The reactive polymeric micelle based on an aldehyde-ended poly (ethylene glycol)/poly (lactide) block copolymer Y Nagasaki, T Okada, C Scholz, M Iijima, M Kato, K Kataoka Macromolecules 31 (5), 1473-1479, 1998 | 305 | 1998 |
Heterotelechelic block copolymers and process for producing the same K Kataoka, C Scholz, M Iijima, T Kutsuna, Y Nagasaki, M Kato, T Okano US Patent 5,925,720, 1999 | 226 | 1999 |
Degradable polymers and materials: Principles and practice KC Khemani, C Scholz American Chemical Society, 2006 | 153* | 2006 |
A novel reactive polymeric micelle with aldehyde groups on its surface C Scholz, M Iijima, Y Nagasaki, K Kataoka Macromolecules 28 (21), 7295-7297, 1995 | 149 | 1995 |
Impact of impurities in biodiesel-derived crude glycerol on the fermentation by Clostridium pasteurianum ATCC 6013 KP Venkataramanan, JJ Boatman, Y Kurniawan, KA Taconi, GD Bothun, ... Applied microbiology and biotechnology 93, 1325-1335, 2012 | 127 | 2012 |
Biocompatibility of materials implanted into the subretinal space of Yucatan pigs SR Montezuma, J Loewenstein, C Scholz, JF Rizzo Investigative ophthalmology & visual science 47 (8), 3514-3522, 2006 | 109 | 2006 |
Synthesis and self-assembly of well-defined poly (amino acid) end-capped poly (ethylene glycol) and poly (2-methyl-2-oxazoline) R Obeid, C Scholz Biomacromolecules 12 (10), 3797-3804, 2011 | 72 | 2011 |
Synthesis and characterization of a cationic poly (β-hydroxyalkanoate) J Sparks, C Scholz Biomacromolecules 9 (8), 2091-2096, 2008 | 66 | 2008 |
Biopolymers from polysaccharides and agroproteins RA Gross, C Scholz American Chemical Society, 2001 | 57 | 2001 |
Evaluation of a Cationic Poly (β-hydroxyalkanoate) as a Plasmid DNA Delivery System J Sparks, C Scholz Biomacromolecules 10 (7), 1715-1719, 2009 | 51 | 2009 |
Smart hydrogel-based biochemical microsensor array for medical diagnostics M Guenther, G Gerlach, T Wallmersperger, MN Avula, SH Cho, X Xie, ... Advances in Science and Technology 85, 47-52, 2013 | 50 | 2013 |
Highly branched polymers based on poly (amino acid) s for biomedical application M Thompson, C Scholz Nanomaterials 11 (5), 1119, 2021 | 46 | 2021 |
Contact Angle, WAXS, and SAXS Analysis of Poly(β‐hydroxybutyrate) and Poly(ethylene glycol) Block Copolymers Obtained via Azotobacter vinelandii UWD KJ Townsend, K Busse, J Kressler, C Scholz Biotechnology progress 21 (3), 959-964, 2005 | 46 | 2005 |
Neural stimulation device employing renewable chemical stimulation R Jensen, C Scholz, L Theogarajan US Patent App. 11/114,976, 2006 | 45 | 2006 |
Homeoviscous response of Clostridium pasteurianum to butanol toxicity during glycerol fermentation KP Venkataramanan, Y Kurniawan, JJ Boatman, CH Haynes, KA Taconi, ... Journal of biotechnology 179, 8-14, 2014 | 36 | 2014 |
Bioactivity of extracellular glycolipids-investigation of potential aniticancer activity of sophorolipids and sophorolipid-derivatives C Scholz Polymer Prep. 39, 168-169, 1998 | 32 | 1998 |
Production of poly(β‐hydroxyalkanoates) with β‐substituents containing terminal ester groups by Pseudomonas oleovorans C Scholz, RC Fuller, RW Lenz Macromolecular Chemistry and Physics 195 (4), 1405-1421, 1994 | 31 | 1994 |
Biosynthesis of Natural-Synthetic Hybrid Copolymers: Polyhydroxyoctanoate− Diethylene Glycol V Sanguanchaipaiwong, CL Gabelish, J Hook, C Scholz, LJR Foster Biomacromolecules 5 (2), 643-649, 2004 | 30 | 2004 |
Polymeric micelles as drug delivery systems: a reactive polymeric micelle carrying aldehyde groups C Scholz, M Iijima, Y Nagasaki, K Kataoka Polymers for Advanced Technologies 9 (10‐11), 768-776, 1998 | 27 | 1998 |
Growth and polymer incorporation of Pseudomonas oleovorans on alkyl esters of heptanoic acid C Scholz, RC Fuller, RW Lenz Macromolecules 27 (10), 2886-2889, 1994 | 24 | 1994 |