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刘壮 博士
发表学术期刊论文 SCI收录论文
[1]
Fan
Z.W., Zhang J., Zuo B.Y., Tian X.B., Wang Z.F., Ju X.J., Xie R., Wang W., Pan
D.W., Liu Z.*, Chu L.Y., 2024. Biomimetic Guttation Feature in
Two-dimensional Hydrotalcite Membranes for Self-sustaining Water
Purification. Advanced Functional Materials (2022 IF=19.0), in press. [2]
Jiang
L.L., Deng Y.Z., Luo T., Xie R., Ju X.J., Wang W., Pan D.W.,
Liu Z.*, Chu L.Y., 2024. A smart membrane with negative
thermo-responsiveness in battery electrolyte solution. Journal
of Membrane Science (2022 IF = 9.5), 692: 122266. 2023 [1] Sun M.W.#, Li Z.#, Wang Q.Y.#, Zhang N.*,
Xie R., Ju X.J., Wang W., Liu Z.*,
[2]
Cao
T.X., Xie R., Ju X.J., Wang W., Pan D.W, Liu Z.*,
[3] Wang F., Liu Z.*, Zou L.B., Xie R., Ju X.J., Wang W., Pan D.W., Chu L.Y.*, 2023. A universal model for describing responsive performances of
both positively and negatively responsive smart gating membranes. Journal of Membrane Science (2022 IF = 9.5), 668: 121235. [4]
Liu
L.Y., Liu Z.*, Wang Q.Y., Wang F., Li
J., Xie R., Ju X.J., Wang W., Pan D.W., Chu L.Y.*,
2023. Porous
functional materials with excellent solar-thermal and electro-thermal
properties for desalination of saline water. Separation and
Purification Technology (2022 IF = 8.6), 310: 123184. [5]
Tang
X.Y., Liu Z.*, Liu W.Y., Pu X.Q., Liu L.Y., Chen S.K., Xie R.,
Ju X.J., Wang W., Chu L.Y.*, 2023. Moisture-responsive actuators based on
hyaluronic acid with biocompatibility and fast response as smart breather
valves. ACS Applied Polymer Materials (2022 IF
= 5.0), 5(1): 815-827. [6]
Wang
F., Liu Z.*, Xie R., Ju X.J., Wang W., Pan D.W., Chu L.Y.*,
2023. Poly(N-isopropylmethacrylamide-co-4-acrylamidobenzo-18-crown-6)
microgels with expanded networks for excellent adsorption of lead(II) ions. Particuology (2022
IF = 3.5), 77: 105-115.
2022 [1]
Wang
P., Zhang Y.L., Fu K.L., Liu Z.*,
Zhang L., Liu C., Deng Y., Xie R., Ju X.J., Wang W., Chu L.Y., 2022.
Zinc-coordinated Polydopamine Surface with Nanostructure and
Superhydrophilicity for Anti-biofouling and Antibacteria. Materials Advances(2022 IF = 5.0), 3,
5476-5487. [2] Qin H.Y., Liu Z.*, Yang X.D., Liu Y.Q., Xie R., Ju X.J., Wang W.,
Chu L.Y.*, 2022. Pseudo Polyampholytes with Sensitively Ion-Responsive
Conformational Transition Based on Positively Charged Host-Guest Complexes. Macromolecular
Rapid Communications (2022
IF=4.6), 43(11): 2200127. [3] Tang X.Y., Liu Z.*, Xie R., Ju X.J., Wang W., Chu L.Y.*, 2022. Humidity-responsive Actuators Based on Firm Heterojunction of
Glycerol-crosslinked Polyvinyl Alcohol and Porous Polyvinylidene Fluoride as
Smart Gates for Anti-condensation. Industrial
& Engineering Chemistry Research (2022
IF=4.2), 61(23): 8101-8111. [4] Liu L.Y., Liu Z.*, Peng H.Y., Mu X.T., Zhao Q., Ju
X.J., Wang W., Xie R., Chu L.Y.*, 2022. Reduced Graphene Oxide Modified Melamine Sponges Filling with Paraffin
for Efficient Solar-Thermal Conversion and Heat Management. Chinese
Journal of Chemical Engineering (2022
IF = 3.8), 41: 497-506. 2021 [1] Liu Z.*, Zhai Y.M., Zhou K.G., Chu L.Y.*, 2021. Advanced
membranes with responsive two-dimensional nanochannels. Advanced Membranes,
1(1): 100012. Invited Paper This work has been
featured in the Back
Cover [2] Chen Z.H., Liu Z.*, Zhang L.,
Cai Q.W., Hu J.Q., Wang W., Ju X.J.,
Xie R., Chu L.Y.*, 2021. Functional
Graphene Oxide Nanosheets Modified with Cyclodextrins for Removal of
Bisphenol A from Water. Chinese Journal of Chemical Engineering (2022 IF = 3.8), 39: 79-87. 2020 [3]
Chen
Z.H., Liu Z.*,
Hu J.Q., Cai Q.W., Li X.Y., Wang W., Faraj Y., Ju X.J., Xie R., Chu L.Y.*,
2020. β-Cyclodextrin-modified graphene oxide membranes with
large adsorption capacity and high flux for efficient removal of bisphenol A
from water. Journal of Membrane Science (2022 IF
= 9.5), 595: 117510. [4]
Zhang
L.P., Liu Z.*,
Zhou X.L., Zhang C., Cai Q.W., Xie R., Ju X.J., Wang W., Faraj Y., Chu L.Y.*,
2020. Novel composite membranes for simultaneous catalytic degradation of
organic contaminants and adsorption of heavy metal ions. Separation and
Purification Technology (2022IF
= 8.6), 237: 116364. [5]
Hu J.Q., Liu Z.*, Chen
Z.H., Cai Q.W.,
Li
X.Y., Xie R., Ju X.J., Wang W., Chu L.Y.*,
2020. Hybrid
Graphene Oxide/Laponite Layered Membranes with Stable 2D Nanochannels for
Efficient Separations in Aqueous Environments. Industrial & Engineering Chemistry Research (2022 IF = 4.2),
59(27): 12441-12450. [6] Wen X.Y., Liu Z.*,
Wang J., Tang X.Y., Wang W., Ju X.J., Xie R., Chu L.Y., 2019.
Nanocomposite hydrogels with optic-sonic transparency and
hydroacoustic-sensitive conductivity for potential anti-scouting sonar. ACS
Applied Materials & Interfaces (2022 IF = 9.5), 11(22):
20386-20393. [7] Hu J.Q., Liu Z.*,
Deng K., Chen Z.H., Cai Q.W., Faraj Y., Xie R., Ju X.J., Wang W., Chu
L.Y.*, 2019. A novel membrane with
ion-recognizable copolymers in graphene-based nanochannels for facilitated transport of potassium
ions. Journal of Membrane Science (2022 IF = 9.5),
590: 117275. [8] Wang Y., Liu Z.*,
Luo F., Peng H.Y., Zhang S.G., Xie R., Ju X.J., Wang W., Faraj Y., Chu
L.Y.*, 2019. A novel smart membrane
with ion-recognizable nanogels as gates on interconnected pores for simple
and rapid detection of trace lead(II) ions in water. Journal of
Membrane Science (2022 IF = 9.5), 575: 28-37. [9] Zhang L.P., Liu Z.*,
Faraj Y., Zhao Y., Zhuang R., Xie R., Ju X.J., Wang W., Chu L.Y.*,
2019. High-flux efficient
catalytic membranes incorporated with iron-based Fenton-like catalysts for
degradation of organic pollutants. Journal of Membrane Science (2022 IF = 9.5),
573: 493-503. [10] Deng K., Liu Z.*, Hu
J.Q., Liu W.Y., Zhang L., Xie R., Ju X.J., Wang W., Chu L.Y.*,
2019. Composite bilayer films with organic compound-triggered bending
properties. Chinese Journal of Chemical Engineering (2022 IF = 3.8), 27(10):
2587-2595. [1] Xie R., Luo F., Zhang L., Guo S.F., Liu
Z.*, Ju X.J., Wang W., Chu L.Y.*,
2018. A Novel Thermo-responsive
Catalytic Membrane with Multi-scale Pores Prepared via Vapor-induced Phase
Separation. Small (2022 IF = 13.3), 14(18): 1703650. Invited Paper for the Special Issue of “Multi-Scale
Pores and Channels” [2]
Zhang L., Liu Z.*,
Liu L.Y., Pan J.L., Luo F., Yang C., Xie R., Ju X.J., Wang W., Chu
L.Y.*, 2018. Nanostructured Thermo-responsive Surfaces Engineered via Stable
Immobilization of Smart Nanogels with Assistance of Polydopamine. ACS
Applied Materials & Interfaces (2022 IF = 9.5), 10(50): 44092-44101. [3]
Xi
Y.H., Liu Z.*,
Ji J.Y., Wang Y., Faraj Y., Zhu Y.D., Xie R., Ju X.J., Wang W., Lu
X.H., Chu L.Y.*, 2018. Graphene-based membranes
with uniform 2D nanochannels for precise sieving of mono-/multi-valent metal
ions. Journal of Membrane Science (2022 IF = 9.5), 550: 208-218. [4]
Xi Y.H., Liu Z.*,
Liao Q.C., Xie R., Ju X.J., Wang W., Faraj Y., Chu L.Y.*, 2018. Effect of
oxidized-group-supported lamellar distance on stability of graphene-based
membranes in aqueous solutions. Industrial & Engineering Chemistry
Research (2022 IF = 4.2), 57(29): 9439-9447. [5]
Wang Y., Liu Z.*,
Peng H.Y., He F., Zhang L., Faraj Y., Wang W., Ju X.J., Xie R., Chu L.Y.*,
2018. A Simple Device Based on Smart Hollow Microgels for Facile Detection of
Trace Lead(II) Ions. ChemPhysChem (2022 IF = 2.9), 19(16): 2025-2036. Invited Paper for the Special Issue of “Smart Materials” [6]
Liu Z., Faraj Y., Ju X.J., Wang
W., Xie R., Chu L.Y.*, 2018. Nanocomposite Smart Hydrogels with Improved
Responsiveness and Mechanical Properties: a Mini Review. Journal of
Polymer Science, Part B: Polymer Physics (2022 IF = 3.4), 56(19): 1306-1313. Invited Paper for the Special Issue of “Tough Responsive
Hydrogels and Applications as Smart Devices” [7]
Liu Z., Wei J., Faraj Y., Ju X.J., Xie R., Wang W., Chu L.Y.*, 2018.
Smart hydrogels: network design and emerging applications. The Canadian
Journal of Chemical Engineering (2022 IF = 2.1), 96(10): 2100-2114. Invited Paper for the Special Issue of “Voice from China” 2017 [1]
Liu Z., Wang W., Ju X.J.,
Xie R., Chu L.Y.*, 2017. Graphene-based membranes for molecular
and ionic separations in aqueous environments. Chinese Journal of
Chemical Engineering (2022 IF = 3.8), 25(11): 1598-1605.
[2]
Liu Z., Ju X.J., Wang W.,
Xie R., Jiang L., Chen Q., Zhang Y.Q., Wu J.F.*, Chu L.Y.*,
2017, Stimuli-responsive capsule membranes for controlled release in
pharmaceutical applications. Current Pharmaceutical Design (2022 IF = 3.1), 23(2): 295-301.
[3]
Zhang
L., Liu Z.*, Liu
L.Y., Ju X.J., Wang W., Xie R., Chu L.Y.*,
2017. Novel
Smart Microreactors Equipped with Responsive Catalytic Nanoparticles on
Microchannels. ACS Applied Materials & Interfaces (2022 IF =9.5),
9(38): 33137-33148. [4]
Shi K., Liu Z.*, Yang
C., Li X.Y., Sun Y.M., Deng Y., Wang W., Ju X.J., Xie R., Chu
L.Y.*, 2017. Novel Biocompatible Thermoresponsive Poly(N-vinyl
Caprolactam)/Clay Nanocomposite Hydrogels with Macroporous Structure and
Improved Mechanical Characteristics. ACS Applied Materials &
Interfaces (2022 IF =9.5), 9(26): 21979-21990. [5]
Yang
C., Liu Z.*,
Chen C., Shi K., Zhang L., Ju X.J., Wang W., Xie R., Chu L.Y.*,
2017. Reduced
Graphene Oxide-Containing Smart Hydrogels with Excellent Electro-Response and
Mechanical Property for Soft Actuators. ACS Applied Materials &
Interfaces (2022 IF =9.5), 9(18): 15758-15767. [6] Zhang L., Liu Z.*, Wang Y., Xie R., Ju X.J., Wang
W., Lin L.G., Chu L.Y.*, 2017. Facile immobilization of Ag
nanoparticles on microchannel walls in microreactors for catalytic
applications. Chemical Engineering Journal (2022 IF =15.1), 309: 691-699. [7] Yu H.R., Hu J.Q., Liu Z.*, Ju X.J., Xie R., Wang W., Chu
L.Y.*, 2017. Ion-recognizable hydrogels for efficient removal of cesium ions
from aqueous environment. Journal of Hazardous Materials (2022 IF = 13.6), 323: 632-640. [8] Deng K., Liu Z.*, Luo F., Xie R., He X.H., Jiang M.Y.,
Ju X.J., Wang W., Chu L.Y.*, 2017.Controllable fabrication
of polyethersulfone hollow fiber membranes
with a facile double co-axial microfluidic device. Journal of
Membrane Science (2022 IF = 9.5), 526: 9-17. [9]
Wei
Y.Y., Liu Z.*,
Luo F., Zhang L., Wang W., Ju X.J., Xie R., Chu L.Y.*,
2017. A novel poly(N-isopropylacrylamide-co-acryloylamidobenzo-12-crown-4)
microgel with rapid stimuli-responsiveness for molecule-specific adsorption
of gamma-cyclodextrin. Macromolecular Chemistry & Physics (2022 IF = 2.5), 218(20): 1700216. [1]
Liu Z., Wang W., Xie R.*,
Ju X.J., Chu L.Y.*, 2016. Stimuli-responsive smart gating membranes.Chemical Society
Reviews (2022 IF = 46.2), 45(3): 460-475.
[2]
Liu Z., Ju X.J., Huang
Y.H., Xie R., Wang W., Lee K.R., Chu L.Y.*, 2016. Diffusional
permeability characteristics of positively K+-responsive
membranes caused by spontaneously changing membrane pore size and
surface wettability. Journal of Membrane Science (2021 IF = 9.5), 497: 328-338. [3]
Yao C.,
Liu Z.*, Yang
C., Wang W., Ju X.J., Xie R., Chu L.Y.*, 2016. Smart hydrogels
with inhomogeneous structures assembled using nanoclay-crosslinked hydrogel
subunits as building blocks. ACS Applied Materials & Interfaces
(2021 IF =9.5), 8(33): 21721-21730. [4]
Xi Y.H.#,
Hu J.Q.#, Liu Z.*,
Xie R., Ju X.J., Wang W., Chu L.Y.*, 2016. Graphene oxide
membranes with strong stability in aqueous solutions and controllable
lamellar spacing. ACS Applied Materials & Interfaces (2021 IF =9.5), 8(24):
15557-15566. (#Contributed equally) [1]
Yao C., Liu Z.*, Yang C., Wang W., Ju X.J., Xie R., Chu L.Y.*, 2015.
Poly(N-isopropylacrylamide)-clay
nanocomposite hydrogels with responsive bending property as
temperature-controlled manipulators. Advanced
Functional Materials (2021 IF = 19.0),
25(20): 2980-2991.
[2]
Shi K., Liu Z.*, Wei Y.Y., Wang W., Ju X.J., Xie R., Chu
L.Y.*, 2015, Near-infrared light-responsive poly(N-isopropylacrylamide)/graphene
oxide nanocomposite hydrogels with ultrahigh
tensibility. ACS Applied
Materials & Interfaces (2021 IF =19.0),
7(49), 27289-27298. [1] Wang
Y.M., Ju X.J.*, Liu Z., Xie
R., Wang W., Wu J.F., Zhang Y.Q., Chu L.Y., 2014. Competitive
molecular-/ion-recognition responsive characteristics of poly(N-isopropylacrylamide-co-benzo-12-crown-4-acrylamide)
copolymers with benzo-12-crown-4 as both guest and host units. Macromolecular
Rapid Communications (2021 IF = 4.6), 35(14): 1280-1286.
2013 [1] Liu Z., Luo F., Ju X.J.*,
Xie R., Sun Y.M., Wang W., Chu L.Y.*, 2013. Gating membranes for water treatment: Detection
and removal of trace Pb2+ ions based on molecular recognition and
polymer phase transition. Journal of Materials Chemistry A (2022 IF = 11.9), 1(34): 9659-9671.
[1] Liu Z., Luo F., Ju X.J.*, Xie R.,
Luo T., Sun Y.M., Chu L.Y.*, 2012. Positively K+-responsive membranes
with functional gates driven by host-guest molecular recognition. Advanced Functional Materials (2022 IF = 19.0), 22(22): 4742-4750.
[1]
Liu Z.,
Liu L., Ju X.J.*, Xie
R., Zhang B., Chu L.Y.*, 2011. K+-recognition capsules with
squirting release mechanisms. Chemical Communications (2022 IF = 4.9), 47(45): 12283-12285.
[1]
刘壮, 汪伟, 巨晓洁, 谢锐, 褚良银*.具有限域传质效应的碳基分离膜——从碳纳米管到石墨烯膜.化工学报, 69(1): 166-174.(特邀综述) [2]
刘壮, 谢锐, 巨晓洁, 汪伟, 褚良银*.环境刺激响应型高强度智能水凝胶的研究进展.化工进展. 2016, 35(6): 1812-1819.(特邀综述) [3]
刘壮, 谢锐, 巨晓洁, 汪伟, 褚良银*. 具有快速响应特性的环境响应型智能水凝胶的研究进展.化工学报. 2016, 67(1): 202-208.(特邀综述) [4]
刘壮, 谢锐, 巨晓洁, 汪伟, 褚良银*. 分子识别响应型智能膜的研究进展. 科学通报. 2015, 60(27): 2621-2630.(特邀综述) [5]
刘壮, 巨晓洁, 谢锐, 汪伟, 褚良银*,Pb2+识别响应型智能高分子功能材料的研究进展. 化工学报, 2014, 65(5): 1571-1576.(国家重点基础研究发展计划(973计划)项目“生物甲烷系统中若干过程高效转化的基础研究”专刊邀稿文章) |
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Last
Updated: 2024.3.18.
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For further information, please contact: Dr.
Zhuang LIU School of
Chemical Engineering Sichuan
University Chengdu,
610065, Sichuan CHINA Tel: 028-8546-3380 E-mail: liuz@scu.edu.cn |
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