{"id":3877,"date":"2024-07-19T09:18:42","date_gmt":"2024-07-19T09:18:42","guid":{"rendered":"https:\/\/dod.nycu.edu.tw\/?page_id=3877"},"modified":"2024-10-15T07:23:30","modified_gmt":"2024-10-15T07:23:30","slug":"%e6%9e%97%e6%a6%ae%e8%be%b0-%e5%89%af%e6%95%99%e6%8e%88lin-jung-chen","status":"publish","type":"page","link":"https:\/\/dod.nycu.edu.tw\/?page_id=3877","title":{"rendered":"\u6797\u69ae\u8fb0 \u526f\u6559\u6388(LIN, JUNG-CHEN)"},"content":{"rendered":"\n
\"\"<\/figure>\n\n\n
\u59d3\u540d\uff1a\u6797\u69ae\u8fb0
\u8fa6\u516c\u5ba4\uff1a\u7259\u91ab\u9928313
\u96fb\u8a71\uff1a02-2826-7314
\u96fb\u5b50\u4fe1\u7bb1\uff1alinjungchen@nycu.edu.tw<\/h6>\n
\u5b78\u6b77<\/strong><\/h5>\n
2014\/06 \u570b\u7acb\u53f0\u7063\u5927\u5b78\u91ab\u5b78\u9662\u514d\u75ab\u5b78\u7814\u7a76\u6240
\u535a\u58eb \u4e2d\u83ef\u6c11\u570b \u53f0\u7063
2004\/06 \u570b\u7acb\u967d\u660e\u4ea4\u901a\u5927\u5b78\u7259\u91ab\u5b78\u9662\u53e3\u8154\u751f\u7269\u7814\u7a76\u6240
\u78a9\u58eb \u4e2d\u83ef\u6c11\u570b \u53f0\u7063<\/h6>\n
\u7814\u7a76\u65b9\u5411<\/strong><\/h5>\n
\u5229\u7528\u4eff\u751f\u751f\u7269\u6750\u6599\u4f86\u9032\u884c\u514d\u75ab\u5de5\u7a0b\u548c\u514d\u75ab\u8abf\u7bc0<\/h6>\n
\u5c08\u9577<\/h5>\n
\u514d\u75ab\u5b78\u3001\u751f\u7269\u5de5\u7a0b\u3001\u514d\u75ab\u6cbb\u7642\u548c\u75ab\u82d7\u5b78<\/h6>\n
\u7d93\u6b77<\/h5>\n
2024\/08 – \u8fc4\u4eca\u00a0 \u00a0 \u00a0 \u00a0 \u570b\u7acb\u967d\u660e\u4ea4\u901a\u5927\u5b78\u7259\u91ab\u5b78\u9662 \u53e3\u8154\u7d44\u7e54\u5de5\u7a0b\u66a8\u751f\u6280\u6750\u6599\u7814\u7a76\u6240 \u5c08\u4efb\u52a9\u7406\u6559\u6388
2022\/02 – 2024\/07 \u570b\u7acb\u967d\u660e\u4ea4\u901a\u5927\u5b78\u7259\u91ab\u5b78\u9662 \u53e3\u8154\u751f\u7269\u7814\u7a76\u6240 \u517c\u4efb\u526f\u6559\u6388
2016\/02 – 2024\/07 \u4e2d\u592e\u7814\u7a76\u9662\u751f\u7269\u91ab\u5b78\u7814\u7a76\u6240 \u535a\u58eb\u5f8c\u7814\u7a76\u5b78\u8005
2015\/02 – 2017\/07 \u570b\u9632\u91ab\u5b78\u9662\u75c5\u7406\u53ca\u5bc4\u751f\u87f2\u7814\u7a76\u6240 \u517c\u4efb\u52a9\u7406\u6559\u6388
2015\/01 – 2016\/01 \u570b\u9632\u91ab\u5b78\u9662\u75c5\u7406\u53ca\u5bc4\u751f\u87f2\u7814\u7a76\u6240 \u535a\u58eb\u5f8c\u7814\u7a76\u54e1
2015\/01 – 2015\/12 \u532f\u5fb7\u751f\u7269\u79d1\u6280\u80a1\u4efd\u6709\u9650\u516c\u53f8\u7814\u767c\u90e8 \u7814\u767c\u9577
2014\/09 – 2014\/12 \u570b\u7acb\u53f0\u7063\u5927\u5b78\u91ab\u5b78\u9662\u514d\u75ab\u5b78\u7814\u7a76\u6240 \u535a\u58eb\u5f8c\u7814\u7a76\u54e1<\/h6>\n
\u4ee3\u8868\u8457\u4f5c (\uff03\u5171\u540c\u4f5c\u8005)<\/h5>\n
(1) Baghdasaryan, O.#, Khan, S.#, Lin, J.C.\uff03, Lee-Kin, J., Hsu, C.Y., Hu, C.M.J.* and Tan, C.* 2024. Synthetic control of living cells by intracellular polymerization. Trends Biotechnol. 42(2):241-252. (IF=17.3; 3\/158; Q1)<\/h6>\n
(2) Chien, C.Y.\uff03, Lin, J.C.\uff03, Huang, C.Y., Hsu, C.Y., Yang, K.C., Chattopadhyay, S., Nikoloutsos, N, Hsieh, P.C., and Hu, C.M.J.* 2022. In Situ Hydrogelation of Cellular Monolayers Enables Conformal Biomembrane Functionalization for Xeno-Free Feeder Substrate Engineering. Adv Healthc Mater. e2201708. (IF=10; 8\/96; Q1)<\/h6>\n
(3) Lin, J.C., Hsu, C.Y., Chen, J.Y., Fang, Z.S., Chen, H.W., Yao, B.Y., Shiau, G.H.M, Tsai, J.S., Gu, M., Jung, M.Y., Lee, T.Y., and Hu, C.M.J.* 2021. Facile Transformation of Murine and Human Primary Dendritic Cells into Robust and Modular Artificial Antigen-Presenting Systems by Intracellular Hydrogelation. Adv Mater 33 (30):2101190. (IF=29.4; 5\/178; Q1)<\/h6>\n
(4) Lin, J.C.\uff03, Chien, C.Y.\uff03, Lin, C.L.\uff03, Yao, B.Y., Chen, Y.I., Liu, Y.H., Fang, Z.S., Chen, J.Y., Chen, W.Y., Lee, N.N., Chen, H.W., and Hu, C.M.J.* 2019. Intracellular hydrogelation preserves fluid and functional cell membrane interfaces for biological interactions. Nat Commun 10(1):1057. (IF=16.6; 6\/73; Q1)<\/h6>\n
\u69ae\u8b7d\u6210\u5c31<\/h5>\n
2023 \u7b2c33\u5c46\u738b\u6c11\u5be7\u734e:\u512a\u79c0\u8ad6\u6587\u734e\u2014\u8ca1\u5718\u6cd5\u4eba\u738b\u6c11\u5be7\u5148\u751f\u7d00\u5ff5\u57fa\u91d1\u6703\u9812\u767c
2023 \u5091\u51fa\u8ad6\u6587\u734e\u2014\u7b2c\u516d\u5c46\u570b\u969b\u518d\u751f\u91ab\u5b78\u6750\u6599\u7814\u8a0e\u6703\u66a8\u53f0\u7063\u751f\u7269\u6750\u6599\u8207\u63a7\u5236\u91cb\u653e\u5b78\u6703\u5e74\u6703\u9812\u767c
2022 111\u5e74\u5ea6\u4e4b\u535a\u58eb\u5f8c\u7814\u7a76\u4eba\u54e1\u5b78\u8853\u7814\u7a76\u734e\u2014\u79d1\u6280\u90e8\u9812\u767c
2014 \u7814\u7a76\u751f\u512a\u79c0\u8457\u4f5c\u734e\u2014\u570b\u7acb\u53f0\u7063\u5927\u5b78\u91ab\u5b78\u9662\u9812\u767c<\/h6>\n
\u5c08\u5229<\/h5>\n
\u5167\u90e8\u5c01\u5b9a\u8102\u8cea\u9ad4 (I653990, Taiwan) 2019\/03\/21
\u88fd\u5099\u642d\u8f09\u80dc\u80bd\u4e4b\u8f09\u9ad4\u7cfb\u7d71\u7684\u65b9\u6cd5 (PCT\/US2020\/043963) 2021\/02\/04
\u81ea\u7136\u6bba\u624b\u7d30\u80de\u7684\u653e\u5927\u65b9\u6cd5 (I784426, Taiwan) 2022\/11\/21
\u4eba\u5de5\u6297\u539f\u5448\u73fe\u7d30\u80de\u7cfb\u7d71\u53ca\u5176\u7528\u9014 (TW202208618A)<\/h6>\n
\u6280\u8853\u8f49\u79fb<\/h5>\n
\u4eba\u5de5\u6297\u539f\u5448\u73fe\u7d30\u80de\u7cfb\u7d71\u53ca\u5176\u7528\u9014 (\u9707\u6cf0\u751f\u91ab) 2020\/08\/21<\/h6>\n
\u53c3\u8207\u7814\u7a76\u8a08\u756b<\/h5>\n
\u53c3\u8207\u7de8\u8f2f\u8005\u3001\u5be6\u9a57\u8a2d\u8a08\u57f7\u884c\u8005\u3001\u8a08\u756b\u64b0\u5beb\uff08\u64d4\u4efb\u535a\u58eb\u5f8c\u7814\u7a76\u5b78\u8005\u5de5\u4f5c\uff09
1.. \u5948\u7c73\u4e3b\u8ef8\u8a08\u756b \u589e\u5e45mRNA\u75ab\u82d7\u514d\u75ab\u6548\u6027\u4e4b\u5948\u7c73\u4f50\u5291\u7814\u767c(2022-2024)
2. \u81ea\u7136\u79d1\u5b78\u53ca\u6c38\u7e8c\u7814\u7a76\u767c\u5c55\u53f8 \u500b\u4eba\u5316\u5948\u7c73\u6297\u764c\u75ab\u82d7\u4e4b\u88fd\u5099\u8207\u512a\u5316 (2019-2022)
3. \u53ef\u88dd\u8f09\u4f50\u5291\u4e4b\u5948\u7c73\u8f09\u9ad4\u7528\u65bc\u6d41\u611f\u75c5\u6bd2\u75ab\u82d7\u7684\u7814\u767c (2016-2019)<\/h6>\n
\u8457\u4f5c (\uff03\u5171\u540c\u4f5c\u8005)<\/h5>\n
(Present – 2019)
(1) Baghdasaryan, O.#, Khan, S.#, Lin, J.C.\uff03, Lee-Kin, J., Hsu, C.Y., Hu, C.M.J.* and Tan, C.* 2024. Synthetic control of living cells by intracellular polymerization. Trends Biotechnol 42(2):241-252. (IF=17.3; 3\/158; Q1)<\/h6>\n
(2) Lin, C.L.; Fang, Z.S.; Hsu, C.Y.; Liu, Y.H.; Lin, J.C.; Yao, B.Y.; Li, F.A.; Yen, S.C.; Chang, Y.C., and Hu, C.M.J.* 2024. Rapid plasma membrane isolation via intracellular polymerization-mediated biomolecular confinement. Acta Biomater 173:325-335. (IF=9.7; 6\/96; Q1)<\/h6>\n
(3) Chien, C.Y.\uff03, Lin, J.C.\uff03, Huang, C.Y., Hsu, C.Y., Yang, K.C., Chattopadhyay, S., Nikoloutsos, N, Hsieh, P.C., and Hu, C.M.J.* 2022. In Situ Hydrogelation of Cellular Monolayers Enables Conformal Biomembrane Functionalization for Xeno-Free Feeder Substrate Engineering. Adv Healthc Mater e2201708. (IF=10; 8\/96; Q1)<\/h6>\n
(4) Yang, K.C., Lin, J.C., Tsai, H.H., Hsu, C.Y., Shih, V, and Hu, C.M.J.* 2021. Nanotechnology advances in pathogen- and host-targeted antiviral delivery: multipronged therapeutic intervention for pandemic control. Drug Deliv Transl Res 11(4):1420-1437. (IF=5.4; 43\/136; Q2)<\/h6>\n
(5) Lin, J.C., Hsu, C.Y., Chen, J.Y., Fang, Z.S., Chen, H.W., Yao, B.Y., Shiau, G.H.M, Tsai, J.S., Gu, M., Jung, M.Y., Lee, T.Y., and Hu, C.M.J.* 2021. Facile Transformation of Murine and Human Primary Dendritic Cells into Robust and Modular Artificial Antigen-Presenting Systems by Intracellular Hydrogelation. Adv Mater 33 (30):2101190. (IF=29.4; 5\/178; Q1)<\/h6>\n
(6) Chattopadhyay, S, Liu, Y.H., Fang, Z.S., Lin, C.L., Lin, J.C., Yao, B.Y., and Hu, C.M.J.* 2020. Synthetic Immunogenic Cell Death Mediated by Intracellular Delivery of STING Agonist Nanoshells Enhances Anticancer Chemo-immunotherapy. Nano Lett 20:2246-2256. (IF=10.8; 21\/178; Q1)<\/h6>\n
(7) Lin, L.C.W., Huang, C.Y., Yao, B.Y., Lin, J.C., Agrawal, A., Algaissi, A., Peng, B.H., Liu, Y.H., Huang, P.H., Juang, R.H., Chang, Y.C., Tseng, C.T., Chen, H.W., and Hu, C.M.J.* 2019. Viromimetic STING Agonist-Loaded Hollow Polymeric Nanoparticles for Safe and Effective Vaccination against Middle East Respiratory Syndrome Coronavirus. Advanced Functional Materials 29(28):1807616. (IF=19; 8\/178; Q1)<\/h6>\n
(8) Lin, J.C.\uff03, Chien, C.Y.\uff03, Lin, C.L.\uff03, Yao, B.Y., Chen, Y.I., Liu, Y.H., Fang, Z.S., Chen, J.Y., Chen, W.Y., Lee, N.N., Chen, H.W., and Hu, C.M.J.* 2019. Intracellular hydrogelation preserves fluid and functional cell membrane interfaces for biological interactions. Nat Commun 10(1):1057. (IF=16.6; 6\/73; Q1)<\/h6>\n
(2018 – 2006)
(9) Lin, L.C., Chattopadhyay, S, Lin J.C., and Hu, C.M.J.* 2018. Advances and Opportunities in Nanoparticle- and Nanomaterial-Based Vaccines against Bacterial Infections. Adv Healthc Mater 7(13):e1701395. (IF=10; 8\/96; Q1)<\/h6>\n
(10) Ka, S.M., Chao, L. K., Lin, J.C., Chen, S.T., Li, W.T., Lin, C.N., Cheng, J.C., Jheng, H.L., Chen A., and Hua, K.F.* 2016. A low toxicity synthetic cinnamaldehyde derivative ameliorates renal inflammation in mice by inhibiting NLRP3 inflammasome and its related signaling pathways. Free Radic Biol Med 91:10-24. (IF=7.4 ;43\/285; Q1)<\/h6>\n
(11) Chen, H.W., Huang, C.Y., Lin, S.Y., Fang, Z.S., Hsu, C.H., Lin, J.C., Chen, Y.I., Yao, B.Y., and Hu, C.M.J.* 2016. Synthetic virus-like particles prepared via protein corona formation enable effective vaccination in an avian model of coronavirus infection. Biomaterials 106:111-8. (IF=14; 4\/96; Q1)<\/h6>\n
(12) Ka, S.M., Lin, J.C., Lin, T.J., Liu, F.C., Chao, L.K., Ho, C.L., Yeh, L.T., Sytwu ,H.K., Hua, K.F., Chen, A.* 2015. Citral alleviates an accelerated and severe lupus nephritis model by inhibiting the activation signal of NLRP3 inflammasome and enhancing Nrf2 activation. Arthritis Res Ther 17:331. (IF=4.9; 12\/34; Q2)<\/h6>\n
(13) Lin, J.C., Lin, S.C., Chen, W.Y., Yen, Y.T., Lai, C.W., Tao, M.H., Lin, Y.L., Miaw. S.C., and Wu-Hsieh, B.A.* 2014. Dengue viral protease interaction with NF-kappaB inhibitor alpha\/beta results in endothelial cell apoptosis and hemorrhage development. J Immunol 193:1258-67. (IF=4.4; 77\/161; Q2)<\/h6>\n
(14) Chang, L.Y., Lin, J.C., Chang, C.W., Ho, W.H., Chen, Y.T., Peng, J.L., and Hung, S.L.* 2009. Inhibitory effects of safrole on phagocytosis, intracellular reactive oxygen species, and the activity of myeloperoxidase released by human polymorphonuclear leukocytes. J Periodontol 80:1330-7. (IF=4.3; 12\/91; Q1)<\/h6>\n
(15) Chen, D.C., Lee, Y.Y., Yeh, P.Y., Lin, J.C., Chen, Y.L., and Hung, S.L.* 2008. Eugenol inhibited the antimicrobial functions of neutrophils. J Endod 34:176-80. (IF=4.2; 14\/91; Q1)<\/h6>\n
(16) Lai, Y.L., Lin, J.C., Yang,S.F., Liu, T.Y., and Hung, S.L.* 2007. Areca nut extracts reduce the intracellular reactive oxygen species and release of myeloperoxidase by human polymorphonuclear leukocytes. J Periodontal Res 42:69-76. (IF=3.5; 26\/91; Q2)<\/h6>\n
(17) Shui, H.A., Ka, S.M., Lin, J.C., Lee, J.H., Jin, J.S., Lin ,Y.F., Sheu, L.F., and Chen, A.* 2006. Fibronectin in blood invokes the development of focal segmental glomerulosclerosis in mouse model. Nephrol Dial Transplant 21:1794-802. (IF=6.1; 4\/26; Q1)<\/h6>\n
\u7814\u8a0e\u6703\u767c\u8868\u8ad6\u6587<\/h5>\n
1. Chung-Yao Hsu, Jung-Chen Lin (\u6797\u69ae\u8fb0), Gwo Harn Max Shiau, Bing-Yu Yao, Che-Ming Jack Hu (2023, Aug). Polymerized magnetic cells amenable to synapse formation enable selective capture of antigen-specific T lymphocytes. ISOMRM & BCRS Aug. 31 \u2013 Sep. 3 2023, Taipei, Taiwan 2023\u7b2c\u516d\u5c46\u53f0\u7063\u570b\u969b\u518d\u751f\u91ab\u5b78\u6750\u6599\u61c9\u7528\u7814\u8a0e\u6703 \u66a8\u4e2d\u83ef\u6c11\u570b\u751f\u91ab\u6750\u6599\u53ca\u85e5\u7269\u5236\u653e\u5e74\u6703.<\/h6>\n
2. Jung-Chen Lin (\u6797\u69ae\u8fb0), Chen-Ying Chien, Chi-Long Lin, Chung-Yao Hsu, Jui-Yi Chen, Bing-Yu Yao, Yu- Han Liu, Zih-Syun Fang, Hui-Wen Chen, Che-Ming J. Hu (2023, Aug). Gelated cells as a robust cell-mimicking biomaterial system for cancer immunotherapy and tissue engineering. ISOMRM & BCRS Aug. 31 \u2013 Sep. 3 2023, Taipei, Taiwan 2023\u7b2c\u516d\u5c46\u53f0\u7063\u570b\u969b\u518d\u751f\u91ab\u5b78\u6750\u6599\u61c9\u7528\u7814\u8a0e\u6703 \u66a8\u4e2d\u83ef\u6c11\u570b\u751f\u91ab\u6750\u6599\u53ca\u85e5\u7269\u5236\u653e\u5e74\u6703. \u672c\u4eba\u70ba\u7b2c\u4e00\u4f5c\u8005.<\/h6>\n
3. Chung-Yao Hsu, Jung-Chen Lin (\u6797\u69ae\u8fb0), Gwo Harn Max Shiau, Bing-Yu Yao, Che-Ming Jack Hu (2023, Jul). Polymerized magnetic cells amenable to synapse formation enable selective capture of antigen-specific T lymphocytes. 2023 \u53f0\u7063\u5948\u7c73\u751f\u91ab\u5b78\u6703\u5e74\u6703\u66a8\u570b\u969b\u7814\u8a0e\u6703.<\/h6>\n
4. Gwo Harn M Shiau, Jeng Fong Chiou, Long-Sheng Lu, Shian Ying Sung, Yin-Ju Chen, Jung-Chen Lin (\u6797\u69ae\u8fb0), Chung-Yao Hsu, Che-Ming J. Hu (2023, Jul). Unbiased T cell expansion by cancer taxidermy. 2023 \u53f0\u7063\u5948\u7c73\u751f\u91ab\u5b78\u6703\u5e74\u6703\u66a8\u570b\u969b\u7814\u8a0e\u6703.<\/h6>\n
5. Chung-Yao Hsu, Lung-Chen Lin (\u6797\u69ae\u8fb0) and Che-Ming Jack Hu (2022, Jul). Enabling antigen-specific T cell isolation via active cellular engagement with gelated cellular systems. \u53f0\u7063\u5948\u7c73\u751f\u91ab\u5b78\u6703\u5b78\u6703\u5e74\u6703\u66a8\u570b\u969b\u7814\u8a0e\u6703.<\/h6>\n
6. Chung-Yao Hsu, Lung-Chen Lin (\u6797\u69ae\u8fb0), Wei-Li Liao, Vicky Shih, Che-Ming Jack Hu (2020, Nov). Facile hydrogelation of dendritic cells for rigidity-dependent immune modulation. \u81fa\u7063\u5948\u7c73\u751f\u91ab\u5b78\u6703\u5e74\u6703\u66a8\u7814\u8a0e\u6703.<\/h6>\n
7. Jung-Chen Lin (\u6797\u69ae\u8fb0), Chen-Ying Chien, Chi-Long Lin, Bing-Yu Yao, Yu-Han Liu, Zih-Syun Fang, Hui-Wen Chen and Che-Ming J. Hu (2019, Dec). Gelated dendritic cells as a robust artificial antigen presenting system for cancer immunotherapy . US-Japan Drug Delivery Symposium . \u672c\u4eba\u70ba\u7b2c\u4e00\u4f5c\u8005.<\/h6>\n
8. Jung-Chen Lin (\u6797\u69ae\u8fb0), Chen-Ying Chien, Chi-Long Lin, Bing-Yu Yao, Yu-Han Liu, Zih-Syun Fang, Hui-Wen Chen and Che-Ming J. Hu (2019, Mar). Preparation of Stable and Effective Artificial Antigen Presenting Cells by Intracellular Hydrogelation . \u751f\u91ab\u5e74\u6703. \u672c\u4eba\u70ba\u7b2c\u4e00\u4f5c\u8005.<\/h6>\n
9. Jung-Chen Lin (\u6797\u69ae\u8fb0), Shih-Ching Lin, Wen-Yu Chen, Yu-Ting Yen Chin-Wen Lai, Mi-Hua Tao, Yi-Ling Lin, Shi-Chuen Miaw, Betty A. Wu-Hsieh (2015, May). Dengue Viral Protease Interaction with NF-\u03baB Inhibitor \u03b1\/\u03b2 Results in Endothelial Cell Apoptosis and Hemorrhage Development. \u7b2c12\u5c46\u8ca1\u5718\u6cd5\u4eba\u53f0\u5317\u5e02\u6797\u69ae\u8000\u6559\u6388\u5b78\u8853\u6559\u80b2\u57fa\u91d1\u6703\u8ad6\u6587\u734e. \u672c\u4eba\u70ba\u7b2c\u4e00\u4f5c\u8005.<\/h6>\n
\u6559\u5b78\u6d3b\u52d5<\/h5>\n
2021-present \u57fa\u790e\u514d\u75ab\u5b78 \u570b\u7acb\u967d\u660e\u4ea4\u901a\u5927\u5b78\u53e3\u8154\u751f\u7269\u7814\u7a76\u6240
2015-2020 \u767c\u708e\u75be\u75c5:\u4ee5\u75c5\u7406\u5b78\u70ba\u672c\u63a2\u7d22 \u570b\u9632\u91ab\u5b78\u9662\u75c5\u7406\u53ca\u5bc4\u751f\u87f2\u7814\u7a76\u6240
2015-2016 \u7814\u7a76\u6240\u8ab2\u7a0b \u570b\u9632\u91ab\u5b78\u9662\u75c5\u7406\u90e8<\/h6>\n
\u9080\u8acb\u6f14\u8b1b<\/h5>\n
2024 Polymerizing intracellular cytosol for novel applications in cancer therapy and tissue
Engineering,\u570b\u7acb\u967d\u660e\u4ea4\u901a\u5927\u5b78\u7259\u91ab\u5b78\u9662
2023 Gelated cells (GCs) as a robust cell-mimicking biomaterial system for biomedicine:
Present and future applications of GCs, \u570b\u9632\u91ab\u5b78\u9662\u751f\u7269\u53ca\u89e3\u5256\u5b78\u7814\u7a76\u6240
2021 Instilling new life into cells with hydrogels: Present and future applications of gelated
cells (GCs) in biomedicine, \u570b\u7acb\u967d\u660e\u4ea4\u901a\u5927\u5b78\u7259\u91ab\u5b78\u9662
2019 Present and future applications of gelated cells (GCs) for biomedicine, \u570b\u9632\u91ab\u5b78\u9662\u91ab\u5b78
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