Angel A. Martí

Angel A. Martí
Born
Utuado, Puerto Rico
OccupationsNanoscience and biophysical inorganic chemist and academic
Academic background
EducationBS., Chemistry
PhD., Inorganic Chemistry
Alma materUniversity of Puerto Rico
Academic work
InstitutionsRice University

Angel A. Martí is a nanoscience and biophysical inorganic chemist and academic. He is chair of the Department of Chemistry and professor at Rice University.

Martí's research focuses on designing multifunctional molecular systems for understanding amyloid structures, alongside the study of nanomaterials such as boron-nitride nanotubes and developing photoactive soft materials. He has received the 2014 New Investigator Award from the American Society for Photobiology, the Stanley C. Israel Award from the American Chemical Society in 2022, and the Robert Holland Jr. Award from the Research Corporation for Science Advancement in 2025.

Martí is a fellow of the Royal Society of Chemistry, the American Chemical Society, and the American Association for the Advancement of Science.

Education

Martí earned a BS in chemistry in 1999 and a PhD in inorganic chemistry in 2004, both from the University of Puerto Rico under Jorge L. Colón. He did his postdoc at Columbia University with Nicholas Turro in photochemistry and photobiology.[1]

Career

Martí began his academic career at Rice University as an assistant professor of Chemistry and Bioengineering in 2008. He was appointed associate professor in 2015 and professor in 2020, a position he continues to hold. In 2023, he assumed the roles of faculty director of the Rice Emerging Scholars Program (RESP) and chair of the Department of Chemistry at Rice University.[1][2] Additionally, he was elected chair of the American Chemical Society Division of Inorganic Chemistry (ACS DIC) for the 2024–2026 term.[3] Previously, at ACS DIC, he held the position of secretary from 2021 to 2023.[1]

Research

Martí's work has focused on multifunctional molecules for treating amyloid diseases, detecting DNA, mRNA, and proteins in biological systems, nanomaterials, and surfactants.[2] and his research has been supported by grants from the National Science Foundation,[4][5] the National Institutes of Health (NIH)[6] and the Welch Foundation.[7]

Martí has conducted research on the dispersion and purification of boron nitride and nanomaterials,[8] developing approaches to stabilize and functionalize them in solution with and without covalent methods.[9] His studies have explored carbon nanotubes in polymer composites, emphasizing their use in biotechnology sensors, substrate integration, and single-walled nanotube processing and composites.[10] In addition, he has made contributions to the chemistry and synthesis of graphene quantum dots,[11] graphene, and other carbon nanomaterials.[12]

Martí was among the first to investigate the use of luminescent metal complexes, such as ruthenium(II) dipyridophenazine and rhenium(I) compounds, to track amyloid-β fibrillization,[13] and link the amyloid aggregates to neurodegenerative diseases.[14] Using rhenium photocatalysts, his team identified specific binding sites on the amyloid-β fibril, particularly a hydrophobic cleft around valine-18 and phenylalanine-20.[15] His group also discovered enhanced luminescence upon binding of both a rhenium tricarbonyl–dppz complex and a ruthenium–dppz complex to amyloid-β aggregates, with the rhenium complex inducing peptide oxidation and the ruthenium complex showing reduced quenching by water.[16]

Martí's other work includes research on fluorescent surfactants,[17] layered materials,[18] fullerenes,[19] zeolites,[20] and fluorescent probes.[21]

Awards and honors

  • 2013 – Young Investigator Award, Inter-American Photochemical Society[22]
  • 2014 – New Investigator Award, American Society for Photobiology[23]
  • 2019 – Presidential Mentoring Award, Rice University[24]
  • 2020 – Fellow, Royal Society of Chemistry[25]
  • 2022 – Stanley C. Israel Award, American Chemical Society[26]
  • 2024 – Fellow, American Chemical Society[27][28]
  • 2024 – Fellow, American Association for the Advancement of Science[29]
  • 2025 – Robert Holland Jr. Award, Research Corporation for Science Advancement[30]

Selected articles

  • Jiang, C.; Saha, A.; Young, C. C.; Hashim, D. P.; Ramirez, C.; Ajayan, P. M.; Pasquali, M.; Martí, A. A. (2014). "Macroscopic Nanotube Fibers Spun from Single-Walled Carbon Nanotube Polyelectrolytes". ACS Nano. 8 (9): 9107–9112. Bibcode:2014ACSNa...8.9107J. doi:10.1021/nn502552q. PMID 25162378.
  • Jiang, B.; Aliyan, A.; Cook, N. P.; Augustine, A.; Bhak, G.; Maldonado, R.; Smith McWilliams, A.; Flores, E.; Mendez Dinamarca, N. G.; Godoy, F.; Montenegro, J.; Gonzalez-Moreno, I.; Martí, A. A. (2019). "Monitoring the Formation of Amyloid Oligomers Using Photoluminescence Anisotropy". Journal of the American Chemical Society. 141 (38): 15605–15610. Bibcode:2019JAChS.14115605J. doi:10.1021/jacs.9b06966. hdl:10668/14520. PMID 31536338.
  • Aliyan, A.; Cook, N. P.; Martí, A. A. (2019). "Interrogating Amyloid Aggregates using Fluorescent Probes". Chemical Reviews. 119 (18): 11819–11856. doi:10.1021/acs.chemrev.9b00404. PMID 31675223.
  • Smith McWilliams, A. D.; Martinez-Jimenez, C.; Matatyaho-Ya'akobi, A.; Ginestra, C. J.; Talmon, Y.; Pasquali, M.; Martí, A. A. (2021). "Understanding the Exfoliation and Dispersion of Hexagonal Boron Nitride by Surfactants". ACS Applied Nano Materials. 4 (1): 142–151. doi:10.1021/acsanm.0c02437.
  • Umezaki, U.; Smith McWilliams, A. D.; Tang, Z.; He, Z. M. S.; Siqueira, I. R.; Corr, S. J.; Ryu, H.; Kolomeisky, A.; Pasquali, M.; Martí, A. A. (2024). "Brownian Diffusion of Hexagonal Boron Nitride Nanosheets and Graphene in Two Dimensions". ACS Nano. 18 (3): 2446–2454. Bibcode:2024ACSNa..18.2446U. doi:10.1021/acsnano.3c11053. PMID 38207242.
  • Chen, Y.; Ya'akobi, A.-M.; Nguyen, T.-V.; Kao, S.-C.; West, J. G.; Biswal, S.-L.; Talmon, Y.; Martí, A. A. (2025). "Supramolecular Self-Assembly of Metal Complex Surfactants (MeCS) into Micellar Nanoscale Reactors in Aqueous Solution". Chemical Science. 16 (25): 3440–3446. doi:10.1039/D4SC07623K. PMC 11808396. PMID 39935512.

References

  1. ^ a b c "Angel Martí–CV" (PDF). blogs.rice.edu. Retrieved July 14, 2025.
  2. ^ a b "Rice University–Angel Martí". profiles.rice.edu. Retrieved July 14, 2025.
  3. ^ "ACSDIC–Officers". acsdic.org. Retrieved July 14, 2025.
  4. ^ "REU SITE: Research and Leadership Enabling Advanced Discoveries (RLEAD) in Chemical Nanoscience and Nanotechnology". nsf.gov. Retrieved July 14, 2025.
  5. ^ "NSF-BSF: Chemistry, Properties, Self-Organization and Phase Transitions of Boron-Nitride Nanotubes". nsf.gov. Retrieved July 14, 2025.
  6. ^ "Uncovering New Chemical and Physical Methods to Analyze Biological Fibrillar Nanostructures". reporter.nih.gov. Retrieved August 18, 2025.
  7. ^ "The Welch Foundation–Principal Investigators List". welch1.org. Retrieved August 18, 2025.
  8. ^ Maselugbo, A. O.; Harrison, H. B.; Alston, J. R. (2022). "Boron nitride nanotubes: A review of recent progress on purification methods and techniques". Journal of Materials Research. 37 (26): 4438–4458. Bibcode:2022JMatR..37.4438M. doi:10.1557/s43578-022-00672-5.
  9. ^ Huynh, T. Q. (2025). "Covalent functionalization of boron nitride nanotubes: A brief review". Next Nanotechnology. 7 100166. doi:10.1016/j.nxnano.2025.100166.
  10. ^ Bhawal, P.; Ganguly, S.; Chaki, T. K.; Das, N. C. (2016). "Synthesis and characterization of graphene oxide filled ethylene methyl acrylate hybrid nanocomposites". RSC Advances. 6 (25): 20781–20790. Bibcode:2016RSCAd...620781B. doi:10.1039/C5RA24914G.
  11. ^ Sudhagar, Pitchaimuthu; Herraiz-Cardona, Isaac; Park, Hun; Song, Taesup; Noh, Seung Hyun; Gimenez, Sixto; Mora Sero, Ivan; Fabregat-Santiago, Francisco; Bisquert, Juan; Terashima, Chiaki; Paik, Ungyu; Kang, Yong Soo; Fujishima, Akira; Han, Tae Hee (2016). "Exploring graphene quantum dots/TiO2 interface in photoelectrochemical reactions: solar to fuel conversion". Electrochimica Acta. 187: 249–255. doi:10.1016/j.electacta.2015.11.048.
  12. ^ Yang, Hai-Li; Bai, Li-Fei; Geng, Zhi-Rong; Chen, Hao; Xu, Le-Tian; Xie, Yang-Cun; Wang, Dong-Jin; Gu, Hong-Wei; Wang, Xiao-Ming (2023). "Carbon quantum dots: Preparation, optical properties, and biomedical applications". Materials Today Advances. 18 100376. Bibcode:2023MTAdv..1800376Y. doi:10.1016/j.mtadv.2023.100376.
  13. ^ Gill, M. R.; Thomas, J. A. (2012). "Ruthenium (II) polypyridyl complexes and DNA—from structural probes to cellular imaging and therapeutics". Chemical Society Reviews. 41 (8): 3179–3192. doi:10.1039/C2CS15299A. PMID 22314926.
  14. ^ Li, Z.; Ekanayake, A. B.; Bartman, A. E.; Doorn, J. A.; Tivanski, A. V.; Pigge, F. C. (2024). "Detection and disaggregation of amyloid fibrils by luminescent amphiphilic platinum (II) complexes". Dalton Transactions. 53 (21): 9001–9010. doi:10.1039/D4DT00882K. PMID 38726661.
  15. ^ Sohma, Y.; Sawazaki, T.; Kanai, M. (2021). "Chemical catalyst-promoted photooxygenation of amyloid proteins". Organic & Biomolecular Chemistry. 19 (46): 10017–10029. doi:10.1039/d1ob01677f. PMID 34787628.
  16. ^ Gomes, L. M.; Bataglioli, J. C.; Storr, T. (2020). "Metal complexes that bind to the amyloid-β peptide of relevance to Alzheimer's disease". Coordination Chemistry Reviews. 412 213255. doi:10.1016/j.ccr.2020.213255.
  17. ^ Robinson-Duggon, J.; Pizarro, N.; Gunther, G.; Zúñiga-Núñez, D.; Edwards, A. M.; Greer, A.; Fuentealba, D. (2021). "Fatty acid conjugates of toluidine blue O as amphiphilic photosensitizers: synthesis, solubility, photophysics and photochemical properties". Photochemistry and Photobiology. 97 (1): 71–79. doi:10.1111/php.13304. PMID 32619275.
  18. ^ Díaz, Agustín; David, Amanda; Pérez, Riviam; González, Millie L.; Báez, Adriana; Wark, Stacey E.; Zhang, Paul; Clearfield, Abraham; Colón, Jorge L. (2010). "Nanoencapsulation of insulin into zirconium phosphate for oral delivery applications". Biomacromolecules. 11 (9): 2465–2470. doi:10.1021/bm100659p. PMC 2942018. PMID 20707305.
  19. ^ Mamone, Salvatore; Concistrè, Maria; Heinmaa, Ivo; Carravetta, Marina; Kuprov, Ilya; Wall, Gary; Denning, Mark; Lei, Xuegong; Chen, Judy Y.-C.; Li, Yongjun; Murata, Yasujiro; Turro, Nicholas J.; Levitt, Malcolm H. (2013). "Nuclear magnetic resonance of hydrogen molecules trapped inside C70 fullerene cages". ChemPhysChem. 14 (13): 3121–3130. doi:10.1002/cphc.201300269. PMC 4068279. PMID 23788291.
  20. ^ Levitt, M. H. (2013). "Spectroscopy of light-molecule endofullerenes". Philosophical Transactions of the Royal Society A: Mathematical, Physical and Engineering Sciences. 371 (1998) 20120429. Bibcode:2013RSPTA.37120429L. doi:10.1098/rsta.2012.0429. PMID 23918717.
  21. ^ Cosnier, S.; Mailley, P. (2008). "Recent advances in DNA sensors". Analyst. 133 (8): 984–991. Bibcode:2008Ana...133..984C. doi:10.1039/B803083A. PMID 18645636.
  22. ^ "I-APS Young Investigator Award". i-aps.org. Retrieved August 18, 2025.
  23. ^ "People, papers and presentations". news2.rice.edu. Retrieved July 14, 2025.
  24. ^ "Faculty, staff honored for excellence in teaching, mentoring, service". news2.rice.edu. Retrieved July 14, 2025.
  25. ^ "Martí named fellow of the Royal Society of Chemistry". news.rice.edu. Retrieved August 18, 2025.
  26. ^ "Stanley C. Israel Award Recipients". acs.org. Retrieved July 14, 2025.
  27. ^ "2024 ACS Fellows". acs.org. Retrieved July 14, 2025.
  28. ^ Boyd, Jade (August 1, 2024). "Angel Martí elected fellow of the American Chemical Society". Rice News.
  29. ^ "2024 AAAS Fellows". aaas.org. Retrieved July 14, 2025.
  30. ^ "Robert Holland Jr. Award". rescorp.org. 7 March 2025. Retrieved July 14, 2025.
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