Ashwini Nangia
Ashwini Nangia
Professor of Chemistry
Verified email at - Homepage
Cited by
Cited by
Solubility advantage of amorphous drugs and pharmaceutical cocrystals
NJ Babu, A Nangia
Crystal Growth & Design 11 (7), 2662-2679, 2011
C− H⊙⊙⊙ F Interactions in the crystal structures of some fluorobenzenes
VR Thalladi, HC Weiss, D Bläser, R Boese, A Nangia, GR Desiraju
Journal of the American Chemical Society 120 (34), 8702-8710, 1998
Conformational polymorphism in organic crystals
A Nangia
Accounts of chemical research 41 (5), 595-604, 2008
Pharmaceutical cocrystals: walking the talk
G Bolla, A Nangia
Chemical communications 52 (54), 8342-8360, 2016
Tape and layer structures in cocrystals of some di-and tricarboxylic acids with 4, 4′-bipyridines and isonicotinamide. From binary to ternary cocrystals
BR Bhogala, S Basavoju, A Nangia
CrystEngComm 7 (90), 551-562, 2005
Molecular complexes of homologous alkanedicarboxylic acids with isonicotinamide: X-ray crystal structures, hydrogen bond synthons, and melting point alternation
P Vishweshwar, A Nangia, VM Lynch
Crystal growth & design 3 (5), 783-790, 2003
Cocrystals of 1, 3, 5-Cyclohexanetricarboxylic Acid with 4, 4 ‘-Bipyridine Homologues: Acid⊙⊙⊙ Pyridine Hydrogen Bonding in Neutral and Ionic Complexes
BR Bhogala, A Nangia
Crystal growth & design 3 (4), 547-554, 2003
Cubanecarboxylic Acids. Crystal Engineering Considerations and the Role of C− H⊙⊙⊙ O Hydrogen Bonds in Determining O− H⊙⊙⊙ O Networks
SS Kuduva, DC Craig, A Nangia, GR Desiraju
Journal of the American Chemical Society 121 (9), 1936-1944, 1999
New polymorphs of curcumin
P Sanphui, NR Goud, UBR Khandavilli, S Bhanoth, A Nangia
Chemical Communications 47 (17), 5013-5015, 2011
Eutectics as improved pharmaceutical materials: design, properties and characterization
S Cherukuvada, A Nangia
Chemical Communications 50 (8), 906-923, 2014
Supramolecular synthons and pattern recognition
A Nangia, GR Desiraju
Design of Organic Solids, 57-95, 1998
Crystal engineering of some 2, 4, 6-triaryloxy-1, 3, 5-triazines: octupolar nonlinear materials
VR Thalladi, S Brasselet, HC Weiss, D Bläser, AK Katz, HL Carrell, ...
Journal of the American Chemical Society 120 (11), 2563-2577, 1998
Fast dissolving curcumin cocrystals
P Sanphui, NR Goud, UBR Khandavilli, A Nangia
Crystal Growth & Design 11 (9), 4135-4145, 2011
Recurrence of carboxylic acid− pyridine supramolecular synthon in the crystal structures of some pyrazinecarboxylic acids
P Vishweshwar, A Nangia, VM Lynch
The Journal of Organic Chemistry 67 (2), 556-565, 2002
A Cambridge Structural Database analysis of the C–H⋯ Cl interaction: C–H⋯ Cl− and C–H⋯ Cl–M often behave as hydrogen bonds but C–H⋯ Cl–C is generally a van der Waals interaction
PK Thallapally, A Nangia
CrystEngComm 3 (27), 114-119, 2001
Crystal engineering with hydrogen bonds and halogen bonds
BK Saha, A Nangia, M Jaskólski
CrystEngComm 7 (58), 355-358, 2005
Crystal engineering of pharmaceutical cocrystals in the discovery and development of improved drugs
G Bolla, B Sarma, AK Nangia
Chemical Reviews 122 (13), 11514-11603, 2022
Synthon competition and cooperation in molecular salts of hydroxybenzoic acids and aminopyridines
B Sarma, NK Nath, BR Bhogala, A Nangia
Crystal Growth and Design 9 (3), 1546-1557, 2009
Crystal engineering: an outlook for the future
AK Nangia, GR Desiraju
Angewandte Chemie International Edition 58 (13), 4100-4107, 2019
Pseudopolymorphism: occurrences of hydrogen bonding organic solvents in molecular crystals
A Nangia, GR Desiraju
Chemical Communications, 605-606, 1999
The system can't perform the operation now. Try again later.
Articles 1–20