黃仲仁 / 研究助技師

研究興趣

• 軟物質物理、流變學、流體力學、界面物理、儀器設計發展
• Soft materials: soft and/or biological colloidal suspensions, e.g., emulsions and RBCs, lipid bilayer membranes, polymer solutions, surfactants; structure-rheology relation of soft materials; granular materials; physics of interfaces; light scattering techniques, rheometry

經歷

• 2017-Current: Senior Assistant Research Scientist, Institute of Physics, Academia Sinica
• 2010-2017: Assistant Professor, Department of Physics, National Taiwan Normal University
• 2010-2011: Consultant, Material and Chemical Research Laboratory, Industrial Technology Research Institute
• 2006-2009: Postdoctoral scholar, Department of Chemistry and Biochemistry, University of California-Los Angeles
• 1999-2006: Teaching and research assistant, Department of Physics, University of Chicago
• 1997-1999: Research assistant, Institute of Physics, Academia Sinica

學術著作

期刊論文

• [1]     Fan-Wei Wang , Michela Geri, Yun-Ju Chen, Jung-Ren Huang, Gareth H. McKinley*, Yeng-Long Chen*, 2022, “Rheo-chemistry of gelation in aiyu (fig) jelly”, Food Hydrocolloids, 123, 107001. (SCIE) (IF: 9.147; SCI ranking: 6.8%,3.5%)
  
  
• [2]     Fan-Wei Wang, Yun-Ju Chen, Jung-Ren Huang, Yeng-Long Chen*, 2022, “Probing the Stoichiometry Dependence of Enzyme-Catalyzed Junction Zone Network Formation in Aiyu Pectin Gel via a Reaction Kinetics Model”, Polymers, 14(21), 4631. (SCIE) (IF: 4.329; SCI ranking: 19.8%)
  
  
• [3]     J.-C. Tsai*, M.-R. Chou, P.-C. Huang, H.-T. Fei, J.-R. Huang*, 2020, “Soft granular particles sheared at a controlled volume: rate-dependent dynamics and the solid–fluid transition”, SOFT MATTER, 16(32),7535-7543. (SCIE, Scopus) (IF: 3.679; SCI ranking: 46.9%,43.8%,26.7%,28.6%)
  
  
• [4]     Laetitia Dalstein, Jung-Ren Huang, Yu-Chieh Wen*, 2020, “Wavelength-scanning second-harmonic generation for determining absolute charge density at aqueous interfaces”, OPTICS LETTERS, 45(13), 3733-3736. (SCIE, Scopus) (IF: 3.776; SCI ranking: 22.2%)
  
  
• [5]     Kiwing To*, Yun Yen, Yi-Kai Mo, Jung-Ren Huang, 2019, “Granular flow from silos with rotating orifice”, PHYSICAL REVIEW E, 100, 012906. (SCIE) (IF: 2.529; SCI ranking: 35.3%,14.5%)
  
  
• [6]     Jung-Ren Huang*, Yu-Che Cheng, Hung Ji Huang, Hai-Pang Chiang*, 2018, “Confocal mapping of myelin figures with micro-Raman spectroscopy”, Applied Physics A, 124(1), 58. (Scopus)
  
  
• [7]     C.-J. Chen, J.-R. Huang*, I.-S. Hwang, H. J. Choi, P.-Y. Lai, C. K. Chan*, 2017, “Effect of degassing on the aggregation of carbon nanotubes dispersed in water”, EPL (Europhysics Letters), 120(1), 16004. (Scopus)
  
  
• [8]     Chih-Tang Liao, Yi-Fan Wu, Wei Chien, Jung-Ren Huang*, Yeng-Long Chen*, 2017, “Modeling shear-induced particle ordering and deformation in a dense soft particle suspension”, Journal of Physics: Condensed Matter, 29(43), 435101. (Scopus)
  
  
• [9]     Y.-C. Sun, H.-T. Fei, P.-C. Huang, W.-T. Juan, J.-R. Huang*, J.-C. Tsai*, 2016, “Short granular chain under vibration: Spontaneous switching of states”, Physical Review E, 93(3), 032902. (SCIE, Scopus) (IF: 2.529; SCI ranking: 35.3%,14.5%)
  
  
• [10]     J.-C. Tsai*, C.-Y. Tao, Y.-C. Sun, C.-Y. Lai, K.-H. Huang, W.-T. Juan, J.-R. Huang, 2015, “Vortex-induced morphology on a two-fluid interface and the transitions”, Physical Review E, 92(3), 031002(R). (SCIE, Scopus) (IF: 2.529; SCI ranking: 35.3%,14.5%)
  
  
• [11]     Yi-hsuan Lee, Jung-ren Huang, Yang-kao Wang, Keng-hui Lin*, 2013, “Three-dimensional fibroblast morphology on compliant substrates of controlled negative curvature”, Integrative Biology, 5(12), 1447. (SCIE, Scopus) (IF: 2.192; SCI ranking: 86.2%)
  
  
• [12]     Xiaoming Zhu, Michael M. Fryd, Jung-Ren Huang, Thomas G. Mason*, 2012, “Optically probing nanoemulsion compositions”, Physical Chemistry Chemical Physics, 14(7), 2455. (SCIE, Scopus) (IF: 3.676; SCI ranking: 47.5%,21.6%)
  
  
• [13]     Jung-Ren Huang*, Thomas G. Mason*, 2009, “Deformation, restructuring, and un-jamming of concentrated droplets in large-amplitude oscillatory shear flows”, Soft Matter, 5(11), 2208. (SCIE, Scopus) (IF: 3.679; SCI ranking: 46.9%,43.8%,26.7%,28.6%)
  
  
• [14]     Jacob R. Rothenbuhler, Jung-Ren Huang, Brian A. DiDonna, Alex J. Levine, Thomas G. Mason*, 2009, “Mesoscale structure of diffusion-limited aggregates of colloidal rods and disks”, Soft Matter, 5(19), 3639. (SCIE, Scopus) (IF: 3.679; SCI ranking: 46.9%,43.8%,26.7%,28.6%)
  
  
• [15]     J.-R. Huang, T. G. Mason *, 2008, “Shear oscillation light scattering of droplet deformation and reconfiguration in concentrated emulsions”, EPL (Europhysics Letters), 83(2), 28004. (Scopus)
  
  
• [16]     J. -R. Huang*, 2006, “Theory of myelin coiling”, The European Physical Journal E, 19(4), 399-412. (SCIE, Scopus) (IF: 1.89; SCI ranking: 81.5%,75.3%,65%,72.5%)
  
  
• [17]     J.-R. Huang*, L.-N. Zou, T. A. Witten, 2005, “Confined multilamellae prefer cylindrical morphology”, The European Physical Journal E, 18(3), 279-285. (SCIE, Scopus) (IF: 1.89; SCI ranking: 81.5%,75.3%,65%,72.5%)
  
  
• [18]     Jung-Ren Huang*, Thomas A. Witten, 2002, “Universal Ratios of Characteristic Lengths in Semidilute Polymer Solutions”, Macromolecules, 35(27), 10225-10232. (SCIE) (IF: 5.985; SCI ranking: 8.8%)