top of page
Fibers+CyNPs_edited.png

Publications

Carlini Group Findings

26.png

27.

Polymer Platform for Peroxynitrite Detection Utilizing Benzopyrylium Chemistry

Morin, E. J., Datta, I., Zang, N., Mane, S. R., Brown, K.T., Morrissey M., and Carlini, A. S.* (accepted in Chem).

​

* corresponding author 

24

26.
Impact of BHT additive on the optical and reactive behavior of fluorescent peroxynitrite probes  

Pham, A.V., Morin, E.J., Nasseri, N. S., Mane, S.R., and Carlini, A.S.* (accepted in ACS Omega

​

* corresponding author

26

25.
Biodegradable Adhesives: Innovations and Challenges in Wearable and Biointegrated Technologies

Akbulut, E.S.,† , Vinella, D.,† and Carlini, A.S.*. In: The 2025 Global Roadmap for Wearable and Textile Technologies in Health, Elgendi, M. (eds). Physiological Measurement, IOPscience, (accepted)

​

† co-first author 

* corresponding author 

25.png

24.
Detection of peroxynitrite with spatial and temporal resolution: challenges and opportunities

Morin, E.J.,† Pham, A. V.,† Nasseri, N. S., and Carlini, A.S.*. (under review

23

23.

A soft thermal sensor for the continuousassessment of flow in vascular access

Deng, Y., Arafa, H. M., Yang, T., Albadawi, H., Fowl, R. J.; Zhang, Z., Kandula, V., Ramesh, A., Correia, C., Huang*, Y. , Oklu, R*.; Rogers, J. A*. and Carlini, A. S*. Nature Communications, 2025, 16. 

​

* corresponding author

19_edited.jpg

22.
Surface Functionalization of Elastomeric Substrates with Polymers.

Morin, E.†, Muzzy, E.† and Carlini, A.S.* In: Biomedical Nanotechnology, Callmann, C. (eds). Methods in Molecular Biology, Springer US, 2025, 2902, 197-227.

​

† co-first author

* corresponding author 

22

21.
Redox-active molecules in bacterial cultivation media produce photocurrent

Smith, M. C.,† Nasseri, N. S.,† Morin, E. J.; Limwongyut, J., Moreland, A. S., Shlosberg*, Y. and Carlini, A. S*. Biosensors and Bioelectronics: X, 2024, 21, 100558. 

​

† co-first author

* corresponding author 

21

20.
Self-adaptive epidermal blood flow sensor for high-flux vascular access monitoring of hemodialysis patients

Tian, Y., Yang, K., Wang, Y., Wang, J., Carlini, A. S., Zhang, Z., Deng, Y., Tan, J., Peng, L., Yu, B., and Lin, Z. npj Flexible Electronics, 2024, 8. 

TOC 3.png

19.
Polymerization-Induced Self-Assembly of (2-(4-vinylbenzyl) iso-indoline-1,3-dione) for the Synthesis of Hydrazine Responsive Block Copolymer Nanoparticles

​Mane, S. R*. and  Carlini, A. S*. Polymer Chemistry, 2024, 15, 1043–1051.

​

* co-corresponding author

18

18.
Mammalian Fuel Cells Produce Electric Current

Shlosberg, Y. *,  Faynus, M.A, Huang, A., Carlini, A.S., Clegg, D.O., and Kaner R.B. ACS Applied Materials & Interfaces, 2023, 15(29), 34992-35000.

​

* co-corresponding author

17

17.
Photocurrent Production from Cherries in a Bio-Electrochemical Cell

Shlosberg, Y.*, Rubino, K.C., Nasseri, N.S., and Carlini, A.S.*, Electrochem 2023, 4(1), 47-55.

​

* co-corresponding author

(front cover)

Book Chapter.png

16.
Hydrogel Formation with Enzyme-Responsive Cyclic Peptides

Carlini, A.S.,† Cassidy, M.F.,† and Gianneschi, N.C.*, In: Peptide Macrocycles, 1 ed., Coppock, M.B. and Winton, A.J. (eds). Methods in Molecular Biology, Springer US, 2022, 2371, 427-448.

​

† co-first author

* corresponding author 

PH_Responsive_progelators.png

15.
pH-Responsive Charge-Conversional Progelator Peptides

Carlini, A.S.,* Choi, W., McCallum, N.C., and Gianneschi, N.C.*, Advanced Functional Materials, 2021, 31(13), 2007733.

​

* co-corresponding author

Bioresorbable Microdroplets.jpeg

14.
Bioresorbable Microdroplet Lasers as Injectable Systems for Transient Thermal Sensing and Modulation

Franklin, D., Ueltschi, T., Carlini, A.S., Yao, S., Reeder, J., Richards, B., Van Duyne, R.P., and Rogers, J.A.*,

ACS Nano, 2021, 15(2), 2327-2339.

VTLCTEM_PISA.jpg

13.
Probing Thermoresponsive Polymerization-Induced Self-Assembly with Variable-Temperature Liquid-Cell Transmission Electron Microscopy

Scheutz, G.M.,† Touve, M.A.,† Carlini, A.S., Garrison, J.B., Gnanasekaran, K., Sumerlin, B.S.,* and Gianneschi, N.C.*, Matter, 2021, 4(2), 722-736.

​

† co-first author

NICU_2020.png

12.
Skin-Interfaced Biosensors and Pilot Studies for Advanced Wireless Physiological Monitoring in Neonatal and Pediatric Intensive Care Units

Chung, H.U.,† Rwei, A.,† Hourlier-Fargette, A.,† Lee, K., Dunne, E., Xie, Z., Liu, C., Carlini, A.S., Kim, D.H., Ryu, D., Kulikova, E., Cao, J., Odland, I.C., Fields, K.B., Hopkins, B., Banks, A., Ogle, C., Grande, D., Park, J.B., Kim, J., Irie1, M., Jang, H., Lee, J., Park, Y., Jo, H.H., Hahm, H., Namkoong, M., Kwak, J.W., Suen, E., Paulus, M.A., Kim, R.J., Parsons, B.V., Human, K.A., Kim, S.S., Patel1, M., Reuther, W., Kim, H.S., Lee, S.H., Leedle, J.D., Avila, R., Xu, Y., Yun, Y., Rigali, S., Son, T., Jung, I., Arafa, H., Soundararajan, V.R., Ollech, A., Shukla, A., Bradley, A., Schau, M., Rand, C.M., Marsillio, L.E., Harris, Z.L., Huang, Y., Hamvas, A, Paller, A.S., Weese-Mayer, D.E., Xu, S.,* Lee, J.Y.,* and Rogers, J.A.*, Nature Medicine, 2020, 26, 418-429.

​

† co-first author

Polymer_brush_photolith.png

11.
Polymer Brush Hypersurface Photolithography

Carbonell, C., Valles, D., Wong, A.M., Carlini, A.S., Touve, M.A., Gianneschi, N.C.,* and Braunschweig, A.B.*, Nature Communications, 2020, 11, 1244.

PTX_peptide_brush.png

10.
Paclitaxel-terminated peptide brush polymers

Zhu, J., Sun, H., Callmann, C.E., Thompson, M.P., Battistella, C., Proetto, M.T., Carlini, A.S., and Gianneschi, N.C.*, Chemical Communications, 2020, 56, 6778-6781.

SA_Peptides_LPTEM_Maldi.png

9.
Self-assembling peptides imaged by correlated liquid cell transmission electron microscopy and MALDI-imaging mass spectrometry

Touve, M.A.,† Carlini, A.S.,† and Gianneschi, N.C.*, Nature Communications, 2019, 10, 4837.

​

† co-first author

UV_Responsive_Cyclic_Progelator_bioinks.png

8.
UV-responsive cyclic peptide progelator bioinks

Carlini, A.S., Touve, M.A., Caro, H.F., and Gianneschi, N.C.*, Faraday Discussion, 2019, 219, 44-57.

Enzyme-responsive_progelator_MI_Delivery_edited.jpg

7.
Enzyme-Responsive Progelator Cyclic Peptides for Minimally Invasive Delivery to the Heart Post-Myocardial Infarction

Carlini, A.S., Gaetani, R., Braden, R.L., Luo, C., Christman, K.L. and Gianneschi, N.C.*, Nature Communications, 2019, 10, 1735.

Enzyme-induced_kinetic_control_morphology.jpg

6.
Enzyme-Induced Kinetic Control of Peptide-Polymer Micelle Morphology

Wright, D.B., Ramirez-Hernandez, A., Patterson, J.P. Touve, M.A., Carlini, A.S., de Pablo, J.*, and Gianneschi, N.C.*, ACS Macro Letters, 2019, 8(6), 676-681.

Enzyme-responsive_ROMPISA.png

5.
Enzyme-Responsive Polymer Nanoparticles via Ring-Opening Metathesis Polymerization-Induced Self-Assembly

Wright, D.B., Thompson, M.P., Touve, M.A., Carlini, A.S., and Gianneschi, N.C.*, Macromolecular Rapid Communications, 2018, 40(2), 1800467.

Micellar_Thrombin-Binding_Aptamers.jpeg

4.
Micellar Thrombin-Binding Aptamers: Reversible Nanoscale Anticoagulants

Roloff, A., Carlini, A.S., Callmann, C.E., and Gianneschi, N.C.*, Journal of the American Chemical Society, 2017, 139(46), 16442-16445.

46_Carlini_cover-2bakgmy.png

3.
Biosynthetic Polymers as Functional Materials

Carlini, A.S., Adamiak, L., and Gianneschi, N.C.*, Macromolecules, 2016, 49(12), 4379-4674. 

             

(ACS Editors Choice Article; front cover)

31_Carlini_cover-1hkrj1t.png

2.
Enzyme-Responsive Nanoparticles for Targeted Accumulation and Prolonged Retention in Heart Tissue after Myocardial Infarction

Nguyen, M.M.,† Carlini, A.S.,† Chien, M.-P., Sonnenberg, S., Luo, C., Braden, R.L., Osborn, K.G., Li, Y., Gianneschi, N.C.*, and Christman, K.L.*, Advanced Materials, 2015, 27(37), 5547-5552.  

​

† co-first author

​

(inside front cover)

JACS_2013

1.
Enzyme-Directed Assembly of Nanoparticles in Tumors Monitored by In Vivo Whole Animal and Ex Vivo Super Resolution Fluorescence Imaging

Chien, M.P., Carlini, A.S., Hu, D., Barback, C., Rush, A., Hall, D., Orr, G., Gianneschi, N.C.*, Journal of the American Chemical Society, 2013, 135(50), 18710-18713.

bottom of page