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巨晓洁教授 发表学术期刊论文 SCI收录论文 [1]
Zhou X.L., Zhou C.H.,
Gong J.Y., Yu Q.W., He Y.*, Ju X.J.*, Chu L.Y., 2023. Novel thermo and
ion-responsive copolymers based on metallo-base pair directed host-guest
complexation for highly selective recognition of Hg2+ in aqueous
solution. Journal of Hazardous Materials (2022
IF = 13.6), 445: 130610. [2]
Wen S., Ju X.J.*,
Liu W.Y., Liu Y.Q., Pu X.Q., Liu Z., Wang W., Xie R., Faraja Y., Chu L.Y.,
2022. Ca-alginate-based Janus capsules with pumping effect for
intestinal-targeted controlled-release. Engineering (2022 IF = 12.8), 24: 114-125.
This work has been featured in the Back Cover [3]
Jiang Q.R., Pu X.Q.,
Deng C.F., Wang W., Liu Z., Xie R., Pan D.W., Zhang W.J.*, Ju X.J.*,
Chu L.Y., 2023. Microfluidic controllable preparation of iodine-131-labeled
microspheres for radioembolization therapy of liver tumors. Advanced
Healthcare Materials (2022 IF = 10.0),
12(21): 2300873. [4]
Li Y., Ju X.J.*,
Fu H., Zhou C.H., Gao Y., Wang J., Xie R., Wang W., Liu Z., Chu L.Y., 2023.
Composite separable microneedles for transdermal delivery and controlled
release of salmon calcitonin for osteoporosis therapy. ACS Applied
Materials & Interfaces (2022 IF = 9.5),
15(1): 638-650. [5]
Meng Y., Li X.J., Li
Y., Zhang T.Y., Liu D., Wu Y.Q., Hou F.F., Ye L., Wu C.J., Feng X.D., Ju
X.J.*, Jiang L.*, 2023. Novel double-layer dissolving microneedles for
transmucosal sequential delivery of multiple drugs in the treatment of oral
mucosa diseases. ACS Applied Materials & Interfaces (2022 IF = 9.5), 15(11): 13892-13906. [6]
Cai Q.W., Pan D.W., Ju
X.J.*, Chen C., Zhang L.P., Yang S.H., Xie R., Wang W., Liu Z., Chu
L.Y.*, 2023. Controllable monodisperse amphiphilic Janus microparticles. ACS
Applied Polymer Materials (2022 IF = 5.0),
5(7): 5525-5536. [7]
Yang S.H., Ju X.J.*,
Deng C.F., Cai Q.W., Tian X.Y., Xie R., Wang W., Liu Z., Pan D.W., Chu L.Y.*,
2023. In vitro study on effects of physico-chemo-mechanical properties of
embolic microspheres on embolization performances. Industrial &
Engineering Chemistry Research (2022 IF =
4.2), 62(6): 2636-2648. [8]
Chen S.K., Pan D.W.,
Liu Z., Wang W., Xie R., Mu X.T.*, Ju X.J.*, Chu L.Y., 2023. Microfluidic
fabrication of calcium alginate/chitosan composite microcapsules with
ultrathin shells for peroxidase immobilization. Industrial &
Engineering Chemistry Research (2022 IF =
4.2), 62(26): 10101-10111. [9]
Chen S.K., Ju X.J.*,
Wei J., Wang W., Chu L.Y., 2023. Controllable preparation of monodisperse
chitosan microspheres based on microfluidic technology. Journal of
Chemical Education (2022 IF = 3.0),
100(9): 3526-3532. [10] Cao
T.X., Xie R., Ju X.J., Wang W., Pan D.W., Liu Z.*, Chu L.Y., 2023.
Biomimetic two-dimensional composited membranes for ion separation and
desalination. Industrial & Engineering Chemistry Research (2022 IF = 4.2), in press. [11] Jia
Z.H., Xie R.*, Hu Y.Q., Ju X.J., Wang W., Liu Z., Chu L.Y., 2023.
Thermochromic photonic crystal microspheres with uniform color display and
wide coloration range. Macromolecular Rapid Communications (2022 IF = 4.6), 44(5): 2200800. [12] Deng
C.F., Yang S.H., Xie R., Ju X.J., Liu Z., Pan D.W., Xu J.H., Luo G.S.,
Wang W.*, Chu L.Y.*, 2023. Flexible fractal integration of microfluidic
modules for controllable mass production of monodisperse microdroplets. Industrial
& Engineering Chemistry Research (2022 IF
= 4.2), 62(32): 12690-12702. [13] 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. [14] Zhang
C., Xie R.*, Liu Z., Ju X.J., Wang W., Chu L.Y.*, 2023. Hollow fiber
membranes with knitted braid-like structures for process intensification via
generation of dean vortices. Separation Science and Technology (2022 IF = 2.8), 58(6): 1072-1088.
Invited
Paper for the Special Issue on Membrane-based Solutions for Global Separation
Challenges [15] 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. [16] Sun
M.W.#, Li Z.#, Wang Q.Y.#, Zhang N.*, Xie R., Ju X.J., Wang W., Liu
Z.*, Chu L.Y., 2023. MoS2 laminate membranes with structural-phase-dependent
permeation for molecular separation. Cell Reports Physical Science (2022 IF = 8.9), 4(2): 101239. (#Contributed
equally) [17] Wang
W., Li B.Y., Zhang M.J., Su Y.Y., Pan D.W., Liu Z., Ju X.J., Xie R.,
Faraj Y., Chu L.Y.*, 2023. Microfluidic emulsification techniques for
controllable emulsion production and functional microparticle synthesis. Chemical
Engineering Journal (2022 IF = 15.1),
452: 139277. [18] Tian
X.Y., Sun M.W., Wen G.Y., Cao M., Pan D.W., Xie R., Ju X.J., Liu Z.,
Wang W.*, Chu L.Y.*, 2023. Ultrasensitive hydrogel grating detector for
real-time continuous-flow detection of trace threat Pb2+. Journal
of Hazardous Materials (2022 IF = 13.6),
443: 130289. [19] Chen
C., Cai Q.W., Zhan C.Z., Wang B.C., Li P.F., Xie R., Ju X.J., Liu Z.,
Wang W.*, Chu L.Y.*, 2023. Controllable fabrication of highly uniform sub-10
nm nanoparticles from spontaneous confined nanoemulsification. Small (2022 IF = 13.3), 19(34): 2300801. [20] 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. [21] Tian
X.Y., Zhang T.T., Wen G.Y., Yang S.H., Pan D.W., Xie R., Ju X.J., Liu
Z., Wang W.*, Chu L.Y.*, 2023. Highly-sensitive hydrogel gratings for
real-time detection of trace hexavalent chromium ions in water. Industrial
& Engineering Chemistry Research (2022 IF
= 4.2), 62(30): 11885-11893. [22] Su
Y.Y., Pan D.W.*, Deng C.F., Yang S.H., Faraj Y., Xie R., Ju X.J., Liu
Z., Wang W.*, Chu L.Y., 2023. Facile and scalable rotation-based
microfluidics for controllable production of emulsions, microparticles, and
microfibers. Industrial & Engineering Chemistry Research (2022 IF = 4.2), 62(10): 4373-4387. [23] Zhang
S.Y., Pan D.W.*, Fan H.D., Shi L., Yang Y.M., Liu Z., Ju X.J., Xie R.,
Wang W.*, Chu L.Y., 2023. Stretchable conductive Janus hydrogel with
controllable porous structures for high-performance strain sensing. Journal
of Polymer Science (2022 IF=3.4),
in press. [24] 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. [25] Liu
Y.Q., Ju X.J.*, Zhou X.L., Mu X.T., Tian X.Y., Zhang L., Liu Z., Wang
W., Xie R., Chu L.Y., 2022. A novel chemosensor for
sensitive and facile detection of strontium ions based on ion-imprinted
hydrogels modified with guanosine derivatives. Journal
of Hazardous Materials (2022 IF = 13.6),
421: 126801. [26]
Yin
W.H., Zhou C.H., Ju X.J.*, Deng Y., Zhang L., Xie R., Wang W., Liu Z.,
Chu L.Y., 2022. Dual-functional polyetheretherketone surface with programmed
sequential drug release coating. Colloids and Surfaces B: Biointerfaces
(2022 IF = 5.8), 219: 112806. [27] Pu
X.Q., Ju X.J.*, Liu W.Y., Liu Y.Q., Li X.J., Li Y., Xie R., Wang W., Liu
Z., Chu L.Y.*, 2022. Stimuli-responsive nanoparticles-integrated dissolving
microneedles for synergetic chemo-photothermal therapy of superficial skin
tumors. Industrial & Engineering Chemistry Research (2022 IF = 4.2), 61(23): 7982-7995. [28]
Yang
S.H., Ju X.J.*, Deng C.F., Cai Q.W., Su Y.Y., Xie R., Wang W., Liu Z.,
Pan D.W., Chu L.Y.*, 2022. Controllable fabrication of monodisperse
poly(vinyl alcohol) microspheres with droplet microfluidics for embolization.
Industrial & Engineering Chemistry Research (2022 IF = 4.2), 61(34): 12619-12631. [29] Zou
L.B., Gong J.Y., Ju X.J.*, Liu Z., Wang W., Xie R., Chu L.Y., 2022.
Smart membranes for biomedical applications. Chinese Journal of Chemical
Engineering (2022 IF = 3.8), 49:
34-45.
Invited
Paper for the Special Issue on Membranes for Life Science
This
work has been featured in the Back Cover [30] Li
X.J.#, Li Y.#, Meng Y, Pu X.Q., Qin J.W., Xie R., Wang W., Liu Z., Jiang L.*,
Ju X.J.*, Chu L.Y., 2022. Composite dissolvable microneedle patch for
therapy of oral mucosal diseases. Biomaterials Advances, 139: 213001. (#Contributed equally) [31] Wang
W., Li P.F., Xie R., Ju X.J., Liu Z., Chu L.Y.*, 2022. Designable
micro-/nano-structured smart polymeric materials. Advanced Materials (2022 IF = 29.4), 34(46): 2107877.
Invited
Paper [32] 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. [33] Zhang
Y., Wang B.C., Wang P., Ju X.J., Zhang M.J.*, Xie R., Liu Z., Wang
W.*, Chu L.Y., 2022. Microfluidic fabrication of hydrogel microparticles with
MOF-armoured multi-enzymes for cascade biocatalytic reactions. Reaction
Chemistry & Engineering (2022 IF = 3.9),
7(2): 275-283.
Invited
Paper for the Emerging Investigator Series of Reaction Chemistry &
Engineering
This
work has been featured in the Front
Cover [34] Zhang C., Xie R.*, Liu Z.,
Ju X.J., Wang W., Chu L.Y.*, 2022. 3D helical membranes for process
intensification of membrane separation via generation of dean vortices. Journal
of Membrane Science (2022 IF = 9.5), 662: 120969. [35] Wen
G.Y., Zhou X.L., Tian X.Y., Xie R., Ju X.J., Liu Z., Faraj Y., Wang
W.*, Chu L.Y.*, 2022. Smart hydrogels with wide-visible-color tunability. NPG
Asia Materials (2022 IF = 9.7),
14: 29. [36] Wen G.Y., Zhou X.L., Tian
X.Y., Hu T.Y., Xie R., Ju X.J., Liu Z., Pan D.W., Wang W.*, Chu L.Y.*,
2022. Real-time quantitative detection of UV radiation dose based on
photochromic hydrogel and photo-resistance. Chemistry of Materials (2022 IF = 8.6), 34(17): 7947-7958. [37]
Deng
C.F., Su Y.Y., Yang S.H., Jiang Q.R., Xie R., Ju X.J., Liu Z., Pan
D.W., Wang W.*, Chu L.Y.*, 2022. Designable microfluidic ladder networks from
backstepping microflow analysis for mass production of monodisperse
microdroplets. Lab on a Chip (2022 IF =
6.1), 22(24): 4962-4973. [38] 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. [39] Zhao
J.J., Wang W.*, Cai Q.W., Wang F., Xie R., Ju X.J., Liu Z., Chu L.Y.*,
2022. Efficient detection of hyperkalemia with highly transparent and
ion-recognizable hydrogel grating sensors. Industrial & Engineering
Chemistry Research (2022 IF = 4.2),
61(6): 2483-2493. [40] 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.
Invited
Paper for the Special Issue in memory of Professor Jiayong Chen [41] 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, 3(13): 5476-5487. [42] Liu
Y.Q., Ju X.J.*, Pu X.Q., Wen S., Liu W.Y., Liu Z., Wang W., Xie R.,
Chu L.Y., 2021. Visual detection of trace lead(II) using a forward
osmosis-driven device loaded with ion-responsive nanogels. Journal of
Hazardous Materials (2022 IF = 13.6),
404: 124157. [43] Liu
W.Y., Ju X.J.*, Pu X.Q., Cai Q.W., Liu Y.Q., Liu Z., Wang W., Xie R., Chu
L.Y.*, 2021. Functional capsules encapsulating molecular-recognizable
nanogels for facile removal of organic micro-pollutants from water. Engineering
(2022 IF = 12.8), 7(5): 636-646.
Invited Paper for the Special Issue
on “Soft Materials for Green Chemical Engineering”
This work has been featured in the Back Cover [44] Pu
X.Q., Ju X.J.*, Zhang L., Cai Q.W., Liu Y.Q., Peng H.Y., Xie R., Wang
W., Liu Z., Chu L.Y.*, 2021. Novel multifunctional stimuli-responsive
nanoparticles for synergetic chemo-photothermal therapy of tumors. ACS
Applied Materials & Interfaces (2022 IF =
9.5), 13(24): 28802-28817. [45] Hu
D.N., Ju X.J.*, Pu X.Q., Xie R., Wang W., Liu Z., Chu L.Y., 2021.
Injectable temperature/glucose dual-responsive hydrogels for controlled
release of insulin. Industrial & Engineering Chemistry Research (2022 IF = 4.2), 60(22): 8147-8158.
This work has been featured in the Front Cover [46] Liu
W.Y., Wang W.*, Ju X.J., Liu Z., Xie R., Chu L.Y.*, 2021. Functional
microparticles from multiscale regulation of multiphase emulsions for
mass-transfer intensification. Chemical Engineering Science (2022 IF = 4.7), 231: 116242. [47] Jia
Z.H., Xie R.*, Qiu Y., Lv X.B., Ju X.J., Wang W., Liu Z., Chu L.Y.,
2021. Magnetically assembled photonic crystal gels with wide thermochromic
range and high sensitivity. Macromolecular Rapid Communications (2022 IF = 4.6), 42(15): 2100200. [48] Fu
G.B., Xie R.*, Qin J.W., Deng X.B., Ju X.J., Wang W., Liu Z., Chu L.Y.*,
2021. Facile fabrication of photocatalyst-immobilized gel beads with
interconnected macropores for efficient removal of pollutants in water. Industrial
& Engineering Chemistry Research (2022 IF
= 4.2), 60(24): 8762-8775.
This work has been featured in the Front Cover [49] 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. [50] Peng
J.#, Zhao N.#, Lin S., Wang W.*, Zhang M.J., Su Y.Y., Xie R., Ju X.J.,
Liu Z., Chu L.Y., 2021. Smart microfluidic analogue of Wheatstone-bridge for
real-time continuous detection with ultrasensitivity and wide dynamic range. Chemical
Engineering Journal (2022 IF = 15.1),
407: 127138. (#Contributed equally) [51] Mu X.T., Li Y., Ju X.J.*, Yang X.L.,
Xie R., Wang W., Liu Z., Chu L.Y., 2020. Microfluidic fabrication of
structure-controlled chitosan microcapsules via interfacial crosslinking of droplet
templates. ACS Applied Materials & Interfaces (2022 IF = 9.5), 12(51): 57514-57525. [52] Liu W.Y., Ju X.J.*, Yousef F., He F., Peng H.Y.,
Liu Y.Q., Liu Z., Wang W., Xie R., Chu L.Y.*, 2020. Capsule membranes
encapsulated with smart nanogels for facile detection of trace lead(II) ions
in water. Journal of Membrane Science (2022 IF = 9.5), 613: 118523. [53] Xu M.H., Xie R.*, Ju X.J., Wang W.,
Liu Z., Chu L.Y.*, 2020. Antifouling membranes with bi-continuous porous
structures and high fluxes prepared by vapor-induced phase separation. Journal of Membrane Science (2022 IF
= 9.5), 611:
118256. [54] Peng H.Y., Wang W.*, Xie R., Ju X.J.,
Liu Z., Faraj Y., Chu L.Y.*, 2019. Mesoscale regulation of droplet templates
to tailor microparticle structures and functions. Particuology (2022 IF
= 3.5), 48:
74-87.
Invited Paper for the Special Issue
of “Meso-Science in China” [55] Jiang
Z.Y., Chu L.Y., Wu X.M., Wang Z., Jiang X.B., Ju X.J., Ruan X.H., He
G.H.*, 2020. Membrane-based separation technologies: from polymeric materials
to novel process: an outlook from China. Reviews
in Chemical Engineering (2022 IF = 4.7), 36(1): 67-105.
Invited Paper for the Special Issue
of “Chemical Engineering in China” [56] Chen
L., Zhang M.J.*, Zhang S.Y., Shi L., Yang Y.M., Liu Z., Ju X.J., Xie
R., Wang W.*, Chu L.Y., 2020. Simple and continuous fabrication of
self-propelled micromotors with photocatalytic MOF for enhanced synergistic
environmental remediation. ACS Applied Materials & Interfaces (2022 IF = 9.5), 12(31): 35120-35131. [57] 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
(2022 IF = 8.6),
237: 116364. [58]
Ding S.Y.,
Faraj Y.*, Wei J., Wang W., Xie R., Liu Z., Ju X.J., Chu L.Y., 2020.
Antimicrobial peptide-functionalized magnetic nanoparticles for rapid capture
and removal of pathogenic bacteria. Microchemical
Journal (2022 IF = 4.8),
159: 105493. [59]
Zhao
Q., Faraj Y.*, Liu L.Y., Wang W., Xie R., Liu Z., Ju X.J., Wei J., Chu
L.Y., 2020. Simultaneous determination of dopamine, uric
acid and estriol in maternal urine samples based on the synergetic effect of
reduced graphene oxide, silver nanowires and silver nanoparticles in their
ternary 3D nanocomposite. Microchemical
Journal (2022 IF = 4.8), 158: 105185. [60] 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. [61] Zhao
J.J., Wang W.*, Wang F., Zhao Y., Cai Q.W., Xie R., Ju X.J., Liu Z.,
Faraj Y., Chu L.Y.*, 2020. Smart hydrogel grating immunosensors for highly
selective and sensitive detection of Human-IgG. Industrial & Engineering Chemistry Research (2022 IF = 4.2),
59(22): 10469-10475.
This work has been featured in the Front
Cover [62] Lv X.B., Xie R.*, Ji
J.Y.*, Liu Z., Wen X.Y., Liu L.Y., Hu J.Q., Ju X.J., Wang W., Chu
L.Y., 2020. A novel
strategy to fabricate cation-cross-linked graphene oxide membrane with high
aqueous stability and high separation performance. ACS Applied Materials
& Interfaces (2022 IF = 9.5), 12(50): 56269-56280. [63] 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. [64] Cai
Q.W., Ju X.J.*, Chen C., Faraj Y., Jia Z.H., Hu J.Q., Xie R., Wang W.,
Liu Z., Chu L.Y.*, 2019. Fabrication and flow characteristics of monodisperse
bullet-shaped microparticles with controllable structures. Chemical Engineering Journal (2022 IF = 15.1), 370:
925-937. [65] Cai
Q.W., Ju X.J.*, Zhang S.Y., Chen Z.H., Hu J.Q., Zhang L.P., Xie R.,
Wang W., Liu Z., Chu L.Y.*, 2019. Controllable fabrication of functional
microhelices with droplet microfluidics. ACS
Applied Materials & Interfaces (2022 IF = 9.5), 11(49): 46241-46250. [66] Mu
X.T., Ju X.J.*, Zhang L., Huang X.B., Faraj Y., Liu Z., Wang W., Xie R.,
Deng Y., Chu L.Y., 2019. Chitosan microcapsule membranes with nanoscale
thickness for controlled release of drugs. Journal of Membrane Science (2022 IF = 9.5), 590: 117275. [67] Zhao
Y., Ju X.J.*, Zhang L.P., Wang W., Faraj Y., Zou L.B., Xie R., Liu Z.,
Chu L.Y., 2019. Transparent thermo-responsive
poly(N-isopropylacrylamide)-l-poly(ethylene glycol)acrylamide conetwork
hydrogels with rapid deswelling response. New
Journal of Chemistry (2022 IF = 3.3),
43(24): 9507-9515. [68] Zhang
S.G., Ju X.J.*, Zhou X.L., Pu X.Q., Peng H.Y., Wang W., Xie R., Liu
Z., Chu L.Y., 2019. Preparation and characterization of novel
low-temperature/pH dual-responsive
poly(N-isopropylacrylamide-co-1H-benzimidazolyl-ethyl acrylate) copolymers. Macromolecular Chemistry and Physics (2022 IF = 2.5), 220:
1900123. [69] Mou
C.L., Wang W.*, Ju X.J., Xie R., Liu Z., Chu L.Y.*, 2019.
Dual-responsive microcarriers with sphere-in-capsule structures for
co-encapsulation and sequential release. Journal
of the Taiwan Institute of Chemical Engineers (2022 IF
= 5.7), 98: 63-69.
Invited Paper for the Special Issue
of “Microreactors” [70] Peng
H.Y., Wang W.*, Gao F.H., Lin S., Ju X.J., Xie R., Liu Z., Faraj Y.,
Chu L.Y.*, 2019. Smart Hydrogel Gratings for Sensitive, Facile and Rapid
Detection of Ethanol Concentration. Industrial
& Engineering Chemistry Research (2022 IF = 4.2),
58(38): 17833-17841. [71] Zhou
X.L., Shen Z., Ma B.B., Xia Z.Q., Chai Y.Y., Ju X.J., Chu L.Y., Huang
R.D., Chen H., Li W.M.*, He Y.*, 2019, Acyclic Janus-AT nucleoside host
channels precisely lock water into single-file wires with local rotational
flexibility. Angewandte Chemie
International Edition (2022 IF = 16.6),
58(28): 9601-9610. [72] 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. [73] Li
X.Y., Xie R.*, Zhang C., Chen Z.H., Hu J. Q., Ju X.J., Wang W., Liu Z.,
Chu L.Y., 2019. Effects of hydrophilicity of blended submicrogels on the
microstructure and performance of thermo-responsive membranes. Journal of Membrane Science (2022 IF = 9.5), 584:
202-215. [74] Li
X.Y., Xie R.*, Luo F., Jia Z.H., Shi K., Ju X.J., Wang W., Liu Z., Chu
L.Y., 2019. CO2-responsive poly(N,N-dimethylaminoethyl methacrylate)
hydrogels with fast responsive rate. Journal
of the Taiwan Institute of Chemical Engineers (2022 IF
= 5.7), 94: 135-142.
Invited Paper for the WFC12 Special
Issue on “Toward Fouling Mitigation” [75] 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. [76] 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. [77] 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 [78] 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. [79] He
F., Zhang M.J., Wang W.*, Cai Q.W., Su Y.Y., Liu Z., Faraj Y., Ju X.J.,
Xie R., Chu L.Y.*, 2019. Designable polymeric microparticles from droplet
microfluidics for controlled drug release. Advanced Materials Technologies (2022 IF
= 6.8), 4: 1800687.
Invited Paper for the Special Issue
of “Microfluidics” [80] Su
Y.Y., Zhang M.J., Wang W.*, Deng C.F., Peng J., Liu Z., Faraj Y., Ju X.J.,
Xie R., Chu L.Y., 2019. Bubble-propelled hierarchical porous micromotors from
evolved double emulsions. Industrial
& Engineering Chemistry Research (2022 IF = 4.2), 58(4): 1590-1600.
This work has been featured in the Front Cover [81] Liu
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Chu L.Y.*, 2017, Stimuli-responsive capsule membranes for controlled release
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Wu H.G., Ju X.J., Xie R., Liu Y.M., Deng J.G., Niu C.H., Chu
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