2023
120. Implementation of a core-shell design approach for constructing MOFs for CO2 capture. Y. He, P. Boone, A.R. Lieber, Z. Tong, P. Das, K.M. Hornbostel, C.E. Wilmer, and N.L. Rosi* ACS Appl. Mater. Interfaces 2023, ASAP.
119. Single amino acid modifications for controlling the helicity of peptide-based chiral gold nanoparticle superstructures. S.C. Brooks, R. Jin, V.C. Zerbach, Y. Zhang, T.R. Walsh*, and N.L. Rosi* J. Am. Chem. Soc. 2023, 145, 6546-6553.
2022
118. In silico identification and synthesis of a multi-drug loaded MOF for treating tuberculosis. A.P. Acharya, K.B. Sezginel, H.P. Gideon, A.C. Greene, H.D. Lawson, S. Inamdar, Y. Tang, A.J. Fraser, K.V. Patel, C. Liu, N.L. Rosi, S.Y. Chan, J.L. Flynn, C.E. Wilmer, S.R. Little.* J. Cont. Release 2022, 352, 242-255.
117. Crystallographic mapping and tuning of water adsorption in metal-organic frameworks featuring distinct open metal sites. Y. Han*, P. Das, Y. He, D.C. Sorescu, K.D. Jordan, and N.L. Rosi.* J. Am. Chem. Soc. 2022, 144, 19567-19575.  
116. Metal-organic frameworks on palladium nanoparticle-functionalized carbon nanotubes for monitoring hydrogen storage. S.I. Hwang, E.M. Sopher, Z. Zeng, Z.M. Schulte, D.L. White, N.L. Rosi, and A. Star*. ACS Appl. Nano Mater. 2022, 5, 13779-13786.
115. Designing optimal core-shell MOFs for direct air capture. P. Boone, Y. He, A.R. Lieber, J.A. Steckel, N.L. Rosi, K.M. Hornbostel, C.E. Wilmer*. Nanoscale 2022, 14, 16085-16096.
114. Peptide-based methods for the assembly of plasmonic nanostructures. Y. Zhou and N.L. Rosi.* World Scientific Reference on Plasmonic Nanomaterials: Principles, Design, and Bioapplications: Volume 3: Self-Assembly of Plasmonic Nanostructures 2022, pp 93-126.
113. Identifying UiO-67 metal-organic framework defects and binding sites through ammonia adsorption. V.S.D. Devulapalli, R.P. McDonnell, J.P. Ruffley, P.B. Shukla, T.Y. Luo, M.L. De Souza, P. Das, N.L. Rosi, J.K. Johnson, E. Borguet.* ChemSusChem 2022, 15,  e202102217.
2021
112.  Postsynthetic Modification of Metal-Organic Frameworks. S.M. Cohen*, and N.L. Rosi,* Guest Editors. Inorg. Chem. 2021, 60, 11703-11705.
111.  Breast cancer targeting of a drug delivery system through post synthetic modification of curcumin@N3-bio-MOF-100 via click chemistry. R.C. Alves, Z.M. Schulte, M.T. Luiz, P.B. da Silva, R.C.G. Frem, N.L. Rosi, M. Chorilli. Inorg. Chem. 2021, 60, 11739-11744.
110.  Size discrimination of carbohydrates via conductive carbon nanotube@metal organic framework composites. D.L. White, B.A. Day, Z. Zeng, Z.M. Schulte, N.R. Borland, N.L. Rosi, C.E. Wilmer, and A. Star.*  J. Am. Chem. Soc. 2021, 1438022-8033.
109. Heterogeneous growth of UiO-66-NH2 on oxidized single-walled carbon nanotubes to form 'Beads-on-a-String" composites.  Z. Zeng, D.C. Sorescu, D.L. White, S.I. Hwang, W. Shao, X. He, Z.M. Schulte,  N.L. Rosi, and A. Star.*  ACS Appl. Mater. Interfaces 2021, 1315482-15489.
108. Tuning the Lewis acidity of metal-organic frameworks for enhanced catalysis. V.S.D. Devulapalli, M. Richard, T.Y. Luo, M.L. De Souza, N.L. Rosi, and E. Borguet.*  Dalton Trans. 2021, 503116-3120.
107. The emergence of compositional complexity and anisotropy in metal-organic frameworks. N.L. Rosi.*  Chem. Res. Chinese Universities 2021, 37, 187-188.
2020
106. ​Interplay  between intrinsic thermal stability and expansion properties of functionalized UiO-67 metal-organic frameworks. I. Goodenough, V.S.D. Devulapalli, W. Xu*, M.C. Boyanich, T.Y. Luo, M. De Souza, M. Richard, N.L. Rosi, and E. Borguet.*  Chem. Mater. 2020, 33​, 910-920.
105. ​Modelling of diffusion of acetone in UiO-66. J.J. Wardzala, J.P. RUffley, I. Goodenough, A.M. Schmidt, P.B. Shukla, X. Wei, A. Bagusetty, M. De Souza, P. Das, D.J. Thompson, C.J. Karwacki, C.E. Wilmer, E. Borguet, N.L. Rosi, and J.K. Johnson.*  J. Phys. Chem. C 2020, 124​, 28469-28478.
104. ​Atom-by-atom evolution of the same ligand-protected Au21, Au22, Au22Cd1, and Au24 nano cluster series.  Y. Li, M.J. Cowan, M. Zhou, T.Y. Luo, Y. Song, H. Wang, N.L. Rosi, G. Mpourmpakis,* and R. Jin.* J. Am. Chem. Soc. 2020, 142​, 20426-20433.
103. ​Doping effect on the magnetism of thiolate-capped 25-atom alloy nano clusters.  Y. Li, S. Biswas, T.Y. Luo, R. Juarez-Mosqueda, M. G. Taylor, G. Mpourmpakis, N.L. Rosi, M. P. Hendrich*, and R. Jin.* Chem. Mater. 2020, 32, 9238-9244.
102. ​H2/CO2 separations in multicomponent metal-adeninate MOFs with multiple chemically distinct pore environments. Z.M. Schulte, Y.H. Kwon, Y. Han, C. Liu, L. Li, Y. Wang, A.G. Jarvi, S. Saxena, G. Veser, J.K. Johnson, and N.L. Rosi.* Chem. Sci. 2020, 11, 12807-12815.

Invited contribution to themed collection 'Celebrating 10 Years of Chemical Science'
101. ​Heteroatom tracing reveals the 30-atom Au-Ag bimetallic nano cluster as a dimeric structure. Y. Li, M.G. Taylor, T.Y. Luo, Y. Song, N.L. Rosi, G. Mpourmpakis, R. Jin.* J. Phys. Chem. Lett. 2020, 11, 7307-7312. 
100. ​MOFs constructed from biomolecular building blocks. Book Chapter for edited volume entitled "Metal-organic frameworks in biomedical and environmental field", Eds. P. Horcajada and S. Rojas. Springer Nature. ISBN 978-3-030-63379-0. Z.M. Schulte and N.L. Rosi.* 2020.
99. Leveraging peptide sequence modification to promote assembly of chiral helical gold nanoparticle superstructures. S. Mokashi-Punekar, S.C. Brooks, C.D. Hogan, and N.L. Rosi.* Biochemistry 2020, 60​, 1044-1049.
98. ​Mixed matrix membranes from a microporous polymer blend and nano-sized metal-organic frameworks with exceptional CO2/N2 separation performance. P.F. Muldoon, S.R. Venna, D.W. Gidley, J.S. Baker, L. Zhu, Z. Tong, F. Xiang, D.P. Hopkinson, S. Yi,* A.K. Sekizkardes,* and N.L. Rosi.* ACS Mater. Lett. 2020, 2, 821-828​.
97. ​Ship-in-a bottle preparation of long wavelength molecular antennae in lanthanide metal-organic frameworks for biological imaging. P.F. Muldoon, G. Collet, S.V. Eliseeva, T.Y. Luo, S. Petoud*, and N.L. Rosi.* J. Am. Chem. Soc. 2020, 142, 8776-8781​.
96. Luminescence 'turn-on' detection of gossypol using Ln(III)-based metal-organic frameworks and Ln(III) salts. T.Y. Luo, P. Das, D.L. White, C. Liu, A. Star, and N.L. Rosi.* J. Am. Chem. Soc. 2020, 142, 2897-2904​.
2019
95. Construction of chiral, helical nanoparticle superstructures: progress and prospects. S. Mokashi-Punekar, Y. Zhou, S.C. Brooks, and N.L. Rosi.* Adv. Mater. 2019, 1905975.
94. Au130-xAgx nano clusters with non-metallicity: a drum of silver-rich sites enclosed in a marks-decahedral cage of gold-rich sites. T. Higaki, C. Liu, D.J. Morris, G. He, T.Y. Luo, M.Y. Sfeir, P. Zhang, N.L. Rosi, and R. Jin.*  Angew. Chem. Int. Ed. 2019, 58, 18798-18802.
93. Nanoparticle doped PEDOT for enhanced electrode coatings and drug delivery. K.M. Woeppel, X.S. Zheng, Z.M. Schulte, N.L. Rosi, and X.T. Cui.* Adv. Healthcare Mater.  2019, 8, 1905975.
92. Tuning the structure and chiroptical properties of gold nanoparticle single helices via peptide sequence variation. S. Mokashi-Punekar, T.R. Walsh*, and N.L. Rosi.* J. Am. Chem. Soc.  2019, 141, 15710-15716.
91. Fundamental insights into the reactivity and utilization of open metal sites in Cu(I)-MFU-4l. L. Li, Y. Yang, M.H. Mohamed, S. Zhang, G. Veser, N.L. Rosi, and J.K. Johnson.* Organometallics  2019, 38, 3453-3459.
90. Designing open metal sites in metal-organic frameworks for paraffin/olefin separations. M.H. Mohamed, Y. Yang, L. Li, S. Zhang, J.P. Ruffley, A.G. Jarvi, S. Saxena, G. Veser*, J.K. Johnson*, and N.L. Rosi.* J. Am. Chem. Soc. 2019, 141, 13003-13007.
89. Design, synthesis, and characterization of metal-organic frameworks for enhanced sorption of chemical warfare agent simulants. J.P. Ruffley, I. Goodenough, T.Y. Luo, M. Richard, E. Borguet*, N.L. Rosi*, and J.K. Johnson.* J. Phys. Chem. C. 2019, 123, 19748-19758.
88. One approach for two: toward the creation of near-infrared imaging agents and rapid screening of lanthanide (III) ion sensitizers using polystyrene nanobeads. I. Martinic, S.V. Eliseeva, G. Collet, T.Y. Luo, N. Rosi, and S. Petoud.*  ACS Appl. Bio Mater.  2019, 2, 1667-1675.
87. Deliberate introduction of particle anisotropy in helical gold nanoparticle superstructures. S. Mokashi-Punekar and N.L. Rosi*  Part. Part. Syst. Charact.  2019, 1800504. ​
86. Multivariate stratified metal-organic frameworks: diversification using domain building blocks. T. Luo, C. Liu, X.Y. Gan, P.F. Muldoon, N.A. Diemler, J.E. Millstone, and N.L. Rosi*  J. Am. Chem. Soc.  2019, 141, 2161-2168 . ​
85. Growth of ZIF-8 on molecularly ordered 2-methylimidazole/single-walled carbon nanotubes to form highly porous, electrically conductive composites. J.E. Ellis, Z. Zeng, S.I. Hwang, S. Li, T.Y. Luo, S.C. Burkert, D.L. White, N.L. Rosi, J.J. Gassensmith, and A. Star.*  Chem. Sci.  2019, 10, 737-742. ​
2018
84. A correlated series of Au/Ag nanoclusters revealing the evolutionary patterns of asymmetric Ag doping. Y. Li, T.Y. Luo, M. Zhou, Y. Song, N.L. Rosi, and R. Jin.*  J. Am. Chem. Soc. 2018, 140, 14235-14243. ​
83. Near infrared excitation and emission in rare earth MOFs via encapsulation of organic dyes. C. Liu, S. Eliseeva, T. Luo, P.F. Muldoon, S. Petoud*, and N.L. Rosi.* Chem. Sci. 2018, 9, 8099-8102.
82. Total structure determination of Au16(S-adm)12 and CdAu14(StBu)12 and implications for the structure of Au15(SR)13. S. Yang, S. Chen, L. Xiong, C. Liu, H. You, S. Wang, N.L. Rosi, Y. Pei*, and M. Zhu.* J. Am. Chem. Soc. 2018, 140, 10988-10994. ​
81. Programmable topology in new families of heterobimetallic metal-organic frameworks. P.F. Muldoon, C. Liu, C.C. Miller, S.B. Koby, A. Gamble Jarvi, T.Y. Luo, S. Saxena, M. O’Keeffe, and N.L. Rosi.* J. Am. Chem. Soc. 2018, 140, 6194-6198. 
80. Modulating the hierarchical fibrous assembly of Au nanoparticles with atomic precision. Q. Li, J.C. Russell, T.Y. Luo, X. Roy, N.L. Rosi, Y. Zhu, and R. Jin.*  Nat. Commun. 2018, 9, 3871. ​
79. Single ligand exchange on an Au-Cu bimetal nano cluster and mechanism. Y. Song, Y. Lv, M. Zhou, T.Y. Luo, S. Zhao, N.L. Rosi, H. Yu, M. Zhu, and R. Jin.*  Nanoscale 2018, 10, 12093-12099. ​
2017
78. Reconstructing the surface of gold nanoclusters by cadmium doping. Q. Li, K.J. Lambright, M.G. Taylor, K. Kirschbaum, T.Y. Luo, J. Zhao, G. Mpourmpakis, S. Mokashi-Punekar, N.L. Rosi, R. Jin.* J. Am. Chem. Soc. 2017, 139, 17779-17782
77. Controlling Ag-doping in [AgxAu25-x(SC6H11)18]- nanoclusters cryogenic optical, electronic and electrocatalytic properties. R. Jin, S. Zhao, C.Liu, M. Zhao, G. Panapitiya, Y. Xing*, N.L. Rosi, J.P. Lewis, and R. Jin.* Nanoscale 2017, 9, 19183-19190.
76. Triblock peptide-oligonucleotide chimeras (POCs): programmable biomolecules for the assembly of morphologically tunable and responsive hybrid materials.  A.D. Merg, R.V. Thaner, S. Mokashi-Punekar, S.T. Nguyen*, and N.L. Rosi.* Chem. Commun. 2017, 53, 12221-12224.
75. Shuttling single metal atom into and out of a metal nanoparticle. S. Wang, H. Abroshan, C. Liu, T. Luo, M. Zhu, H.J. Kim, N. L. Rosi, and R. Jin.* Nat. Commun. 2017, 8, 848.
74. Systematic adjustment of pitch and particle dimensions within a family of chiral plasmonic gold nanoparticle superstructures. S. Mokashi-Punekar, A.D. Merg, and N.L. Rosi.* J. Am. Chem. Soc. 2017, 139, 15043-15048.
73. Effect of countercation on the water stability of an anionic metal-organic framework. A.B. Spore and N.L. Rosi.* CrystEngComm 2017, 19, 5417-5421.
72. Ligand exchange for controlling the surface chemistry and properties of nanoparticle superstructures. A.D. Merg, Y. Zhou, A.M. Smith, J.E. Millstone, and N.L. Rosi.* ChemNanoMat 2017, 3, 745-749.
71. Tailoring the structure of 58-electron gold nano clusters: Au103S2(S-nap)41 and its implications. T. Higaki, C. Liu, M. Zhou, T.Y. Luo, N.L. Rosi, and R. Jin.* J. Am. Chem. Soc. 2017, 139, 9994-10001.
70. Rare earth pcu metal-organic framework platform based on RE4(m3-OH)4(COO)62+ clusters: rational design, directed synthesis, and deliberate tuning of excitation wavelengths. T.Y. Luo, C. Liu, S.V. Eliseeva, P.F. Muldoon, S. Petoud*, and N.L. Rosi.* J. Am. Chem. Soc.  2017, 139, 9333-9340.
69. Polyphosphazene polymer development for mixed matrix membranes using SIFSIX-Cu-2i as performance enhancement filler particles. S.R. Venna*, A. Spore, Z. Tian, A. M. Marti. E. J. Albenze, H. B. Nulwala, N. L. Rosi, D. R. Luebke, D. P. Hopkinson, and H. R. Allcock.*  J. Membrane. Sci. 2017, 535, 103-112.
68. All-atom molecular dynamics simulations of peptide amphiphile assemblies that spontaneously form twisted and helical ribbon structures. C.T. Lai, N.L. Rosi, and G.C. Schatz.* J. Phys. Chem. Let.  2017, 8, 2170-2174.
67. Molecular "surgery" on a 23-gold-atom nanoparticle. Q. Li, T.Y. Luo, M.G. Taylor, S. Wang, Z. Zhu, Y. Song, G. Mpourmpakis, N. L. Rosi, and R. Jin.* Science Advances 2017, 3, e1603193.
66. Oxidation-induced transformation of eight-electron gold nano clusters: [Au23(SR)16]- to [Au28(SR)20]. T. Higaki, C. Liu, Y. Chen, S. Zhao, C. Zeng, R. Jin, S. Wang, N.L. Rosi, and R. Jin.* J. Phys. Chem. Lett.  2017, 8, 866-870.
65. Ternary gradient metal-organic frameworks. C. Liu and N.L. Rosi.* Faraday Discussions 2017, 201, 163-174.
2016
64. Peptide-directed assembly of single-helical gold nanoparticle superstructures exhibiting intense chiroptical activity. A.D. Merg, J.C. Boatz, A. Mandal, G. Zhao, S. Punekar, C. Liu, Z. Wang, P. Zhang, P.C.A. van der Wel*, N.L. Rosi.* J. Am. Chem. Soc. 2016, 138, 13655-13663.
63. Establishing porosity gradients within metal-organic frameworks using partial postsynthetic ligand exchange. C. Liu, C. Zeng, T.Y. Luo, A.D. Merg, R. Jin, N.L. Rosi.* J. Am. Chem. Soc. 2016, 138​, 12045-12048.
62. Silicon nanoparticles with surface nitrogen: 90% quantum yield with narrow luminescence bandwidth and the ligand structure based energy law. Q. Li, T. Luo, M. Zhou, H. Abroshan, J. Huang, H.J. Kim, N. L. Rosi, Z. Shao, R. Jin.* ACS Nano 2016, 10​, 8385-8393.
61. Tailoring the electronic and catalytic properties of Au25 nanoclusters via ligand engineering. G. Li, H. Abroshan, C. Liu, S. Zhou, Z. Li, Y. Xie, H.J. Kim, N.L. Rosi, R. Jin.* ACS Nano 2016, 10, 7998-8005.
60. Atomic structure of self-assembled monolayer of thiolates on a tetragonal Au92 nanocrystal. C. Zeng, C. Liu, Y. Chen, N.L. Rosi, R. Jin.* J. Am. Chem. Soc. 2016, 138, 8710-8713.
59. Controlling the atomic structure of Au­30 nanoclusters by a ligand based strategy. T. Higaki, C. Liu, C. Zeng, R. Jin, Y. Chen, N.L. Rosi, R. Jin.* Angew. Chem. Int. Ed. 2016, 55, 6694-6697.
58. Isomerism in Au28(SR)20 nanocluster and stable structures. Y. Chen, C. Liu, Q. Tang, C. Zeng, T. Higaki, A. Das, D. Jiang, N.L. Rosi, R. Jin.* J. Am. Chem. Soc. 2016, 138, 1482-1485.
2015
57. Gold tetrahedra coil up: Kekulé-like and double helical superstructures.  C. Zeng, Y. Chen, C. Liu, K. Nobusada, N.L. Rosi, R. Jin.* Science Advances 2015, 1, e1500425.​
56. Loading and triggered released of cargo from hollow spherical gold nanoparticle superstructures. C. Zhang, T. Brinzer, C. Liu, S. Garrett-Roe, and N.L. Rosi.* RSC Adv. 2015, 5, 76291-76295.
55. "Observation of body-centered cubic gold nano cluster." C. Liu, T. Li, G. Li, K. Nabusada, C. Zeng, G. Pang, N.L. Rosi, R. Jin.* Angew. Chem. Int. Ed. 2015, 54, 9826-9829.
54. Adjusting the metrics of 1-D helical gold nanoparticle superstructures using multivalent peptide conjugates. A.D. Merg, J. Slocik, M.G. Blaber, G.C. Schatz, R. Naik, and N.L. Rosi.* Langmuir 2015, 31, 9492-9501.
53. Orthogonal ternary functionalization of a mesoporous metal-organic framework via sequential post synthetic ligand exchange. C. Liu, T-.Y. Luo, E.S. Feura, C. Zhang, N.L. Rosi.* J. Am. Chem. Soc. 2015, 137, 10508-10511.
52. Crystal structure of barrel-shaped chiral Au130(p-MBT)50 nanocluster. Y. Chen, C. Zeng, C. Liu, K, Kirschbaum, C. Gayatheri, R.R. Gil, N.L. Rosi, and R. Jin.* J. Am. Chem. Soc. 2015, 137, 10076-10079.
51. Tri-icosahedral gold nanocluster [Au37(PPh3)10(SC2H4Ph)10X2]+: linear assembly of icosahedral building blocks. R. Jin, C. Liu, S. Zhao, A. Das, H. Xing, C. Gayathri, Y. Xing, N.L. Rosi, R.R. Gil, and R. Jin.* ACS Nano, 2015, 9, 8530-8536.
50. Structure determination of [Au18(SR)14]. A. Das, C. Liu, H.Y. Byun, K. Nobusada, S. Zhao, N.L. Rosi, and R. Jin.* Angew. Chem. Int. Ed. 2015, 54, 3140-3144.
49. Fabrication of MMMs with improved gas separation properties using externally-functionalized MOF particles. S.R. Jenna, M. Lartey, T. Li, A. Spore, S. Kumar, H.B. Nulwala, D.R. Luebke, N.L. Rosi*, and E. Albenze.* J.Mat. Chem. A 2015, 3, 5014-5022.
2014
48. Hollow spherical gold nanoparticle superstructures with tunable diameters and visible to near-infrared extinction. C. Zhang, Y. Zhou, A. Merg, C. Song, G.C. Schatz*, and N.L. Rosi.* Nanoscale 2014, 6, 12328-12332.
47.  Gold-thiolate ring as a protecting motif in the Au20(SR)16 nano cluster and implications. C. Zeng, C. Liu, Y. Chen, N.L. Rosi, and R. Jin.* J. Am. Chem. Soc. 2014, 136, 11922-11925.
46.  Cyclopentanethiolato-protected Au36(SC5H9)24 nano cluster: crystal structure and implications for the steric and electronic effects of ligand. A. Das, C. Liu, G. Li, T. Li, N.L. Rosi, and R. Jin.* J. Phys. Chem. A 2014, 118, 8264-8269.
45.  Crystal structure and electronic properties of a thiolate-protected Au24 nanocluster. A. Das, T. Li, G. Li, K. Nobusada, C. Zeng, N.L. Rosi, and R. Jin.* Nanoscale 2014, 6, 6458-6462.
44. Peptide conjugates for directing the morphology and assembly of 1D nanoparticle superstructures. C. Zhang, C. Song, H.C. Fry, and N.L. Rosi*. Chem. Eur. J. 2014, 20, 941-945.
43. Alumina-supported cobalt-adeninate MOF membranes for CO2/CH4 separation. Z. Xie, T. Li, N.L. Rosi*, and M.A. Carreon*. J. Mat. Chem. A 2014, 2, 1239-1241.
2013

42. Nonsuperatomic [Au23(S6H11)16]- nanocluster featuring bipyramidal Au15 kernel and trimeric Au3(SR)4 motif. A. Das, T. Li, K. Nabusada*, C. Zeng, N.L. Rosi, R. Jin*. J. Am. Chem. Soc. 2013, 135, 18264-18267.
41. Screening and evaluating aminated cationic functional moieties for potential CO2 capture applications using an anionic MOF scaffold. T. Li and N.L. Rosi*. Chem. Commun. 2013, 97, 11385-11387.
40.   Lanthanide near infrared imaging in living cells with Yb3+ nano metal organic frameworks."  A. Foucault-Collet, K.A. Gogick, K.A. White, S. Villette, A. Pallier, G. Collet, C. Kieda, T. Li, S. J. Geib, N.L. Rosi*, and S. Petoud*. Proc. Nat. Acad. Sci., U.S.A.  2013,  110, 17199-17204. 
39.   Stepwise ligand exchange for the preparation of a family of mesoporous MOFs.  T. Li, M.T. Kozlowski, E.A. Doud, M.N. Blakely, and N.L. Rosi*.  J. Am. Chem. Soc.  2013,  135, 11688-11691. 
38.   Chiral structure of a thiolate-protected 28-gold-atom nanocluster determined by X-ray crystallography.  C. Zeng, T. Li, A. Das, N.L. Rosi, and R. Jin*.  J. Am. Chem. Soc.  2013,  135, 10011-10013. 
37.   Design and preparation of a core-shell metal-organic framework for selective CO2 capture.  T. Li, J.E. Sullivan, and N.L. Rosi*.  J. Am. Chem. Soc.  2013,  135, 9984-9987. 
36.  Tailorable plasmonic circular dichroism properties of helical nanoparticle superstructures. C. Song, M.G. Blaber, G. Zhao, P. Zhang, H.C. Fry, G.C. Schatz, and N.L. Rosi*.  ​Nano Lett. 2013, 13, 3256-3261.
35. Peptide-directed synthesis and assembly of hollow spherical CoPt nanoparticle superstructures.  C. Song, Y. Wang, and N.L. Rosi*.  Angew. Chem. Int. Ed.  2013, 52, 3993-3995.
34. Systematic modulation and enhancement of CO2:N2 selectivity and water stability in an isoreticular series of bio-MOF-11 analogues."  T. Li, D-L. Chen, J. Sullivan, M. Kozlowski, J.K. Johnson, and N.L. Rosi*.  Chemical Science 2013, 4, 1146-1155.
2012

33. Total structure and optical properties of a phosphine/thiolate-protected Au-24 nanocluster.  A. Das, T. Li, K. Nobusada, Q. Zeng, N.L. Rosi, and R. Jin*.  J. Am. Chem. Soc. 2012, 134, 20286-20289. 
32. Strain-promoted ‘click’ modification of a mesoporous metal-organic framework.  C. Liu, T. Li, and N.L. Rosi*.  J. Am. Chem. Soc. 2012, 134, 18886-18888. 
31. Total structure and electronic properties of the gold nanocrystal Au36(SR)24.  C. Zeng, H. Qian, T. Li, G. Li, N.L. Rosi, and R.C. Jin*.  Angew. Chem. Int. Ed.  2012, 124, 13291-13295. 
30. Metal-adeninate vertices for the construction of an exceptionally porous metal-organic framework."  J. An, O.K. Farha, J.T. Hupp, E. Pohl, J.I. Yeh, and N.L. Rosi*.  Nature Communications   2012, 3, #604.  
2011

29. Size-controlled peptide-directed synthesis of hollow spherical gold nanoparticle superstructures.  L. Hwang, G. Zhao, P. Zhang, and N.L. Rosi*.  Small 2011, 7, 1939-1942.  
28. Metal-biomolecule frameworks (MBioFs).  I. Imaz, M. Rubio-Martinez, J. An, I Sole-Font, N.L. Rosi*, and D. Maspoch*.  Chem. Commun. 2011, 47, 7287-7302. 
27. Zinc-adeninate metal-organic framework for aqueous encapsulation and sensitization of near-infrared and visible emitting lanthanide cations.  J. An, C.M. Shade, D.A. Chengelis-Czegan, S. Petoud*, and N.L. Rosi*.  J. Am. Chem. Soc. 2011, 133, 1220-1223. 
26. Preparation of 1-D nanoparticle superstructures with tailorable thicknesses using gold-binding peptide conjugates.  L. Hwang, C.L. Chen, and N.L. Rosi*.  Chem. Commun. 2011, 47, 185-187.
2010

25. Expeditious synthesis and assembly of sub-100 nm hollow spherical gold nanoparticle superstructures.   C.Y. Song, G.P. Zhao, P. Zhang, and N.L. Rosi*.  J. Am. Chem. Soc.  2010, 132, 14033-14035.
24. Preparation of unique 1-D nanoparticle superstructures and tailoring their structural features.  C.L. Chen and N.L. Rosi*.  J. Am. Chem. Soc.  2010, 132, 6902-6903. 
23. Tuning MOF CO2 adsorption properties via cation exchange.  J. An and N.L. Rosi*.  J. Am. Chem. Soc.  2010, 132, 5578-5579. 
22. Peptide-based methods for the preparation of nanostructured inorganic materials.  C.L. Chen and N.L. Rosi*.  Angew. Chem. Int. Ed.  2010, 49, 1924-1942. 
21. High and selective CO2 uptake in a cobalt-adeninate MOF exhibiting pyrimidine- and amino-decorated pores.  J. An, S.J. Geib, and N.L. Rosi*.  J. Am. Chem. Soc.  2010, 132, 38-39.    
2009

20. Near-infrared luminescent lanthanide MOF barcodes.  K.A. White, D.A. Chengelis, K.A. Gogick, J. Stehman, S. Petoud*, and N.L. Rosi*.  J. Am. Chem. Soc.  2009, 131, 18069-18071.    
19. Near-infrared emitting ytterbium metal-organic frameworks with tunable excitation properties.  K.A. White, D.A. Chengelis, M. Zeller, S.J. Geib, J.A. Szakos, S. Petoud*, and N.L. Rosi*.  Chem. Commun.  2009, 4506-4508. 
18. Synthesis, structure, assembly, and modulation of the CO2 adsorption properties of a zinc-adeninate macrocycle.  J. An, R.P. Fiorella, S.J. Geib, and N.L. Rosi*.  J. Am. Chem. Soc.  2009, 131, 8401-8403. 
17. Cation-triggered drug release from a porous zinc-adeninate metal-organic framework.  J. An, S.J. Geib, and N.L. Rosi*.  J. Am. Chem. Soc.  2009, 131, 8376-8377.    
2008

16. A new peptide-based method of the design and synthesis of nanoparticle superstructures:  construction of highly ordered gold nanoparticle double helices.  C.L. Chen, P. Zhang, and N.L. Rosi*.  J. Am. Chem. Soc.  2008, 130, 13555-13557. 

15. Gold nanoparticle-based assays for the detection of biologically relevant molecules.  K.A. White and N.L. Rosi*.  Nanomedicine 2008, 7, 543-553. 
pre 2008 (graduate and postdoctoral publications)
14. Oligonucleotide loading determines cellular uptake of DNA-modified gold nanoparticles.  D.A. Giljohann, D.S. Seferos, P.C. Patel, J.E. Millstone, N.L. Rosi, C.A. Mirkin.  Nano Letters 2007, 7, 3818-3821.

13. Locked nucleic acid-nanoparticle conjugates.  D.S. Seferos, D.A. Giljohann, N.L. Rosi, and C.A. Mirkin.  ChemBioChem  2007, 8, 1230-1232.

12. Asymmetric functionalization of gold nanoparticles with oligonucleotides.  X. Xu, N.L. Rosi, Y. Huang, C.A. Mirkin.  J. Am. Chem. Soc.  2006, 128, 9286-9287.

11. Oligonucleotide-modified gold nanoparticles for intracellular gene regulation.  N.L. Rosi, D.A. Giljohann, C.S. Thaxton, A. Lytton-Jean, M.S. Han, C.A. Mirkin.  Science 2006, 312, 1027-1030.

10. Sacrificial biotemplates for the formation of nanostructured metallic microshells.  E.K. Payne, N.L. Rosi, C. Xue, C. A. Mirkin.  Angew. Chem. Int. Ed.  2005, 44, 5064-5067.

9. Optically and chemically encoded nanoparticle materials in biomolecule detection.  C.S. Thaxton, N.L. Rosi, C.A. Mirkin.  MRS Bull.  2005, 30, 376-380.

8. Nanostructures in biodiagnostics.  N.L. Rosi, C.A. Mirkin.  Chem. Rev.  2005, 105, 1547-1562.

7. Nanostructures in biodefense and molecular diagnostics.  C.A. Mirkin, C.S. Thaxton, N.L. Rosi.  Expert Rev. Mol. Diagn. 2004, 4, 749-751.

6. Control of nanoparticle assembly using DNA-modified diatom templates.  N.L. Rosi, C.S. Thaxton, C.A. Mirkin.  Angew. Chem. Int. Ed.  2004, 43, 5500-5503.

5. Metal-organic frameworks constructed from rod-shaped secondary building units.  N.L. Rosi, J. Kim, M. Eddaoudi, B. Chen, M. O’Keeffe, O.M. Yaghi.  J. Am. Chem. Soc.  2005, 127, 1504-1518.

4. Hydrogen storage in microporous metal-organic frameworks.  N.L. Rosi, J. Eckert, M. Eddaoudi, D.T. Vodak, J. Kim, M. O’Keeffe, O.M. Yaghi.  Science 2003, 300, 1127-1129.

3. Advances in the chemistry of metal-organic frameworks.  N.L. Rosi, M. Eddaoudi, J. Kim, M. O’Keeffe, O.M. Yaghi.  Cryst. Eng. Comm.  2002, 4, 401-404.

2. Systematic design of pore size and functionality in isoreticular metal-organic frameworks.  M. Eddaoudi, J. Kim, N.L. Rosi, D. Vodak, J. Wachter, M. O’Keeffe, O.M. Yaghi.  Science 2002, 295, 468-472.

1. Infinite secondary building units and forbidden catenation in metal-organic frameworks.  N.L. Rosi, M. Eddaoudi, J. Kim, M. O’Keeffe, O.M. Yaghi.  Angew. Chem. Int. Ed.  2002, 41, 284-287.