-crosslinking of an acid-resistant layer on NaA tubular membrane for application in acidic feed . | JOURNAL OF MEMBRANE SCIENCE , 2019 , 589 .
Export to NoteExpress RIS BibTex
10| 20| 50 per page
< Page ,Total 33 >

Export

Results:

Selected

to

Format:
Online/Total:396/5938662
Address:BJUT Library(100 Pingleyuan,Chaoyang District,Beijing 100124, China Post Code:100124) Contact Us:010-67392185
Copyright:BJUT Library Technical Support:Beijing Aegean Software Co., Ltd.