“Precise Engineering Technology for Multifunctiuonal Dendrimers Using Convergent Synthesis” S. Hong and J.W. Lee, 2023, filed to WARF.
“Amphiphilic Peptides for Controlled Self-assembly of Multifunctional Micelles” S. Hong and R. Pearson, 2023, filed to WARF.
“Dendric Lipid Nanoparticles for Gene/Drug Delivery” S. Hong and N. Mamidi, 2023, filed to WARF.
“Modular Dendritic Nanoparticles for Pulmonary Diseases Related to Fibrosis and Viral Infection including COVID-19” S. Hong, A. Brasier, and W. Tang 2021, US Patent App. 17/840,964.
“Modular Dendron Micelles for Immunotherapy-based Combination Therapies” S. Hong and D. Wheeler, WO/202293744 (2022).
“Peptide-nanoparticle Conjugates” S. Hong and W.J. Jeong, US 11,564,995 (2023).
“Dendritic Polymers Complexed with Immune Checkpoint Inhibitors for Enhanced Cancer Immunotherapy” S. Hong and J. Bu, WO/2020092304 (2020).
“Nanoengineered Surfaces for Cancer Biomarker Capture” S. Hong and M. Poellmann, WO/2019126267 (2019).
“Dendrimer-Exosome Hybrid Nanoparticles as a Delivery Platform” S. Hong and S.-j. Park, US 11,344,627 (2022).
“Methods for Treating Subjects Suffering from Acute Myeloid Leukemia with FLT3 Ligand-targeted MIR-150 Nanoparticles”
J. Chen, S. Hong, X. Jiang, and Z. Li, US 11,097,014 (2021).
“Method for Monitoring Efficacy of a Cancer Therapy using Circulatig Tumor Cells as a Biomarker”
A.Z. Wang, S. Hong, and J.H. Myung, WO/2016183270 (2016),Australian Patent 2016262541.
“Microfluidic Device for Capturing Circulating Tumor Cells” S. Hong and J.H. Myung, US10,900,969 (2021), Korean Patent 10-2016-7027567
“Dermal Drug Delivery Using Amphiphilic Dendron-Coil Micelles” S. Hong and Y. Yang, US 10,543,171 (2020).
“Amphiphilic Dendron-coils, Micelles Thereof and Uses” S. Hong and J.W. Bae, US 9,212,258 (2015), EP2,678,042 (2018).
“Transdermal Delivery of Chemo-Preventive Medicine for Breast Cancer Prevention using Poly(amidoamine) Dendrimers as a Penetration Enhancer” S. Hong, S.A. Khan, R.C. Chatterton, O. Lee, and Y. Yang, US13/906,009 (2013).
“A Nano-Hybrid Delivery System for sequential utilization of passive and active targeting” S. Hong and Ying Liu, US 9,168,225 (2015).
“Methods and Devices for Capturing Circulating Tumor” S. Hong, D.T. Eddington, J.H. Myung, and C.A. Launiere, US 9,964,541 (2018).
“Cell Rolling Separation”
R. Karnik, S. Hong, Y. Mei, D. Anderson, J. Karp, and R. Langer, US 8,986,988 (2015), EP 2,205,725 (2010).
“Surfaces, Methods, and Devices Employing Cell Rolling”
J.M. Karp, A. Khademhosseini, M.J. Moore, R. Langer, and S. Hong, WO/2008/131,301 (2008), US 2010/0,112,026, EP 2,148, 696. An MIT Invention of the Year 2007
“Polyalkylaromaticsilsesquioxane and Preparation Method Thereof”
S.S. Hwang, S.M. Hong, E.C. Lee, and S. Hong, US 6,599,995 (2003), US 7,056,989 (2006).
“Polyaliphaticaromaticsilsesquioxane and Process for Producing the Same” S. Hong, S.M. Hong, S.S. Hwang, and E.C. Lee KR2001053844 (2001).