| Category |
Title / Sections |
Scholar |
Branch of Study |
Year |
| Page |
a. Equilibrium water content. (Thesis: Role of hydrophilicity-hydrophobicity balance of the polymeric supports in solid phase Peptide synthesis ) |
Mathew C Chandy |
Chemistry |
1994 |
| Page |
i. Effect of nature of monomers and cross linking agent on EWc. (Thesis: Role of hydrophilicity-hydrophobicity balance of the polymeric supports in solid phase Peptide synthesis |
Mathew C Chandy |
Chemistry |
1994 |
| Page |
ii. Effect of degree of crosslinking. (Thesis: Role of hydrophilicity-hydrophobicity balance of the polymeric supports in solid phase Peptide synthesis ) |
Mathew C Chandy |
Chemistry |
1994 |
| Page |
v. Time-course of hydration: effect of degree. of crosslinks. (Thesis: Role of hydrophilicity-hydrophobicity balance of the polymeric supports in solid phase Peptide synthesis |
Mathew C Chandy |
Chemistry |
1994 |
| Page |
Effect of crosslink density on desorption kinetics. (Thesis: Role of hydrophilicity-hydrophobicity balance of the polymeric supports in solid phase Peptide synthesis ) |
Mathew C Chandy |
Chemistry |
1994 |
| Page |
d. Weight percent oxygen content. (Thesis: Role of hydrophilicity-hydrophobicity balance of the polymeric supports in solid phase Peptide synthesis |
Mathew C Chandy |
Chemistry |
1994 |
| Page |
e. Water-swollen poly (acrylamide) s: physical nature and mechanical characteristics. (Thesis: Role of hydrophilicity-hydrophobicity balance of the polymeric supports in solid phase Peptide synthesis ) |
Mathew C Chandy |
Chemistry |
1994 |
| Page |
a. Effect of crosslinking agent on morphology. (Thesis: Role of hydrophilicity-hydrophobicity balance of the polymeric supports in solid phase Peptide synthesis |
Mathew C Chandy |
Chemistry |
1994 |
| Page |
Fig. III. 3 5. (a,b) Scanning Electron Micrographs of 10% NNMBA- crosslinked poly (acrylamide) s. (Thesis: Role of hydrophilicity-hydrophobicity balance of the polymeric supports in solid phase Peptide synthesis ) |
Mathew C Chandy |
Chemistry |
1994 |
| Page |
Fig. III. 36 (a,b) Scaning Electron Micrographs of 10% TTEGDA- crosslinked poly (acrylamide) s. (Thesis: Role of hydrophilicity-hydrophobicity balance of the polymeric supports in solid phase Peptide synthesis |
Mathew C Chandy |
Chemistry |
1994 |
| Page |
Fig. III. 3 7. (a,b) Scanning Electron Micrographs of 10% TEGDMA- crosslinked poly (acrylamide) s. (Thesis: Role of hydrophilicity-hydrophobicity balance of the polymeric supports in solid phase Peptide synthesis ) |
Mathew C Chandy |
Chemistry |
1994 |
| Page |
Fig. III. 38. (a,b) Scanning Electron Micrographs of 10% DVB- crosslinked poly (acrylamide) s. (Thesis: Role of hydrophilicity-hydrophobicity balance of the polymeric supports in solid phase Peptide synthesis |
Mathew C Chandy |
Chemistry |
1994 |
| Page |
b. Effect of extent of crosslinking on morphology. (Thesis: Role of hydrophilicity-hydrophobicity balance of the polymeric supports in solid phase Peptide synthesis ) |
Mathew C Chandy |
Chemistry |
1994 |
| Page |
Fig. III. 39 Scanning Electron Micrographs of (a) 5% and (b) 10% TTEGDA- crosslinked poly (acrylamide) s. (Thesis: Role of hydrophilicity-hydrophobicity balance of the polymeric supports in solid phase Peptide synthesis |
Mathew C Chandy |
Chemistry |
1994 |
| Page |
c. Linear Vs. crosslinked poly (acryl amides). (Thesis: Role of hydrophilicity-hydrophobicity balance of the polymeric supports in solid phase Peptide synthesis ) |
Mathew C Chandy |
Chemistry |
1994 |
