2019發表

2019

149. L.-J. Luo, T.-Y. Lin, C.-H. Yao, P.-Y. Kuo, M. Matsusaki, S. G. Harroun, C.-C. Huang* and J.-Y. Lai*, 2019: Dual-Functional Gelatin-Capped Silver Nanoparticles for Antibacterial and Antiangiogenic Treatment of Bacterial Keratitis J. Colloid Interface Sci., 536, 112–126. (IF: 7.489, △: 10) MOST 107-2314-B-182-016-MY3 and MOST 107-2811-B-182-524. [PDF]

150. C.-W. Wu, B. Unnikrishnan, Y.-T. Tseng, S.-C. Wei, H.-T. Chang* and C.-C. Huang*, 2019: Mesoporous Manganese Oxide/Manganese Ferrite Nanopopcorns with Dual Enzyme Mimic Activities: A Cascade Reaction for Selective Detection of Ketoses J. Colloid Interface Sci., 541, 75–85. (IF: 7.489, △: 4) MOST 107-2113-M-002-015-MY3, MOST 107-2113-M-019-004-MY3, and 107-2811-M-002-3108. [PDF]

151. A. Anand, B. Unnikrishnan, S.-C. Wei, C. P. Chou*, L.-Z. Zhang and C.-C. Huang*, 2019: Graphene Oxide and Carbon Dots as Broad-Spectrum Antimicrobial Agents – A Minireview Nanoscale Horiz., 4, 117–137. (IF: 9.927, △: 45) MOST 107-2113-M-019-004-MY3, MOST 107-2622-M-019-001-CC2, and MOST 107-2627-M-007-007-MY3. [PDF]

152. Y.-J. Li, L.-J. Luo, S. G. Harroun, S.-C. Wei, B. Unnikrishnan, H.-T. Chang, Y.-F. Huang, J.-Y. Lai* and C.-C. Huang*, 2019: Synergistically Dual-Functional Nano Eye-Drops for Simultaneous Anti-Inflammatory and Anti-Oxidative Treatment of Dry Eye Disease Nanoscale, 11, 5580–5594. (IF: 6.895, △: 15) MOST 105-2627-M-019-001-MY3, MOST 104-2628-M-019-001-MY3, MOST 105-2622-M-019-001-CC2, MOST 104-2314-B-182-008-MY3, and MOST 106-2811-B-182-017. [PDF]

153. T.-X. Lin, P.-X. Lai, J.-Y. Mao, H.-W. Chu, B. Unnikrishnan, A. Anand and C.-C. Huang*, 2019: Supramolecular Aptamers on Graphene Oxide for Efficient Inhibition of Thrombin Activity Front. Chem., 7, 280. (IF: 3.693, △: 4). MOST 107-2622-M-019-001-CC2, MOST 104-2628-M-019-001-MY3, MOST 107-2811-M-019-507, and MOST 106-3114-8-019-002. [PDF]

154. H.-W. Chu, C.-S. Lai, J.-Y. Ko, S. G. Harroun, C.-I Chuang, R. Y. L. Wang*, B. Unnikrishnan and C.-C. Huang*, 2019: Nanoparticle-Based LDI-MS Immunoassay for the Multiple Diagnosis of Viral Infections ACS Sens., 4, 1543–1551. (IF: 7.333, △: 9). MOST 106-2627-M-019-001-MY3, MOST 107-2622-M-019-001-CC2, MOST 107-2918-I-019-004, and MOST 107-2113-M-019-004-MY3. [PDF]

155. J.-Y. Mao, F.-Y. Lin, H.-W. Chu, S. G. Harroun, J.-Y. Lai, H.-J. Lin* and C.-C. Huang*, 2019: In Situ Synthesis of Core-Shell Carbon Nanowires as a Potent Targeted Anticoagulant J. Colloid Interface Sci., 552, 583–596. (IF: 7.489, △: 1) MOST 106-2627-M-019-001-MY3, MOST 107-2622-M-019-001-CC2, MOST 107-2918-I-019-004, and MOST 107-2113-M-019-004-MY3. [PDF]

156. C.-W. Lien, P.-H. Yu, H.-T. Chang, P.-H. Hsu, T. Wu, Y.-W. Lin*, C.-C. Huang and J.-Y. Lai*, 2019: DNA Engineered Copper Oxide-Based Nanocomposites with Multiple Enzyme-Like Activities for Specific Detection of Mercury Species in Environmental and Biological Samples Anal. Chim. Acta, 1084, 106–115. (IF: 5.977, △: 5) MOST 107-2622-B-182-001-CC2, MOST 107-2113-M-019-004-MY3, and MOST 108-2113-M-018-003. [PDF]

157. C.-J. Lin, L. Chang, H.-W. Chu, H.-J. Lin, P.-C. Chang, R. Y. L. Wang,* B. Unnikrishnan, J.-Y. Mao, S.-Y. Chen* and C.-C. Huang*, 2019: High Amplification of the Antiviral Activity of Curcumin through Transformation into Carbon Quantum Dots Small, 15, 1902641. (IF: 11.459, △: 15) MOST 107‐2622‐M‐019‐001‐CC2, MOST 107‐2627‐M‐007‐007‐MY3, and MOST 107‐2113‐M‐019‐004‐MY3. [PDF]

158. S.-C. Wei, L.-C. Chang, C.-C. Huang* and H.-T. Chang*, 2019: Dual-Functional Gold Nanoparticles with Antimicrobial and Proangiogenic Activities Improve the Healing of Multidrug-Resistant Bacteria-Infected Wounds in Diabetic Mice Biomater. Sci., 7, 4482–4490. (IF: 6.183, △: 4) MOST 107-2113-M-019-004-MY3, MOST 107-2113-M-002-015-MY3, MOST 107-2627-M-007-007-MY3, and MOST 108-2638-M-002-001-MY2. [PDF]

159. R. Sakthivel, S. Kubendhiran, S.-M. Chen, T.-W. Chen, N. Al-Zaqri, A. Alsalme, F. A. Alharthi, M. M. A. Khanjer, T.-W. Tseng* and C.-C. Huang*, 2019: Exploring the Promising Potential of MoS₂-RuS₂ Binary Metal Sulphide Towards the Electrocatalysis of Antibiotic Drug Sulphadiazine Anal. Chim. Acta, 1086, 55–65. (IF: 5.977, △: 4) MOST 107-2113-M-027-005-MY3 and MOST 108-2113-M-027-006. [PDF]

160. R. Rajakumaran, S. Ramki, S.-M. Chen*, T.-W. Chen, S. Veerasankar, T.-W. Tseng* and C.-C. Huang*, 2019: Rose-Petal-Like Morphology of Yttrium Molybdate Nanosheets (YMoO4) Anchored on Functionalized Carbon Nanofibers: An Efficient Electrocatalyst for the Electrochemical Sensing of Bisphenol-A Int. J. Electrochem. Sci., 14, 6571–6585. (IF: 1.573, △: 0) [PDF]

161. M. Kutty, R. Settu, S.-M. Chen*, T.-W. Chen, T.-W. Tseng*, A. A. Hatamleh, J. Yu, R. Yu, C.-C. Huang*, 2019: An Electrochemical Detection of Vanillin Based on Carbon Black Nanoparticles Modified Screen Printed Carbon Electrode Int. J. Electrochem. Sci., 14, 5972–5983. (IF: 1.573, △: 2) [PDF]

162. J.-S. Lin, Y.-W. Tsai, K. Dehvari, C.-C. Huang and J.-Y. Chang*, 2019: A Carbon Dots Based Theranostic Platform for Dual-Modal Imaging and Free Radical Scavenging Nanoscale, 11, 20917–20931. (IF: 6.895, △: 6) [PDF]

163. A. Anand, G. Manavalan, R.-P. Mandal, H.-T. Chang, Y.-R. Chiou and C.-C. Huang*, 2019: Carbon Dots for Bacterial Detection and Antibacterial Applications-A Minireview Curr. Pharm. Design, 25, 4848-4860. (IF: 2.208, △: 1) [PDF]