2017發表

張貼日期：Jan 22, 2017 8:21:2 AM

2017

122. C.-L. Hsu, C.-W. Lien, S. G. Harroun, R. Ravindranath, H.-T. Chang*, J.-Y. Mao and C.-C. Huang*, 2017: Metal-Deposited Bismuth Oxyiodide Nanonetworks with Tunable Enzyme-Like Activity: Sensing of Mercury and Lead Ions Mater. Chem. Front., 1, 893–899. (△:0) MOST 104-2113-M-002-008-MY3, MOST 104-2628-M-019-001-MY3, MOST 103-2314-B-182-013, and MOST 103-2627-M-007-002-MY3 [PDF].

123. J. Yu, Y.-H. Lin, L. Yang, C.-C. Huang, L. Chen, W.-C. Wang, G.-W. Chen, J. Yan, S. Sawettanun and C.-H. Lin*, 2017: Improved Anticancer Photothermal Therapy Using the Bystander Effect Enhanced by Antiarrhythmic Peptide Conjugated Dopamine-Modified Reduced Graphene Oxide Nanocomposite Adv. Healthcare Mater., 6, 1600804. (IF: 5.609, △: 4) MOST 105-2221-E-150-002.[PDF]

124. P.-Y. Lai, C.-C. Huang, T.-H. Chou, K.-L. Ou* and J.-Y. Chang*, 2017: Aqueous Synthesis of Ag and Mn Co-Doped In2S3/ZnS Quantum Dots with Tunable Emission for Dual-Modal Targeted Imaging Acta Biomater., 50, 522–533. (IF: 6.383, △: 4) MOST 105-2119-M-011-002.[PDF]

125. C.-Y. Chang, H.-W. Chu, B. Unnikrishnan, L.-H. Peng, J. Cang, P.-H. Hsu* and C.-C. Huang*, 2017: Pulse Laser-Induced Generation of Cluster Codes from Metal Nanoparticles for Immunoassay Applications APL Mater., 5, 053403. (IF: 4.127; △: 0) MOST 104-2628-M-019-001-MY3, MOST 104-2622-M-019-001-CC2, and MOST 103-2627-M-007-002-MY3.[PDF]

126. Y.-T. Tseng, S. G. Harroun, C.-W. Wu, J.-Y. Mao, H.-T. Chang* and C.-C. Huang*, 2017: Satellite-Like Gold Nanocomposites for Targeted Mass Spectrometry Imaging of Tumor Tissues Nanotheranostics, 1, 141–153. (△: 0) MOST 104-2923-M-002-006-MY3, MOST 104-2113-M-002-008-MY3, and MOST 104-2628-M-019-001-MY3.[PDF]

127. J. Yan, L. Chen, C.-C. Huang, S.-C. C. Lung, L. Yang, W.-C. Wang, P.-H. Lin, G. Suo* and C.-H. Lin*, 2017: Consecutive Evaluation of Graphene Oxide and Reduced Graphene Oxide Nanoplatelets Immunotoxicity on Monocytes Colloids Surf., B, 153, 300–309. (IF: 3.997, △: 2) MOST 105-2221-E-150-002.[PDF]

128. H.-Y. Chang, Y.-T. Tseng, Z. Yuan, H.-L. Chou*, C.-H. Chen, B.-J. Hwang, M.-C. Tsai, H.-T. Chang* and C.-C. Huang*, 2017: The Effect of Ligand–Ligand Interactions on the Formation of Photoluminescent Gold Nanoclusters Embedded in Au(I)–Thiolate Supramolecules Phys. Chem. Chem. Phys., 19, 12085–12093. (IF: 3.906, △: 4) MOST 104-2113-M-002-008-MY3, MOST 104-2923-M-002-006-MY3, and MOST 104-2628-M-019-001-MY3.[PDF]

129. J. Yan, C.-H. Lai, S.-C. C. Lung, W.-C. Wang, C.-C. Huang, G.-W. Chen, G. Suo, C.-T. Choug and C.-H. Lin*, 2017: Carbon Black Aggregates Cause Endothelial Dysfunction by Activating ROCK J. Hazard. Mater., 338, 66–75. (IF: 6.434, △: 3) MOST 105-2221-E-150-002 and MOST 104-2221-E-166-001.[PDF]

130. J. Yan, C.-C. Huang, S.-C. C. Lung, W.-C. Wang, G. Suo, Y.-J. Lin, C.-H. Lai* and C.-H. Lin*, 2017: ROCK Inhibitor Y-27632 Attenuated Early Endothelial Dysfunction Caused by Occupational Environmental Concentrations of Carbon Black Nanoparticles Environ. Sci.: Nano, 4, 1525–1533. (IF: 6.087, △: 4) MOST 105-2221-E-150-002 and MOST 104-2221-E-166-001.[PDF]

131. C.-H. Lai, G.-A. Wang, T.-K. Ling, T.-J. Wang, P.-k. Chiu, Y.-F. C. Chau, C.-C. Huang and H.-P. Chiang*, 2017: Near-Infrared Surface-Enhanced Raman Scattering based on Star-Shaped Gold/Silver Nanoparticles and Hyperbolic Metamaterial Sci. Rep., 7, 5446. (IF: 4.122, △: 1) MOST 102-2221-E-224-069-MY3 and MOST 103-2112-M-019-003-MY3.[PDF]

132. H.-J. Jian, R.-S. Wu, T.-Y. Lin, Y.-J. Li, H.-J. Lin, S. G. Harroun, J.-Y. Lai* and C.-C. Huang*, 2017: Super-Cationic Carbon Quantum Dots Synthesized from Spermidine as an Eye Drop Formulation for Topical Treatment of Bacterial Keratitis ACS Nano, 11, 6703–6716. (IF: 13.709, △: 9) 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, MOST 105-2811-B-182-002, and MOST 105-2811-B-182-008.[PDF]

133. C.-H. Lee, Y.-J. Li, C.-C. Huang* and J.-Y. Lai*, 2017: Poly(ε-caprolactone) Nanocapsule Carriers with Sustained Drug Release: Single Dose for Long-Term Glaucoma Treatment Nanoscale, 9, 11754–11764. (IF: 7.233, △: 4) MOST 104-2314-B-182-008-MY3, MOST 105-2811-B-182-002, MOST 105-2811-B-182-008, and CMRPD2C0071-73.[PDF]

134. S. G. Harroun, J.-Y. Lai, C.-C. Huang, S.-K. Tsai and H.-J. Lin*, 2017: Reborn from the Ashes: Turning Organic Molecules to Antimicrobial Carbon Quantum Dots ACS Infect. Dis., 3, 777–779. (IF: 4.325, △: 1) MOST 104-2113-M-002-008-MY3, MOST 104-2628-M-019-001-MY3, MOST 105-2627-M-019-001-MY3, and MOST 105-2622-M-019-001-CC2.[PDF]

135. H.-W. Chu, J.-Y. Mao, C.-W. Lien, P.-H. Hsu, Y.-J. Li, J.-Y. Lai, T.-C. Chiu* and C.-C. Huang*, 2017: Pulse Laser-Induced Fragmentation of Carbon Quantum Dots: A Structural Analysis Nanoscale, 9, 18359–18367. (IF: 7.233, △: 0) MOST 105-2627-M-019-001-MY3, MOST 105-2622-M-019-001-CC2, and MOST 104-2628-M-019-001-MY3.[PDF]

136. J.-Y. Mao, H.-W. Li, S.-C. Wei, S. G. Harroun, M.-Y. Lee, H.-Y. Lin, C.-Y. Chung, C.-H. Hsu, Y.-R. Chen, H.-J. Lin* and C.-C. Huang*, 2017: DNA Modulates the Interaction of Genetically Engineered DNA-Binding Proteins and Gold Nanoparticles: Diagnosis of High-Risk HPV Infection ACS Appl. Mater. Interfaces, 9, 44307–44315. (IF: 8.097, △: 2) MOST 104-2113-M-002-008-MY3, MOST 104-2628-M-019-001-MY3, MOST 105-2627-M-019-001-MY3, and MOST 105-2622-M-019-001-CC2.[PDF]