2009 | Ammonolysis-based microencapsulation technique using isopropyl formate as dispersed solvent | 사홍기 | Article |
2007 | Ammonolysis-induced solvent removal: A facile approach for solidifying emulsion droplets into PLGA microspheres | 사홍기 | Article |
2010 | Another paradigm in solvent extraction-based microencapsulation technologies | 사홍기 | Article |
2014 | Applicability of non-halogenated methyl propionate to microencapsulation | 사홍기 | Article |
2012 | Application of acid-catalyzed hydrolysis of dispersed organic solvent in developing new microencapsulation process technology | 사홍기 | Article |
2009 | Application of column-switching HPLC method in evaluating pharmacokinetic parameters of zaltoprofen and its salt | 이화정; 사홍기 | Article |
2018 | Application of Non-volatile Dimethyl Carbonate to Preparation of PLGA Microspheres via New Emulsion Microencapsulation Technique | 김한솔 | Master's Thesis |
2020 | Assessment of Residual Solvent and Drug in PLGA Microspheres by Derivative Thermogravimetry | 사홍기 | Article |
2007 | Characterization of dual layered pellets for sustained release of poorly water-soluble drug | 사홍기 | Article |
2006 | Characterization of itraconazole semisolid dosage forms prepared by hot melt technique | 사홍기 | Article |
2015 | Chemical approach to solvent removal during nanoencapsulation: its application to preparation of PLGA nanoparticles with non-halogenated solvent | 사홍기 | Article |
2013 | Concepts and practices used to develop functional PLGA-based nanoparticulate systems | 사홍기 | Review |
2013 | Core-shell-type lipid-polymer hybrid nanoparticles as a drug delivery platform | 사홍기 | Review |
2006 | Degradation patterns of tetracycline antibiotics in reverse micelles and water | 사홍기 | Article |
2011 | Development of Acid-catalyzed Chemical Reaction to Prepare Weakly Acidic Drug-containing PLGA Microspheres | 이홍화 | Master's Thesis |
2010 | Development of Isopropyl Formate-based Solvent Evaporation Process for Preparing PLGA Microspheres | 장지영 | Master's Thesis |
2006 | Development of new microencapsulation techniques useful for the preparation of PLGA microspheres | 사홍기 | Article |
2012 | Development of New Microencapsulation Technology Based on Acid-Catalyzed Solvent Extraction | 이민정 | Master's Thesis |
2008 | Effect of pharmaceutical excipients on aqueous stability of rabeprazole sodium | 사홍기 | Article |
2013 | Effects of Drug Type upon Characteristics of PLGA Microspheres Prepared by Saponification-Based Microencapsulation Technique | 이선화 | Master's Thesis |
2016 | How to circumvent untoward drug crystallization during emulsion-templated microencapsulation process | 사홍기 | Article |
2006 | Improvement of interfacial protein stability by CHAPS | 김길수; 사홍기 | Article |
2014 | Introduction of Methyl Propionate to Oil-in-Water Emulsion Based Microencapsulation | 강주경 | Master's Thesis |
2011 | Investigation of Structural Integrity of PLGA During Ammonolysis-based Microencapsulation Process | 허선주 | Master's Thesis |
2011 | Investigation on structural integrity of PLGA during ammonolysis-based microencapsulation process | 이선화; 사홍기 | Article |
2019 | Merits of sponge-like PLGA microspheres as long-acting injectables of hydrophobic drug | 사홍기 | Article |
2016 | Methylamine acts as excellent chemical trigger to Harden emulsion droplets into spongy PLGA microspheres | 사홍기 | Article |
2010 | New Ammonolysis-based Microencapsulation Technique Using Isopropyl Formate as Dispersed Solvent | 임혜음 | Master's Thesis |
2016 | New Nanoencapsulation Technique for Preparation of PLGA Nanoparticles Based on Alkaline Hydrolysis | 이영미 | Master's Thesis |
2011 | Nonhalogenated solvent-based solvent evaporation process useful in preparation of PLGA microspheres | 사홍기 | Article |