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2nd International Conference and Exhibition on Materials & Engineering

Materials San Diego 2018

Nov 19-21 2018, San Diego,USA

Conference Updates

committee

Members

Yung-Chih Kuo

Professor

Dr. Yung-Chih Kuo is a professor at the Department of Chemical Engineering, National Chung Cheng University.  His research interests are focused on biomaterials, nanomedicine, drug delivery system, tissue engineering, blood–brain barrier, cancer therapy, stem cell differentiation, nerve regeneration, spinal cord injury treatment, stroke treatment, and Alzheimer’s and Parkinson’s disease therapy, biophysics, and colloid and interface science.  In these fields, he has authored or coauthored more than 140 SCI journal papers, more than 10 book chapters and several patents.  He is a fellow of Royal Society of Chemistry (UK), an honor member of Phi Tau Phi Society, a life member in various academic Societies including American Nano Society, European Atherosclerosis Society, Asia-Pacific Chemical, Biological and Environmental Engineering Society, Asian Federation of Biotechnology, Asian Biotechnology Directory, Taiwanese Society of Biomedical Engineering, Chinese Institute of Engineers, Taiwan Institute of Chemical Engineers, Biochemical Engineering Society of Taiwan, and Taiwan Biomaterials and Controlled Release Society.  He won Prof. Yen-Ping Shih Paper Award in 2017, Best Paper Award in 2016 and 2008, Prof. Tsai-Teh Lai Award in 2015, Special and Talented Scholar Award in 2013-5 and 2017, Outstanding Research Award in 2013, and Young Scholar Award in 2003.  He is also an associate editor of J. Taiwan Inst. Chem. Eng. and an editorial board member in 12 journals, and has been invited as an organizing committee member of many international conferences, a manuscript reviewer for over 100 journals (top reviewer of the Journal of Physical Chemistry (American Chemical Society)), an external reviewer for academic awards, research grants, faculty recruitments and promotions, and financial support of hosting international symposiums, and an advisory board committeeman of international conferences and symposiums. 

Biomaterials, Drug delivery system, Nanomedicine, Tissue engineering (Cartilage, Pancreas), Blood–brain barrier, Cancer therapy, Nerve regeneration (Spinal cord injury treatment, Stroke treatment, Alzheimer’s disease therapy, Parkinson’s disease therapy), Biophysics, Colloid and interface science

Prof. Yen-Ping Shih Paper Award, Taiwan Institute of Chemical Engineers (2017), Best Paper Award, 2nd International Conference on Chemical and Polymer Engineering (2016), Prof. Tsai-Teh Lai Award, Taiwan Institute of Chemical Engineers (2015), Special and Talented Scholar Award, Ministry of Science and Technology (2013-5), Distinguished Research Award, National Chung Cheng University (2013), Distinguished Research Award, Collage of Engineering, National

  1. Kuo, Y. C.*, H. F. Ku, and R. Rajesh, 2017, 09, "Chitosan/γ-poly(glutamic acid) scaffolds with surface-modified albumin, elastin and poly-L-lysine for cartilage tissue engineering," Mater. Sci. Eng. C 78, 265–277. 
  2. Kuo, Y. C.* and R. Rajesh, 2017, 08, "Nerve growth factor-loaded heparinized cationic solid lipid nanoparticles for regulating membrane charge of induced pluripotent stem cells during differentiation," Mater. Sci. Eng. C 77, 680–689. 
  3. Kuo, Y. C.* and R. Rajesh, 2017, 08, "A critical overview of therapeutic strategy and advancement for Alzheimer’s disease treatment," J. Taiwan Inst. Chem. Eng. 77, 92–105. 
  4. Kuo, Y. C.* and I. H. Wang, 2017, 08, "Using catanionic solid lipid nanoparticles with wheat germ agglutinin and lactoferrin for targeted delivery of etoposide to glioblastoma multiforme," J. Taiwan Inst. Chem. Eng. 77, 73–82. 
  5. Kuo, Y. C.* and R. Rajesh, 2017, 08, "Guided differentiation and tissue regeneration of induced pluripotent stem cells using biomaterials," J. Taiwan Inst. Chem. Eng. 77, 41–53. 
  6. Kuo, Y. C.*, C. H. Lee, and R. Rajesh, 2017, 08, "Recent advances in the treatment of glioblastoma multiforme by inhibiting angiogenesis and using nanocarrier systems," J. Taiwan Inst. Chem. Eng. 77, 30–40. 
  7. Kuo, Y. C.* and C. C. Hsu, 2017, 08, "Anti-melanotransferrin and apolipoprotein E on doxorubicin-loaded cationic solid lipid nanoparticles for pharmacotherapy of glioblastoma multiforme," J. Taiwan Inst. Chem. Eng. 77, 10–20. 
  8. Kuo, Y. C.*, Y. C. Liu, and R. Rajesh, 2017, 08, "Pancreatic differentiation of induced pluripotent stem cells in activin A-grafted gelatin-poly(lactide-co-glycolide) nanoparticle scaffolds with induction of LY294002 and retinoic acid," Mater. Sci. Eng. C 77, 386–393. 
  9. Kuo, Y. C.* and R. Rajesh, 2017, 08, "Targeted delivery of rosmarinic acid across the blood–brain barrier for neuronal rescue using polyacrylamide-chitosan-poly(lactide-co-glycolide) nanoparticles with surface cross-reacting material 197 and apolipoprotein E," Int. J. Pharm. 528, 228–241. 
  10. Kuo, Y. C.* and C. H. Hsueh, 2017, 07, "Neuronal production from induced pluripotent stem cells in self-assembled collagen-hyaluronic acid-alginate microgel scaffolds with grafted GRGDSP/Ln5-P4," Mater. Sci. Eng. C 76, 760–774. 
  11. Kuo, Y. C.* and C. W. Tsao, 2017, 04, "Neuroprotection against apoptosis of SK-N-MC cells using RMP-7- and lactoferrin-grafted liposomes carrying quercetin," Int. J. Nanomed. 12, 2857–2869. 
  12. Kuo, Y. C.*, C. Y. Lin, J. S. Li, and Y. I. Lou, 2017, 03, "Wheat germ agglutinin-conjugated liposomes incorporated with cardiolipin to improve neuronal survival for Alzheimer’s disease treatment," Int. J. Nanomed. 12, 1757–1774.  
  13. Kuo, Y. C.* and C. W. Chen, 2017, 03, "Neuroregeneration of iPS cells in polyacrylamide-chitosan inverted colloidal crystal scaffolds with poly(lactide-co-glycolide) nanoparticles and TATVHL peptide," Tissue Eng. A 23, 1–12. 
  14. Kuo, Y. C.* and Y. J. Lee, 2016, 12, "Rescuing cholinergic neurons from apoptotic degeneration by targeting of serotonin modulator- and apolipoprotein E-conjugated liposomes to hippocampus," Int. J. Nanomed. 11, 6809–6824. 
  15. Kuo, Y. C.* and Y. C. Chen, 2016, 10, "Regeneration of neurite-like cells from induced pluripotent stem cells in self-assembled hyaluronic acid-gelatin microhydrogel," J. Taiwan Inst. Chem. Eng. 67, 74–87. 
  16. Kuo, Y. C.* and I. H. Wang, 2016, 08, "Enhanced delivery of etoposide across the blood–brain barrier to restrain brain tumor growth using melanotransferrin antibody- and tamoxifen-conjugated solid lipid nanoparticles," J. Drug Target. 24, 645–654. 
  17. Kuo, Y. C.* and I. W. Chao, 2016, 04, "Conjugation of melanotransferrin antibody on solid lipid nanoparticles for mediating brain cancer malignancy," Biotechnol. Prog. 32, 480–490. 
  18. Kuo, Y. C.* and I. H. Lee, 2016, 04, "Delivery of doxorubicin to glioblastoma multiforme in vitro using solid lipid nanoparticles with surface aprotinin and melanotransferrin antibody for enhanced chemotherapy," J. Taiwan Inst. Chem. Eng. 61, 32–45. 
  19. Kuo, Y. C.* and C. H. Lee, 2016, 02, "Dual targeting of solid lipid nanoparticles grafted with 83-14 MAb and anti-EGF receptor for malignant brain tumor therapy," Life Sci. 146, 222–231. 
  20. Kuo, Y. C.* and S. J. Cheng, 2016, 02, "Brain targeted delivery of carmustine using solid lipid nanoparticles modified with tamoxifen and lectoferrin for antitumor proliferation," Int. J. Pharm. 499, 10–19.  
  21. Kuo, Y. C.* and C. C. Lin, 2015, 04, "Rescuing apoptotic neurons from Alzheimer’s disease using wheat germ agglutinin-conjugated and cardiolipin-conjugated liposomes with encapsulated neuron growth factor and curcumin," Int. J. Nanomed. 10, 2653–2672. 
  22. Kuo, Y. C.* and C. H. Lee, 2015, 04, "Inhibition against growth of glioblastoma multiforme in vitro using etoposide-loaded solid lipid nanoparticles with p-aminophenyl-α-D-manno-pyranoside and folic acid," J. Pharm. Sci. 104, 1804–1814. 
  23. Kuo, Y. C.* and C. Y. Lin, 2015, 02, "Targeting delivery of liposomes with conjugated p-aminophenyl-α-D-manno-pyranoside and apolipoprotein E for inhibiting neuronal degeneration insulted with β-amyloid peptide," J. Drug Target. 23, 147–158. 
  24. Kuo, Y. C.* and Y. C. Chen, 2015, 02, "Targeting delivery of etoposide to inhibit the growth of human glioblastoma multiforme using lactoferrin- and folic acid-grafted poly(lactide-co-glycolide) nanoparticles," Int. J. Pharm. 479, 138–149. 
  25. Kuo, Y. C.* and C. C. Wang, 2015, 01, "Carmustine-loaded catanionic solid lipid nanoparticles with serotonergic 1B receptor subtype antagonist for in vitro targeted delivery to inhibit brain cancer growth," J. Taiwan Inst. Chem. Eng. 46, 1–14. 
  26. Kuo, Y. C.* and Y. C. Liu, 2014, 10, "Cardiolipin-incorporated liposomes with surface CRM197 for enhancing neuronal survival against neurotoxicity," Int. J. Pharm. 473, 334–344.  
  27. Chen, G. J., Y. Z. Su, C. Hsu, Y. L. Lo, S. J. Huang, J. H. Ke, Y. C. Kuo, and L. F. Wang*, 2014, 09, "Angiopep-pluronic F127-conjugated superparamagnetic iron oxide nanoparticles as nanotheranostic agents for BBB targeting," J. Mater. Chem. B 2, 5666–5675. 
  28. C. C. Wang and Y. C. Kuo*, 2014, 09, "Capillary electrophoresis of induced pluripotent stem cells during differentiation toward neurons," J. Taiwan Inst. Chem. Eng. 45, 2096–2105. 
  29. Kuo, Y. C.* and P. R. Chou, 2014, 08, "Neuroprotection against degeneration of SK-N-MC cells using neuron growth factor-encapsulated liposomes with surface cereport and transferrin," J. Pharm. Sci. 103, 2484–2497. 
  30. Kuo, Y. C.* and C. Y. Shih-Huang, 2014, 07, "Solid lipid nanoparticles with surface antibody for targeting the brain and inhibiting lymphatic phagocytosis," J. Taiwan Inst. Chem. Eng. 45, 1154–1163. 
  31. Kuo, Y. C.* and C. T. Wang, 2014, 07, "Protection of SK-N-MC cells against β-amyloid peptide-induced degeneration using neuron growth factor-loaded liposomes with surface lactoferrin," Biomaterials 35, 5954–5964. 
  32. Kuo, Y. C.* and L. J. Wang, 2014, 05, "Transferrin-grafted catanionic solid lipid nanoparticles for targeting delivery of saquinavir to the brain," J. Taiwan Inst. Chem. Eng. 45, 755–763. 
  33. Kuo, Y. C.* and T. Y. Hong, 2014, 04, "Delivering etoposide to the brain using catanionic solid lipid nanoparticles with surface 5-HT-moduline," Int. J. Pharm. 465, 132–142. 
  34. Kuo, Y. C.* and C. C. Wang, 2014, 01, "Cationic solid lipid nanoparticles with cholesterol-mediated surface layer for transporting saquinavir to the brain," Biotechnol. Prog. 30, 198–206. 
  35. Chung, C. Y., J. T. Yang, and Y. C. Kuo*, 2013, 12, "Polybutylcyanoacrylate nanoparticles for delivering hormone response element-conjugated neurotrophin-3 to the brain of intracerebral hemorrhagic rats," Biomaterials 34, 9717–9727. 
  36. Kuo, Y. C.* and C. Y. Shih-Huang, 2013, 09, "Solid lipid nanoparticles carrying chemotherapeutic drug across the blood–brain barrier through insulin receptor-mediated pathway," J. Drug Target. 21, 730–738. 
  37. Chung, C. Y., J. T. Yang, and Y. C. Kuo*, 2013, 07, "Polybutylcyanoacrylate nanoparticle-mediated neurotrophin-3 gene delivery for differentiating iPS cells into neurons," Biomaterials 34, 5562–5570. 
  38. Kuo, Y. C.* and H. F. Ko, 2013, 07, "Targeting delivery of saquinavir to the brain using 83-14 monoclonal antibody-grafted solid lipid nanoparticles," Biomaterials 34, 4818–4830. 
  39. Kuo, Y. C.* and C. C. Wang, 2013, 04, "Guided differentiation of induced pluripotent stem cells into neuronal lineage in alginate-chitosan-gelatin hydrogels with surface neuron growth factor," Colloids Surf. B 104, 194–199. 
  40. Kuo, Y. C.* and C. C. Lin, 2013, 03, "Accelerated nerve regeneration using induced pluripotent stem cells in chitin-chitosan-gelatin scaffolds with inverted colloidal crystal geometry," Colloids Surf. B 103, 595–600. 
  41. Lyu, S. R., Y. C. Kuo*, H. F. Ku, and W. H. Hsieh, 2013, 03, "Cryopreserved chondrocytes in porous biomaterials with surface elastin and poly-L-lysine for cartilage regeneration," Colloids Surf. B 103, 304–309. 
  42. Kuo, Y. C.* and C. W. Chen, 2013, 02, "Inverted colloidal crystal scaffolds with induced pluripotent stem cells for nerve tissue engineering," Colloids Surf. B 102, 789–794. 
  43. Kuo, Y. C.* and Y. H. Chang, 2013, 02, "Differentiation of induced pluripotent stem cells toward neurons in hydrogel biomaterials," Colloids Surf. B 102, 405–411. 
  44. Kuo, Y. C.* and C. C. Wang, 2013, 01, "Cationic solid lipid nanoparticles with primary and quaternary amines for release of saquinavir and biocompatibility with endothelia," Colloids Surf. B 101, 101–105. 
  45. Kuo, Y. C.* and C. Y. Chung, 2012, 12, "TATVHL peptide-grafted alginate/poly(γ-glutamic acid) scaffolds with inverted colloidal crystal topology for neuronal differentiation of iPS cells," Biomaterials 33, 8955–8966. 
  46. Kuo, Y. C.* and C. T. Wang, 2012, 12, "Neuronal differentiation of induced pluripotent stem cells in hybrid polyester scaffolds with heparinized surface," Colloids Surf. B 100, 9–15. 
  47. Kuo, Y. C.* and C. C. Wang, 2012, 08, "Surface molecular composition and electrical property of cationic solid lipid nanoparticles with assembled lipid layer mediated by noncovalent interactions," J. Phys. Chem. C 116, 16999–17007. 
  48. Kuo, Y. C.* and M. J. Huang, 2012, 08, "Material-driven differentiation of induced pluripotent stem cells in neuron growth factor-grafted poly(ε-caprolactone)-poly(β-hydroxybutyrate) scaffolds," Biomaterials 33, 5672–5682. 
  49. Kuo, Y. C.* and C. C. Wang, 2012, 05, "Cartilage regeneration by culturing chondrocytes in scaffolds grafted with TATVHL peptide," Colloids Surf. B 93, 235–240. 
  50. Kuo, Y. C.* and C. Y. Chung, 2012, 05, "Chondrogenesis in scaffolds with surface modification of elastin and poly-L-lysine," Colloids Surf. B 93, 85–91. 
  51. Lyu, S. R., Y. C. Kuo*, M. H. Lin, W. H. Hsieh, and C. W. Chuang, 2012, 03, "Application of albumin-grafted scaffolds to promote neocartilage formation," Colloids Surf. B 91, 296–301. 
  52. Kuo, Y. C.* and C. H. Lu, 2012, 03, "Modulation of efflux proteins by electromagnetic field for delivering azidothymidine and saquinavir into the brain," Colloids Surf. B 91, 291–295. 
  53. Kuo, Y. C.* and C. Y. Chung, 2012, 03, "Transcytosis of CRM197-grafted polybutylcyanoacrylate nanoparticles for delivering zidovudine across human brain-microvascular endothelial cells," Colloids Surf. B 91, 242–249. 
  54. Kuo, Y. C.* and C. H. Lu, 2012, 03, "Expression of P-glycoprotein and multidrug resistance-associated protein on human brain-microvascular endothelial cells with electromagnetic stimulation," Colloids Surf. B 91, 57–62. 
  55. Kuo, Y. C.* and C. L. Lee, 2012, 02, "Methylmethacrylate–sulfopropylmethacrylate nanoparticles with surface RMP-7 for targeting delivery of antiretroviral drugs across the blood–brain barrier," Colloids Surf. B 90, 75–82. 
  56. Kuo, Y. C.* and C. Y. Chung, 2011, 12, "Solid lipid nanoparticles comprising internal Compritol 888 ATO, tripalmitin and cacao butter for encapsulating and releasing stavudine, delavirdine and saquinavir," Colloids Surf. B 88, 682–690. 
  57. Kuo, Y. C.* and H. W. Yu, 2011, 12, "Expression of ornithine decarboxylase during the transport of saquinavir across the blood–brain barrier using composite polymeric nanocarriers under an electromagnetic field," Colloids Surf. B 88, 627–634. 
  58. Lin, S. H.*, J. P. Hsu, S. Tseng, Y. C. Kuo, and B. T. Liu, 2011, 11, "EDL configuration on a dissimilarly-charged protrusion array via double Fourier series and perturbation method," Colloids Surf. B 88, 527–533. 
  59. Kuo, Y. C.* and H. W. Yu, 2011, 11, "Polyethyleneimine/poly-(γ-glutamic acid)/poly(lactide-co-glycolide) nanoparticles for loading and releasing antiretroviral drug," Colloids Surf. B 88, 158–164. 
  60. Kuo, Y. C.* and C. H. Lu, 2011, 10, "Regulation of endocytosis into human brain-microvascular endothelial cells by inhibition of efflux proteins," Colloids Surf. B 87, 139–145. 
  61. Kuo, Y. C.* and H. W. Yu, 2011, 09, "Transport of saquinavir across human brain-microvascular endothelial cells by poly(lactide-co-glycolide) nanoparticles with surface poly-(γ-glutamic acid)," Int. J. Pharm. 416, 365–375. 
  62. Lin, S. H.*, J. P. Hsu, S. Tseng, Y. C. Kuo, and B. T. Liu, 2011, 09, "Solving EDL configuration near a dissimilarly-charged protrusions surface model using perturbation method," Colloids Surf. B 86, 370–377. 
  63. Kuo, Y. C.* and C. H. Lu, 2011, 08, "Effect of human astrocytes on the characteristics of human brain-microvascular endothelial cells in the blood–brain barrier," Colloids Surf. B 86, 225–231. 
  64. Kuo, Y. C.*, P. I. Lin, and C. C. Wang, 2011, 08, "Targeting nevirapine delivery across human brain microvascular endothelial cells using transferrin-grafted poly(lactide-co-glycolide) nanoparticles," Nanomedicine 6, 1011–1026. 
  65. Kuo, Y. C.* and C. T. Liang, 2011, 07, "Catanionic solid lipid nanoparticles carrying doxorubicin for inhibiting the growth of U87MG cells," Colloids Surf. B 85, 131–137. 
  66. Kuo, Y. C.* and H. W. Yu, 2011, 05, "Surface coverage of didecyl dimethylammonium bromide on poly(lactide-co-glycolide) nanoparticles," Colloids Surf. B 84, 253–258.  
  67. Yang, J. T., Y. C. Kuo*, and K. H. Chiu, 2011, 05, "Peptide-modified inverted colloidal crystal scaffolds with bone marrow stromal cells in the treatment for spinal cord injury," Colloids Surf. B 84, 198–205. 
  68. Kuo, Y. C.* and C. C. Wang, 2011, 05, "Surface modification with peptide for enhancing chondrocyte adhesion and cartilage regeneration in porous scaffolds," Colloids Surf. B 84, 63–70. 
  69. Kuo, Y. C.* and C. T. Liang, 2011, 04, "Inhibition of human brain malignant glioblastoma cells using carmustine-loaded catanionic solid lipid nanoparticles with surface anti-epithelial growth factor receptor," Biomaterials 32, 3340–3350. 
  70. Kuo, Y. C.* and J. F. Chung, 2011, 04, "Physicochemical properties of nevirapine-loaded solid lipid nanoparticles and nanostructured lipid carriers," Colloids Surf. B 83, 299–306. 
  71. Kuo, Y. C.* and C. F. Yeh, 2011, 02, "Effect of surface-modified collagen on the adhesion, biocompatibility and differentiation of bone marrow stromal cells in poly(lactide-co-glycolide)/chitosan scaffolds," Colloids Surf. B 82, 624–631. 
  72. Kuo, Y. C.* and Y. T. Tsai, 2011, 02, "Heparin-conjugated scaffolds with pore structure of inverted colloidal crystals for cartilage regeneration," Colloids Surf. B 82, 616–623. 
  73. Kuo, Y. C.* and K. H. Chiu, 2011, 01, "Inverted colloidal crystal scaffolds with laminin-derived peptides for neuronal differentiation of bone marrow stromal cells," Biomaterials 32, 819–831. 
  74. Kuo, Y. C.* and H. H. Chen, 2010, 07, "Effect of electromagnetic field on endocytosis of cationic solid lipid nanoparticles by human brain-microvascular endothelial cells," J. Drug Target. 18, 447–456.  
  75. Kuo, Y. C.* and Y. T. Tsai, 2010, 03, "Inverted colloidal crystal scaffolds for uniform cartilage regeneration," Biomacromolecules 11, 731–739. 
  76. Kuo, Y. C.* and C. C. Wang, 2010, 03, "Effect of bovine pituitary extract on the formation of neocartilage in chitosan/gelatin scaffolds," J. Taiwan Inst. Chem. Eng. 41, 150–156. 
  77. Wu, H. C.*, Y. C. Kuo, Y. H. Wang, C. W. Wu, and H. C. Hsiao, 2010, 03, "Study on safe air transporting velocity of nanograde aluminum, iron, and titanium," J. Loss Prev. Process Ind. 23, 308–311. 
  78. Kuo, Y. C.* and C. C. Wang, 2010, 03, "Electrophoresis of human brain microvascular endothelial cells with uptake of cationic solid lipid nanoparticles: effect of surfactant composition," Colloids Surf. B 76, 286–291. 
  79. Kuo, Y. C.* and S. N. Leou, 2010, 02, "Chondrogenesis of articular chondrocytes in hydroxyapatite/chitin/chitosan scaffolds supplemented with pituitary extract," Eng. Life Sci. 10, 67–74. 
  80. Kuo, Y. C.*, K. H. Shih, and J. T. Yang, 2010, 01, "Capillary electrophoresis of bone marrow stromal cells with the uptake of heparin-functionalized poly(lactide-co-glycolide) nanoparticles during differentiation towards neurons," Electrophoresis 31, 315–323. 
  81. Kuo, Y. C.*, C. F. Yeh, and J. T. Yang, 2009, 12, "Differentiation of bone marrow stromal cells in poly(lactide-co-glycolide)/chitosan scaffolds," Biomaterials 30, 6604–6613. 
  82. Kuo, Y. C.* and Y. R. Hsu, 2009, 10, "Tissue-engineered polyethylene oxide/chitosan scaffolds as potential substitutes for articular cartilage," J. Biomed. Mater. Res. A 91, 277–287. 
  83. Kuo, Y. C.* and C. W. Lin, 2009, 09, "Impact of arginine-modified solid lipid nanoparticles on the membrane charge of human brain-microvascular endothelial cells," Colloids Surf. B 72, 201–207. 
  84. Kuo, Y. C.* and I. N. Ku, 2009, 09, "Application of polyethyleneimine-modified scaffolds to the regeneration of cartilaginous tissue," Biotechnol. Prog. 25, 1459–1467. 
  85. Kuo, Y. C.* and K. H. Shih, 2009, 07, "Loading efficiency and surface conductance of heparin-modified poly(lactide-co-glycolide) nanoparticles," Colloids Surf. B 71, 282–287. 
  86. Kuo, Y. C.* and C. W. Lin, 2009, 06, "Effect of electromagnetic field and surface modification on the electrical behavior of novel solid lipid nanoparticles covered with L-arginine," Colloids Surf. B 71, 45–51. 
  87. Kuo, Y. C.* and H. H. Chen, 2009, 01, "Entrapment and release of saquinavir using novel cationic solid lipid nanoparticles," Int. J. Pharm. 365, 206–213. 
  88. Kuo, Y. C.* and I. N. Ku, 2008, 10, "Cartilage regeneration by novel polyethylene oxide/chitin/chitosan scaffolds," Biomacromolecules 9, 2662–2669. 
  89. Kuo, Y. C.* and S. C. Lin, 2008, 04, "Effect of glutamate on the electrical properties of cationic solid lipid nanoparticles containing stearylamine and dioctadecyldimethyl ammonium bromide," J. Phys. Chem. B 112, 4454–4460. 
  90. Kuo, Y. C.*, H. K. Huang, and H. C. Wu, 2008, 04, "Thermal characteristics of aluminum nanoparticles and oilcloths," J. Hazard. Mater. 152, 1002–1010.  IOSH94–S101 
  91. Kuo, Y. C.* and C. Y. Kuo, 2008, 03, "Electromagnetic interference in the permeability of saquinavir across the blood–brain barrier using nanoparticulate carriers," Int. J. Pharm. 351, 271–281. 
  92. Kuo, Y. C.* and I. C. Chen, 2007, 09, "Evaluation of surface charge density and surface potential by electrophoretic mobility for solid lipid nanoparticles and human brain-microvascular endothelial cells," J. Phys. Chem. B 111, 11228–11236. 
  93. Kuo, Y. C.* and F. L. Su, 2007, 08, "Transport of stavudine, delavirdine, and saquinavir across the blood–brain barrier by polybutylcyanoacrylate, methylmethacrylate–sulfopropylmethacrylate, and solid lipid nanoparticles," Int. J. Pharm. 340, 143–152. 
  94. Kuo, Y. C.* and I. N. Ku, 2007, 02, "Effects of gel concentration, human fibronectin, and cation supplement on the tissue-engineered cartilage," Biotechnol. Prog. 23, 238–245. 
  95. Kuo, Y. C.* and S. N. Leou, 2006, 12, "Effects of composition, solvent, and salt particles on the physicochemical properties of polyglycolide/poly(lactide-co-glycolide) scaffolds," Biotechnol. Prog. 22, 1664–1670. 
  96. Kuo, Y. C.* and H. H. Chen, 2006, 12, "Effect of nanoparticulate polybutylcyanoacrylate and methylmethacrylate–sulfopropylmethacrylate on the permeability of zidovudine and lamivudine across the in vitro blood–brain barrier," Int. J. Pharm. 327, 160–169. 
  97. Kuo, Y. C.* and C. Y. Lin, 2006, 09, "Effect of genipin-crosslinked chitin–chitosan scaffolds with hydroxyapatite modifications on the cultivation of bovine knee chondrocytes," Biotechnol. Bioeng. 95, 132–144. 
  98. Kuo, Y. C.* and T. W. Lin, 2006, 02, "Electrophoretic mobility, zeta potential, and fixed charge density of bovine knee chondrocytes, methyl methacrylate-sulfopropyl methacrylate, polybutylcyanoacrylate, and solid lipid nanoparticles," J. Phys. Chem. B 110, 2202–2208. 
  99. Kuo, Y. C.*, 2005, 12, "Critical coagulation concentration for a suspension of cation-absorptive biocolloids," Colloids Surf. B 46, 218–225. 
  100. Kuo, Y. C.* and C. Y. Chung, 2005, 12, "Application of bovine pituitary extract and polyglycolide/poly(lactide-co-glycolide) scaffold to the cultivation of bovine knee chondrocytes," Biotechnol. Prog. 21, 1708–1715. 
  101. Kuo, Y. C.* and C. Y. Chung, 2005, 11, "Transport of zidovudine- and lamivudine-loaded polybutylcyanoacrylate and methylmethacrylate-sulfopropylmethacrylate nanoparticles across the in vitro blood–brain barrier: characteristics of the drug-delivery system," J. Chin. Inst. Chem. Eng. 36, 627–638. 
  102. Kuo, Y. C.*, 2005, 08, "Deposition of cation-absorptive biocolloids onto a charged surface," J. Colloid Interface Sci. 288, 36–44.  NSC 92–2214–E–194–008– 
  103. Kuo, Y. C.*, 2005, 06, "Electrophoresis of a biocolloid covered with a cation-absorptive membrane," J. Phys. Chem. B 109, 11727–11734.  NSC 93–2214–E–194–005– 
  104. Kuo, Y. C.*, 2005, 02, "Loading efficiency of stavudine on polybutylcyanoacrylate and methylmethacrylate-sulfopropylmethacrylate copolymer nanoparticles," Int. J. Pharm. 290, 161–172. 
  105. Kuo, Y. C.*, 2004, 03, "Effect of non-instantaneous disposition on the general measures of distribution kinetics in a modified mammillary compartmental model," J. Chin. Inst. Eng. 27, 231–242. 
  106. Kuo, Y. C.*, 2003, 07, "Application of a modified Gouy-Chapman theory to the stability of a biocolloidal suspension," Langmuir 19, 5942–5948. 
  107. Hsu, J. P.*, S. W. Huang, Y. C. Kuo, and S. J. Tseng, 2003, 06, "Stability of a dispersion of particles covered by a charge-regulated membrane: effect of the sizes of charged species," J. Colloid Interface Sci. 262, 73–80. 
  108. Kuo, Y. C.*, 2003, 03, "Adsorption of a biocolloid onto a rigid charged surface: characteristics of functional group, membrane and electrolytic solution," J. Chin. Inst. Chem. Eng. 34, 117–186. 
  109. Kuo, Y. C.*, 2003, 05, "Effects of particulate curvature and sizes of charged species on the adsorption of a biocolloid bearing nonuniformly distributed fixed charges," J. Chem. Phys. 118, 8023–8032. 
  110. Kuo, Y. C.*, 2003, 01, "Effects of sizes of charged species on the flocculation of biocolloids: absorption of cations in the membrane layer," J. Chem. Phys. 118, 398–406. 
  111. Hsu, J. P.*, S. W. Huang, Y. C. Kuo, and S. J. Tseng, 2002, 04, "Effect of ionic sizes on critical coagulation concentration: particle covered by a charge-regulated membrane," J. Phys. Chem. B 106, 4269–4275. 
  112. Kuo, Y. C.*, M. Y. Hsieh, and J. P. Hsu, 2002, 04, "Deposition of charge-regulated biocolloids on a charged surface," J. Phys. Chem. B 106, 4255–4260. 
  113. Kuo, Y. C., M. Y. Hsieh, and J. P. Hsu*, 2002, 04, "Interactions between a particle covered by an ion-penetrable charged membrane and a charged surface: a modified Gouy-Chapman theory," Langmuir 18, 2789–2794. 
  114. Huang, S. W., J. P. Hsu*, Y. C. Kuo, and S. J. Tseng, 2002, 02, "Effect of ionic sizes on the electrophoretic mobility of a particle with a charge-regulated membrane in a general electrolyte solution," J. Phys. Chem. B 106, 2117–2122. 
  115. Hsu, J. P.*, C. H. Lu, Y. C. Kuo, and S. J. Tseng, 2001, 08, "Electrical interaction between two cylinders with an ion-penetrable charged membrane in an oil/water interface," Colloids Surf. B 21, 265–272. 
  116. Kuo, Y. C.*, J. P. Hsu, and D. F. Chen, 2001, 05, "Deposition of biocolloids on a charged collector surface: an ion-penetrable membrane model," Langmuir 17, 3466–3471. 
  117. Kuo, Y. C. and J. P. Hsu*, 2000, 07, "Electrical interactions between two ion-penetrable charged membranes: effect of sizes of charged species," Langmuir 16, 6233–6239. 
  118. Kuo, Y. C. and Y. W. Chen*, 2000, 09, "Thermal properties of chrominophosphates," J. Chin. Inst. Chem. Eng. 31, 487–492. 
  119. Kuo, Y. C. and Y. W. Chen*, 2000, 01, "Isopropyl alcohol dehydration over chrominophosphate catalysts II: deactivation," J. Chin. Inst. Chem. Eng. 31, 1–9. 
  120. Kuo, Y. C. and J. P. Hsu*, 1999, 12, "Dynamic stability ratio of a colloidal dispersion," Chem. Phys. 250, 285–294. 
  121. Kuo, Y. C. and J. P. Hsu*, 1999, 11, "Double-layer properties of an ion-penetrable charged membrane: effect of sizes of charged species," J. Phys. Chem. B 103, 9743–9748. 
  122. Kuo, Y. C. and Y. W. Chen*, 1999, 09, "Isopropyl alcohol dehydration over chrominophosphate catalysts I: a kinetic study," J. Chin. Inst. Chem. Eng. 30, 421–429. 
  123. Hsu, J. P.* and Y. C. Kuo, 1999, 09, "Modified Göuy-Chapman theory for ion-penetrable charged membranes," J. Chem. Phys. 111, 4807–4816. 
  124. Kuo, Y. C. and J. P. Hsu*, 1999, 09, "Electrical properties of charged cylindrical and spherical surfaces in a general electrolyte solution," Langmuir 15, 6244–6255. 
  125. Kuo, Y. C. and J. P. Hsu*, 1998, 09, "Electrical properties of a charged surface in a general electrolyte solution," Chem. Phys. 236, 1–14. 
  126. Kuo, Y. C. and J. P. Hsu*, 1998, 03, "Transient behaviors of interacting electrical double layers," Colloid Polymer Sci. 276, 213–218. 
  127. Hsu, J. P.*, Y. C. Kuo, and S. J. Tseng, 1997, 11, "Dynamic interactions of two electrical double layers," J. Colloid Interface Sci. 195, 388–394. 
  128. Hsu, J. P.* and Y. C. Kuo, 1997, 08, "Adsorption of a charge-regulated particle to a charged surface," Langmuir 13, 4372–4376. 
  129. Hsu, J. P.* and Y. C. Kuo, 1997, 01, "The critical coagulation concentration of counterions: spherical particles in asymmetric electrolyte solutions," J. Colloid Interface Sci. 185, 530–537. 
  130. Hsu, J. P.* and Y. C. Kuo, 1996, 10, "The electrostatic interaction force between a charge-regulated particle and a rigid surface," J. Colloid Interface Sci. 183, 194–198. 
  131. Hsu, J. P.* and Y. C. Kuo, 1996, 10, "The stability ratio for a dispersion of particles covered by an ion-penetrable charged membrane," J. Colloid Interface Sci. 183, 184–193. 
  132. Hsu, J. P.* and Y. C. Kuo, 1995, 12, "Properties of a double layer with asymmetric electrolytes: ion-penetrable membrane carrying nonuniformly distributed fixed charges," J. Membr. Sci. 108, 107–119. 
  133. Hsu, J. P.* and Y. C. Kuo, 1995, 12, "Net penetration charges of an ion-penetrable membrane in a general electrolyte solution," J. Colloid Interface Sci. 176, 256–263. 
  134. Hsu, J. P.* and Y. C. Kuo, 1995, 11, "Interactions between a charge-regulated particle and a charged surface," J. Chem. Soc. Faraday Trans. 91, 4093–4097. 
  135. Hsu, J. P.* and Y. C. Kuo, 1995, 09, "An algorithm for the calculation of the electrostatic repulsion between surfaces coated with a charged membrane," Colloid Polymer Sci. 273, 881–885. 
  136. Hsu, J. P.* and Y. C. Kuo, 1995, 09, "Critical coagulation concentration of cations for negatively charged particles with an ion-penetrable surface layer," J. Colloid Interface Sci. 174, 250–257. 
  137. Hsu, J. P.* and Y. C. Kuo, 1995, 07, "Electrostatic interactions between particles with an ion-penetrable charged membrane," J. Chem. Phys. 103, 465–473. 
  138. Hsu, J. P.* and Y. C. Kuo, 1995, 05, "An algorithm for the calculation of the electrostatic potential distribution of an ion-penetrable membrane carrying fixed charges," J. Colloid Interface Sci. 171, 483–489. 
  139. Hsu, J. P.* and Y. C. Kuo, 1995, 05, "Properties of a double layer with asymmetric electrolytes: cylindrical and spherical particles with an ion-penetrable membrane," J. Colloid Interface Sci. 171, 331–339. 
  140. Hsu, J. P.* and Y. C. Kuo, 1995, 04, "Solution to the Poisson-Boltzmann equation for particles covered by an ion-penetrable charged membrane," J. Chem. Soc. Faraday Trans. 91, 1223–1228. 
  141. Hsu, J. P.* and Y. C. Kuo, 1995, 04, "An extension of the Schulze-Hardy rule to asymmetric electrolytes," J. Colloid Interface Sci. 171, 254–255. 
  142. Hsu, J. P.* and Y. C. Kuo, 1995, 03, "Approximate analytical expression for surface potential as a function of surface charge density," J. Colloid Interface Sci. 170, 220–228. 
  143. Kuo, Y. C. and J. P. Hsu*, 1995, 01, "Exact solution of the linearized Poisson-Boltzmann equation: ion-penetrable membrane bearing fixed charges," J. Chem. Phys. 102, 1806–1815. 
  144. Hsu, J. P.* and Y. C. Kuo, 1994, 10, "Approximate analytical expressions for the properties of an electrical double layer with asymmetric electrolytes: cylindrical and spherical geometries," J. Colloid Interface Sci. 167, 35–46. 
  145. Hsu, J. P.*, Y. C. Kuo, and Y. I. Chang, 1994, 08, "Electrostatic interaction between a charge-regulated particle and a solid surface in electrolyte solution: effect of cationic electrolytes," Colloid Polymer Sci. 272, 946–954. 
  146. Hsu, J. P.* and Y. C. Kuo, 1994, 08, "Approximate analytical expressions for the properties of a double layer with asymmetric electrolytes: ion-penetrable charged membrane," J. Colloid Interface Sci. 166, 208–214. 
  147. Hsu, J. P.* and Y. C. Kuo, 1993, 04, "Approximate analytical expressions for the properties of an electrical double layer with asymmetric electrolytes," J. Chem. Soc. Faraday Trans. 89, 1229–1233. 
  148. Kuo, Y. C. and J. P. Hsu*, 1993, 03, "An algorithm for the calculation of the electrostatic force between identical charged surfaces in electrolytes," J. Colloid Interface Sci. 156, 250–252. 
  149. Chen, Y. W.* and Y. C. Kuo, 1992, 03, "The pore structure of chrominophosphate catalysts," Catal. Lett. 13, 137–142. 
    (2) Other Invited and/or Peer-reviewed Journal Articles
  150. Kuo, Y. C.* and C. C. Wang, 2014, 08, "Differentiation of induced pluripotent stem cells in biomaterials," Chem. Tech. 257, 104–121. 
  151. Yang, J. T., Y. C. Kuo*, and J. F. Chung, 2011, 02, "Human serum albumin-grafted cationic solid lipid nanoparticles for delivery of nevirapine in vivo," ICBBB 2011, 66–70.  (EI)
  152. Kuo, Y. C.* and S. N. Leou, 2008, 05, "In vitro blood–brain model based on brain-microvascular endothelial cells," Biotech. Taiwan 11, 7–16. 
  153. Wu, H. C., C. H. Huang, and Y. C. Kuo*, 2006, 12, "Identification of fires and explosions for the spontaneously combustible materials," J. Occup. Saf. Health 14, 308–319. 
  154. Kuo, Y. C.* and F. L. Su, 2006, 07, "Effect of PBCA and MMA-SPM nanoparticles on the transport of D4T, DLV and SQV across the blood–brain barrier," Chem. Eng. 246, 87–101. 
  155. Kuo, Y. C.* and C. Y. Chung, 2006, 07, "Application of biocompatible colloids to the drug delivery system for anti-HIV agents," Chem. Eng. 246, 71–86. 
  156. Kuo, Y. C.*, 2006, 07, "Introduction to the special issue of colloid and interface phenomena," Chem. Eng. 246, 1–1. 
  157. Kuo, Y. C.*, 2005, 06, "Tissue engineered cartilages and growth factors," Chem. Tech. 147, 217–226.  
  158. Kuo, Y. C.*, C. W. Lin, and H. C. Wu, 2004, 08, "Investigation on fires and explosions at university laboratories related to chemicals," Chem. Tech. 137, 195–208. 
  159. Kuo, Y. C.*, C. W. Lin, and H. C. Wu, 2004, 05, "Survey of batch-process fires and explosions in Taiwan and their industrial prevention policy," Chem. Tech. 134, 169–185. 

(B) Books and Book Chapters

  1. Rajesh, R., Y. D. Ravichandran, and Y. C. Kuo, 2017, 06, "Alginate in bone tissue engineering," in "Seaweed Polysaccharides: Isolation, Biological and Biomedical Applications," pp. 349–368, Venkatesan, J., Anil, S., Kim, S. K., Ed., Elsevier B.V., Amsterdam, Netherlands.  ISBN: 978–0–12–809816–5 
  2. Kuo, Y. C., C. L. Lee, and J. P. Hsu, 2016, 09, "The structure and regulation of the blood–brain barrier," in "Encyclopedia of Biocolloid and Biointerfacial Science," pp. 244–254, Ohshima, H., Ed., John Wiley & Sons, Hoboken, NJ, USA.  ISBN: 978–1–118–54276–7 
  3. Kuo, Y. C. and C. C. Wang, 2014, 09, "Colloidal drug delivery system for brain-targeting therapy," in "Colloid and Interface Science in Pharmaceutical Research and Development," pp. 389–410, Ohshima, H. and Makino, K., Ed., Elsevier B.V., Amsterdam, Netherlands.  ISBN: 978–0–444–62614–1 
  4. Kuo, Y. C., 2013, 10, "Nanoparticles as targeting delivery vehicles for brain disease treatment," in "Recent Advances in Chemical Engineering, Biochemistry and Computational Chemistry," p. 9, Moller, J. A. D., Kibler, M. R., Hefferlin, R., Ed., WSEAS Press.  ISBN: 978–960–474–342–1  NSC 101–2221–E–194–051–MY3 
  5. Kuo, Y. C., 2013, 06, "Application of induced pluripotent stem cells to neuronal differentiation and nerve tissue regeneration in biomaterials," in "Advances in Biomedicine and Health Science," p. 9, Marascu-Klein, V., Ed., WSEAS Press.  ISBN: 978–161–804–190–6  NSC 99–2221–E–194–013–MY3 
  6. Kuo, Y. C., 2012, 12, "Inverted colloidal crystal scaffolds for tissue regeneration, stem cell differentiation and spinal cord injury treatment," in "Recent Advances in Engineering," p. 11, Dmitriev, A., Camarinhas, C. L., Ed., WSEAS Press.  ISBN: 978–161–804–137–1  NSC 99–2221–E–194–013–MY3 
  7. Wu, H. C. and Y. C. Kuo, 2010, 02, "Study on the Explosion of Nanometallic Powder during the Transport in Curved Pipeline," Institute of Occupational Safety and Health (Council of Labor Affairs), Taipei, Taiwan.  ISBN: 931–009–900–649–6  
  8. Kuo, Y. C., 2009, 12, "Nanoparticles for the transport of antiretroviral drugs across the blood–brain barrier: a potential therapy for the acquired immunodeficiency syndrome," in "Recent Advances in Biology, Biophysics, Bioengineering and Computational Chemistry," p. 11, Bulucea, C. A., Mladenov, V., Pop, E., Leba, M., Mastorakis, N., Ed., WSEAS Press.  ISBN: 978–960–474–141–0  NSC 96–2221–E–194–036–MY3 
  9. Wu, H. C., Y. C. Kuo, C. W. Wu, 2009, 03, "Study on the Relation between Velocity and Explosion during the Transport of Nanometallic Powder in Gas," Institute of Occupational Safety and Health (Council of Labor Affairs), Taipei, Taiwan.  ISBN: 8–0119–3609–3  ISBN 13: 978–801–193–609–9 
  10. Kuo, Y. C. and H. H. Chen, 2008, 08, "Effect of electromagnetic field on vesicular endocytosis and blood–brain barrier permeability of saquinavir-entrapping cationic colid lipid nanoparticles," in "New Aspects of Biomedical Electronics and Biomedical Informatics," pp. 29-34, Long, C. A., Anninos, P., Pham, T., Anastassopoulos, G., and Mastorakis, N. E., Ed., WSEAS Press.  ISBN: 978–960–676–693–0  NSC 96–2221–E–194–036–MY3 
  11. Kuo, Y. C., 2006, 02, "Study and Identification of Fires and Explosions for Spontaneously Combustible Materials," Institute of Occupational Safety and Health (Council of Labor Affairs), Taipei, Taiwan.  ISBN: 9–8600–4668–9 
  12. Kuo, Y. C. and J. P. Hsu, 2006, 01, "Effects of electrical field on the behavior of biological cells," in "Finely Dispersed Systems: Micro-, Nano- and Atto-Engineering," pp. 683–714, Spasic, A. M. and Hsu, J. P., Ed., Taylor & Francis, Boca Raton, FL, USA.  ISBN: 1–5744–4463–8 
  13. Kuo, Y. C. and H. C. Wu, 2004, 03, "Survey and Prevention Policy of Industrial Batch-process Fires and Explosions in the Recent Decade in Taiwan," Institute of Occupational Safety and Health (Council of Labor Affairs), Taipei, Taiwan.  GPN: 1–0093–0045–4 
  14. Kuo, Y. C. and H. C. Wu, 2003, 04, "Investigation on Fires and Explosions in Chemicals-related Laboratories in Universities and Colleges," Institute of Occupational Safety and Health (Council of Labor Affairs), Taipei, Taiwan.  GPN: 1–0092–0098–9 
  15. Kuo, Y. C. and J. P. Hsu, 1999, 10, "Electrical interactions between charged membranes," in "Interfacial Forces and Fields: Theory and Applications," pp. 289-327, Hsu, J. P., Ed., Marcel Dekker, New York, NY, USA.  ISBN: 0–8247–1964–6 
  16. Chen, Y. W., M. C. Tsai, and Y. C. Kuo, 1991, 04, "Effect of pore diffusion on deactivation in resid hydrodesulfurization," in "Catalyst Deactivation," (Studies in Surface Science and Catalysis, vol. 68), pp. 323–326, Bartholomew, C. H. and J. B. Butt, Ed., Elsevier Science Publisher B.V., Amsterdam, Netherlands. 

(C) Patent

  1. Kuo, Y. C. and C. L. Lee, 2016, 03, "Method to construct in-vitro human blood–brain barrier model," Expired date: Mar. 28, 2033. 
  1. Kuo, Y. C. and Y. H. Chang, 2016, 08, "Dual-targeting drug carrier and method for fabricating the same," Expired date: Aug. 28, 2033. 

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