近期论文
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2016
[1] Wu F., Ju X.J.*, He X.H., Jiang M.Y., Wang W., Liu Z., Xie R., He B.*, Chu L.Y.*, 2016. A novel synthetic microfiber with controllable size for cell encapsulation and culture. Journal of Materials Chemistry B (2014 Impact Factor = 4.726), in press.
[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 (2014 Impact Factor = 5.056), 497: 328-338.
[3] Lin S., Wang W.*, Ju X.J., Xie R., Liu Z., Yu H.R., Zhang C., Chu L.Y.*, 2016. Ultrasensitive microchip based on smart microgel for real-time on-line detection of trace threat analytes. Proceedings of the National Academy of Sciences of the United States of America (PNAS) (2014 Impact Factor = 9.674), 113(8): 2023-2028.
[4] Liu Z., Wang W., Xie R.*, Ju X.J., Chu L.Y.*, 2015. Stimuli-responsive smart gating membranes. Chemical Society Reviews (2014 Impact Factor = 33.383), 45(3): 460-475.
* This work has been featured in the Inside Front Cover
[5] Zhang M.J., Wang W., Xie R., Ju X.J., Liu Z., Jiang L., Chen Q., Chu L.Y.*, 2015. Controllable microfluidic strategy for fabricating microparticles with emulsions as templates. Particuology (2014 Impact Factor = 2.110), 24: 18-31.
* Invited Paper
[6] Wang Y.N., Yu H.R., Xie R.*, Zhao K.M., Ju X.J., Wang W., Liu Z., Chu L.Y.*, 2015. An easily recoverable thermo-sensitive polyelectrolyte as draw agent for forward osmosis process. Chinese Journal of Chemical Engineering (2014 Impact Factor = 1.098), 24(1): 86-93.
[7] Xie R.*, Song X.L., Luo F., Liu Z., Wang W., Ju X.J., Chu L.Y., 2016. Ethanol-responsive polyvinylidene fluoride membranes with nanogels as functional gates by vapor-induced phase separation. Chemical Engineering & Technology (2014 Impact Factor = 2.442), in press.
* Invited Paper
[8] He F., Wang W.*, He X.H., Yang X.L., Li M., Xie R., Ju X.J., Liu Z., Chu L.Y.*, 2016. Controllable multi-compartmental capsules with distinct cores and shells for synergistic release. ACS Applied Materials & Interfaces (2014 Impact Factor = 6.723), in press.
2015
[9] He F., Mei L., Ju X.J.*, Xie R., Wang W., Liu Z., Wu F., Chu L.Y.*, 2015. pH-Responsive controlled release characteristics of solutes with different molecular weights diffusing across membranes of Ca-alginate/protamine/silica hybrid capsules. Journal of Membrane Science (2014 Impact Factor = 5.056), 474: 233-243.
[10] Wang X.X., Ju X.J.*, Sun S.X., Xie R., Wang W., Chu L.Y., 2015. Monodisperse erythrocyte-sized and acid-soluble chitosan microspheres prepared via electrospraying. RSC Advances (2014 Impact Factor = 3.840), 5(43): 34243-34250.
[11] Yuan M., Ju X.J.*, Xie R., Wang W., Chu L.Y., 2015. Micromechanical properties of poly(N-isopropylacrylamide) hydrogel microspheres determined using a simple method. Particuology (2014 Impact Factor = 2.110), 19: 164-172.
[12] Zhang L., Wang W., Ju X.J., Xie R., Liu Z., Chu L.Y.*, 2015. Fabrication of glass-based microfluidic devices with dry film photoresist as pattern transfer mask for wet etching. RSC Advances (2014 Impact Factor = 3.840), 5(8): 5638-5646.
[13] Luo F., Xie R.*, Liu Z., Ju X.J., Wang W., Lin S., Chu L.Y.*, 2015. Smart gating membranes with in situ self-assembled responsive nanogels as functional gates. Scientific Reports (2014 Impact Factor = 5.578), 5: 14708.
[14] Wu F., Wang W.*, Liu L., Ju X.J., Xie R., Liu Z., Chu L.Y.*, 2015. Monodisperse hybrid microcapsules with ultrathin shell of submicron thickness for rapid enzyme reaction. Journal of Materials Chemistry B (2014 Impact Factor = 4.726), 3(5): 796-803.
[15] Yu H.R., Hu J.Q., Lu X.H., Ju X.J., Liu Z., Xie R., Wang. W., Chu L.Y.*, 2015. Insights into the effects of 2:1 “sandwich-type” crown-ether/metal-ion complexes in responsive host-guest systems, Journal of Physical Chemistry B (2014 Impact Factor = 3.302), 119(4): 1696-1705.
[16] 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 (2014 Impact Factor = 11.805), 25(20): 2980-2991.
* This work has been featured in the Back Cover.
[17] 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 (2014 Impact Factor = 6.723), 7(49), 27289-27298.
[18] Yang C., Wang W.*, Yao C., Xie R., Ju X.J., Liu Z., Chu L.Y.*, 2015. Hydrogel walkers with electro-driven motility for cargo transport. Scientific Reports (2014 Impact Factor = 5.578), 5: 13622.
[19] He X.H., Wang W.*, Deng K., Xie R., Ju X.J., Liu Z., Chu L.Y.*, 2015. Microfluidic fabrication of chitosan microfibers with controllable internals from tubular to peapod-like structures. RSC Advances (2014 Impact Factor = 3.840), 5(2): 928-936.
[20] Wen G.Q., Xie R.*, Liang W.G., He X.H., Wang W., Ju, X.J., Chu L.Y., 2015. Microfluidic fabrication and thermal characteristics of core-shell phase change microfibers with high paraffin content. Applied Thermal Engineering (2014 Impact Factor = 2.739), 87: 471-480.