2026 Ashwini Nangia: Materials Science Researcher – H-Index, Publications & Awards

D-Index & Metrics

Discipline name	D-Index	World Ranking	Current World Ranking	National Ranking	Current National Ranking	Publications	Citations
Materials Science	76	3298	3185	29	27	294	20257
Chemistry	77	4021	3652	34	34	356	20979

Discipline name

D-Index

World Ranking

Current World Ranking

National Ranking

Current National Ranking

Publications

Citations

Materials Science

3298

3185

294

20257

Chemistry

4021

3652

356

20979

Materials Science

D-Index

Citations

20257

World Ranking

3298

National Ranking

Chemistry

D-Index

Citations

20979

World Ranking

4021

National Ranking

Research.com Recognitions

2025 - Research.com Chemistry in India Leader Award
2022 - Research.com Chemistry in India Leader Award

Overview

Ashwini Nangia is affiliated with the University of Hyderabad in India and is active in the field of materials science, with a particular focus on materials chemistry. Their research contributions span several subfields including physical and theoretical chemistry, organic chemistry, spectroscopy, and molecular biology.

Their research topics cover a broad spectrum within crystallography and chemical analysis. Key areas of work include:

Crystallization and solubility studies
X-ray diffraction in crystallography
Crystallography and molecular interactions
Analytical chemistry and chromatography
Crystal structures of chemical compounds
Chemical synthesis and analysis
Photochromic and fluorescence chemistry

Ashwini Nangia has published extensively, with frequent contributions to several scientific journals and databases. Notable publication venues include:

The Cambridge Structural Database
Crystal Growth & Design
CrystEngComm
Acta Crystallographica Section B Structural Science Crystal Engineering and Materials
Chemical Reviews

Among recent publications, several papers stand out, reflecting research on pharmaceutical cocrystals and their properties:

Crystal Engineering of Pharmaceutical Cocrystals in the Discovery and Development of Improved Drugs, 2022, Chemical Reviews
Can We Identify the Salt-Cocrystal Continuum State Using XPS?, 2020, Crystal Growth & Design
Enhanced solubility, permeability, and tabletability of nicorandil by salt and cocrystal formation, 2020, CrystEngComm
Salts and Cocrystal of Etodolac: Advantage of Solubility, Dissolution, and Permeability, 2020, Crystal Growth & Design
Improving the Dissolution Rate of the Anticancer Drug Dabrafenib, 2020, Crystal Growth & Design

Ashwini Nangia collaborates frequently with several researchers, with many joint publications recorded with:

Anilkumar Gunnam
Sunil K. Rai
Suryanarayana Allu
M. K. Chaitanya Mannava
Abhijit Garai

Best Publications

Solubility Advantage of Amorphous Drugs and Pharmaceutical Cocrystals

N. Jagadeesh Babu;Ashwini Nangia

1125
Citations
C−H···F Interactions in the Crystal Structures of Some Fluorobenzenes

Venkat R. Thalladi;Hans-Christoph Weiss;Dieter Blaser;Roland Boese

837
Citations
Crystal Engineering of Pharmaceutical Cocrystals in the Discovery and Development of Improved Drugs.

Unknown

705
Citations
Conformational polymorphism in organic crystals.

Ashwini Nangia

594
Citations
Pharmaceutical cocrystals: walking the talk

Geetha Bolla;Ashwini Nangia;Ashwini Nangia

565
Citations
Tape and layer structures in cocrystals of some di- and tricarboxylic acids with 4,4′-bipyridines and isonicotinamide. From binary to ternary cocrystals

Balakrishna R. Bhogala;Srinivas Basavoju;Ashwini Nangia

454
Citations
Molecular Complexes of Homologous Alkanedicarboxylic Acids with Isonicotinamide: X-ray Crystal Structures, Hydrogen Bond Synthons, and Melting Point Alternation

Peddy Vishweshwar;Ashwini Nangia;Vincent M. Lynch

336
Citations
Eutectics as improved pharmaceutical materials: design, properties and characterization

Suryanarayan Cherukuvada;Ashwini Nangia

301
Citations
New polymorphs of curcumin

Palash Sanphui;N Rajesh Goud;U B Rao Khandavilli;Sreenu Bhanoth

301
Citations
Cocrystals of 1,3,5-Cyclohexanetricarboxylic Acid with 4,4‘-Bipyridine Homologues: Acid···Pyridine Hydrogen Bonding in Neutral and Ionic Complexes

Balakrishna R. Bhogala;Ashwini Nangia

298
Citations
Cubanecarboxylic Acids. Crystal Engineering Considerations and the Role of C−H···O Hydrogen Bonds in Determining O−H···O Networks

Srinivasan S. Kuduva;Donald C. Craig;Ashwini Nangia;Gautam R. Desiraju

297
Citations
Fast Dissolving Curcumin Cocrystals

Palash Sanphui;N. Rajesh Goud;U. B. Rao Khandavilli;Ashwini Nangia

290
Citations
Supramolecular Synthons and Pattern Recognition

Ashwini Nangia;Gautam R. Desiraju

288
Citations
Crystal Engineering of Some 2,4,6-Triaryloxy-1,3,5-triazines: Octupolar Nonlinear Materials

Venkat R. Thalladi;Sophie Brasselet;Hans-Christoph Weiss;Dieter Blaser

274
Citations
Crystal Engineering: An Outlook for the Future.

Ashwini K. Nangia;Ashwini K. Nangia;Gautam R. Desiraju

261
Citations
Recurrence of carboxylic acid-pyridine supramolecular synthon in the crystal structures of some pyrazinecarboxylic acids.

Peddy Vishweshwar;Ashwini Nangia;Vincent M Lynch

259
Citations
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

Praveen K. Thallapally;Ashwini Nangia

235
Citations
A green synthetic route to phenolics fabricated magnetite nanoparticles from coconut husk extract: Implications to treat metal contaminated water and heavy metal stress in Oryza sativa L.

Abin Sebastian;Ashwini Nangia;M.N.V. Prasad

225
Citations
Crystal engineering with hydrogen bonds and halogen bonds

Binoy K. Saha;Ashwini Nangia;Mariusz Jaskólski

221
Citations
Synthon Competition and Cooperation in Molecular Salts of Hydroxybenzoic Acids and Aminopyridines

Bipul Sarma;Naba K. Nath;Balakrishna R. Bhogala;Ashwini Nangia

212
Citations
Pseudopolymorphism: occurrences of hydrogen bonding organic solvents in molecular crystals

Ashwini Nangia;Gautam R. Desiraju

206
Citations