Publications

 

95. Tunable Growth of Layered Double Hydroxide Nanosheets through Hydrothermal Conversion of Atomic Layer Deposition Seed Layers
A. M. Ortiz-Ortiz, D. O. Delgado Cornejo, K. M. Fuelling, A. R. Bielinski, T. Ma, N. P. Dasgupta, Chem. Mater. In Press, (2024) [link]
Fouling Reduction and Release 94. Bioinspired Zwitterionic Nanowires with Simultaneous Biofouling Reduction and Release
J. Wang, B. Macdonald, T. H. Cho, T. Repetto, K. Sun, A. Tuteja, N. P. Dasgupta, Small In Press, (2024) [link]
Early stages of Li deposition onto a Cu collector 93. Thermodynamics, Adhesion, and Wetting at Li/Cu(-Oxide) Interfaces: Relevance for Anode-Free Lithium–Metal Batteries
J. S. Yoon, D. W. Liao, S. M. Greene, T. H. Cho, N. P. Dasgupta, D. J. Siegel, ACS Appl. Mater. Interfaces 16, 18790 (2024) [link]
Lamination of Perovskite Solar Cells 92. Lamination of >21% Efficient Perovskite Solar Cells with Independent Process Control of Transport Layers and Interfaces
S. K. Yadavalli, C. L. Lanaghan, J. Palmer, A. J. Gayle, D. Penley, O. Okia, M. Zaccherini, O. Trejo, S. P. Dunfield, D. P. Fenning, N. P. Dasgupta, ACS Appl. Mater. Interfaces 16, 16040, (2024) [link]
Mechatronic AP-SALD 91. Mechatronic Spatial Atomic Layer Deposition for Closed-Loop and Customizable Process Control
D. Penley, T. H. Cho, A. J. Brooks, L. Ransohoff, H. Park, E. Herman, E. Zhao, O. Trejo, K. Barton, N. P. Dasgupta, Adv. Mater. Technol. 9, 2301728 (2024) [link]
Sulfide/Halide Bilayer Electrolytes for Solid-State Batteries 90. Thin Free-Standing Sulfide/Halide Bilayer Electrolytes for Solid-State Batteries Using Slurry Processing and Lamination
Y. Kim, C. Juarez-Yescas, D. W. Liao, M. K. Jangid, P. Joshi, H. Yang, B. Zahiri, P. V. Braun, N. P. Dasgupta, ACS Energy Lett. 9, 1353 (2024) [link]
 Interfacial Dynamics of Carbon Interlayers 89. Interfacial Dynamics of Carbon Interlayers in Anode-Free Solid-State Batteries
D. W. Liao, T. H. Cho, S. Sarna, M. K. Jangid, H. Kawakami, T. Kotaka, K. Aotani, N. P. Dasgupta, J. Mater. Chem. A 12, 5990 (2024) [link]
Cycling Phenomena in Liquid and Solid Electrolytes 88. Lithium Metal Anodes: Advancing our Mechanistic Understanding of Cycling Phenomena in Liquid and Solid Electrolytes
A. J. Sanchez, N. P. Dasgupta, J. Am. Chem. Soc. 146, 4282 (2024) [link]
Acid-Based Electrohydrodynamic-Jet Printing Reduction 87. Subtractive Patterning of Nanoscale Thin Films Using Acid-Based Electrohydrodynamic-Jet Printing Reduction
T. H. Cho, N. Farjam, K. Barton, N. P. Dasgupta, Small Methods 8, 2301407 (2024) [link] (Front Cover)
Atomic Layer Deposition of Cu Electrocatalysts on Gas Diffusion Electrodes for CO2 Reduction 86. Atomic Layer Deposition of Cu Electrocatalysts on Gas Diffusion Electrodes for CO2 Reduction
J. D. Lenef, S. Y. Lee, K. M. Fuelling, K. E. Rivera Cruz, A. Prajapati, D. O. Delgado Cornejo, T. H. Cho, K. Sun, E. Alvarado, T. S. Arthur, C. A. Roberts, C. Hahn, C. C. L. McCrory, N. P. Dasgupta, Nano Lett. 23, 10779 (2023) [link]
Surface directed assembly on non-planar surfaces 85. Scaling-Up Seeded Hydrothermal Nanowire Synthesis on Non-planar Surfaces Using a Flow Reactor
A. M. Ortiz-Ortiz, A. J. Gayle, J. Wang, H. R. Faustyn, D. Penley, C. Sherwood, A. Tuteja, N. P. Dasgupta, ACS Appl. Eng. Mater. 1, 1583 (2023) [link]
Improved Rate Capability in Composite Solid-State Battery Electrodes Using 3-D Architectures 84. Improved Rate Capability in Composite Solid-State Battery Electrodes Using 3-D Architectures
M. K. Jangid, A. L. Davis, D. W. Liao, N. P. Dasgupta, ACS Energy Lett. 8, 2522 (2023) [link]
Solution Anion Exchange 83. Tunable Sulfur Incorporation into Atomic Layer Deposition Films Using Solution Anion Exchange
J. D. Lenef, A. J. Gayle, J. Jo, K. M. Fuelling, S. K. Yadavalli, A. M. Ortiz-Ortiz, K. Sun, R. L. Peterson, N. P. Dasgupta, Chem. Mater. 35, 2503 (2023) [link]
Accessible capacity vs inter-channel spacing graph 82. Optimization of Laser-Patterned Electrode Architectures for Fast Charging of Li-ion Batteries using Simulations Parameterized by Machine Learning
V. Goel, K.-H. Chen, N. P. Dasgupta, K. Thornton, Energy Storage Mater. 57, 44 (2023) [link]
XANES Coordination environment 81. XANES Studies of Zinc Tin Oxide Films Deposited by Atomic Layer Deposition: Revealing Process-Structure Relationships for Amorphous Oxide Semiconductors
O. Trejo, T. H. Cho, S. Sainio, N. P. Dasgupta, J. Phys. Chem. C. 127, 338 (2023) [link]
ZTO (semiconductor) drain current vs gate voltage 80. Robustness of Passivated ALD Zinc Tin Oxide TFTs to Aging and Bias Stress
C. R. Allemang, T. H. Cho, N. P. Dasgupta, R. L. Peterson, IEEE Trans. Electron Devices 69, 6776 (2022) [link]
ZTO TFT device cross-section 79. 59.9 mV∙dec-1 Subthreshold Swing Achieved in Zinc Tin Oxide TFTs with in situ Atomic Layer Deposited Al2O3 Gate Insulator
T. Lu, C. R. Allemang, T. H. Cho, N. P. Dasgupta, R. L. Peterson, IEEE Electron Device Lett. 44, 72 (2023) [link]
Graph of voltage vs capacity for Void Formation and Rewetting of Thin In Situ-Formed Li Anodes on LLZO 78. Analyzing Void Formation and Rewetting of Thin In Situ-Formed Li Anodes on LLZO
K. Lee, E. Kazyak, M. J. Wang, N. P. Dasgupta, J. Sakamoto, Joule 6, 2547 (2022) [link]
Visible-Light-Driven Photocatalysts for Self-Cleaning Transparent Surfaces 77. Visible-Light-Driven Photocatalysts for Self-Cleaning Transparent Surfaces
A. J. Gayle, J. D. Lenef, P. A. Huff, J. Wang, F. Fu, G. Dadheech, N. P. Dasgupta, Langmuir 38, 11641 (2022) [link]
3D operando microscopy 76. Understanding the electro-chemo-mechanics of Li plating in anode-free solid-state batteries with operando 3D microscopy
E. Kazyak, M. J. Wang, K. Lee, S. Yadavalli, A. J. Sanchez, M. D. Thouless, J. Sakamoto, N. P. Dasgupta, Matter 5, 3912 (2022) [link]
Chromaticity plot 75. Integrating Structural Colors with Additive Manufacturing Using Atomic Layer Deposition
B. A. Rorem, T. H. Cho, N. Farjam, J. D. Lenef, K. Barton, N. P. Dasgupta, L. J. Guo, ACS Appl. Mater. Interfaces 14, 31099 (2022) [link]
Operando Detection of Li Plating during Fast Charging of Li-ion Batteries 74. Operando Detection of Li Plating during Fast Charging of Li-ion Batteries using Incremental Capacity Analysis
Y. Chen, L.Torres-Castro, K.-H. Chen, D. Penley, J. Lamb, M. Karulkar, N. P. Dasgupta, J. Power Sources 539, 231601 (2022) [link]
Durable anti-fouling coating 73. Durable Liquid- and Solid-Repellent Elastomeric Coatings Infused with Partially Crosslinked Lubricants
J. Wang, B. Wu, A. Dhyani, T. Repetto, A. J. Gayle, T. H. Cho , N. P. Dasgupta, A. Tuteja, ACS Appl. Mater. Interfaces 14, 22466 (2022) [link]
Recycling logo 72. Charging Sustainable Batteries
C. Bauer, S. Burkhardt, N. P. Dasgupta, L. Ager-Wick Ellingsen, L. L. Gaines, H. Hao, R. Hischier, L. Hu, Y. Huang, J. Janek, C. Liang, H. Li, J. Li, Y. Li, Y.-C. Lu, W. Luo, L. F. Nazar, E. A. Olivetti, J. F. Peters, J. L. M. Rupp, M. Weil, J. F. Whitacre, S. Xu, Nature Sustainability 5, 176 (2022) [link]
The mechanical response of Na with respect to temperature 71. Sodium Mechanics: Effects of Temperature, Strain Rate, and Grain Rotation and Implications for Sodium Metal Batteries
W. S. LePage, Y. Chen, A. Poli, M. D.Thouless, N. P. Dasgupta, Extreme Mech. Lett. 52, 101644 (2022) [link]
Transparent Refractory Aerogels 70. Transparent Refractory Aerogels for Efficient Spectral Control in High-Temperature Solar Power Generation
Z. J. Berquist, A. J. Gayle, N. P. Dasgupta, A. Lenert, Adv. Funct. Mater. 32, 2108774 (2022) [link]
Fast charge graphite 69. Enabling 4C Fast Charging of Lithium-Ion Batteries by Coating Graphite with a Solid-State Electrolyte
E. Kazyak, K.-H. Chen, Y. Chen, T. H. Cho, N. P. Dasgupta, Adv. Energy Mater. 12, 2102618 (2022) [link]
Operando video microscopy on graphite anodes 68. Operando video microscopy of Li plating and re-intercalation on graphite anodes during fast charging
Y. Chen, K.-H. Chen, A. J. Sanchez, E. Kazyak, V. Goel, Y. Gorlin, J. Christensen, K. Thornton, N. P. Dasgupta, J. Mater. Chem. A 9, 23522 (2021) [link]
Electrically Conductive Kevlar Fibers 67. Electrically Conductive Kevlar Fibers and Polymer-Matrix Composites Enabled by Atomic Layer Deposition
R. E. Rodríguez, T. H. Lee, Y. Chen, E. Kazyak, C. Huang, T. H. Cho, W. S. LePage, M. D. Thouless, M. Banu, N. P. Dasgupta, ACS Appl. Polym. Mater. 3, 5959 (2021) [link]
Challenges and Opportunities for Fast Charging of Solid-State Lithium Metal Batteries 66. Challenges and Opportunities for Fast Charging of Solid-State Lithium Metal Batteries
B. S. Vishnugopi, E. Kazyak, J. A. Lewis, J. Nanda, M. T. McDowell, N. P. Dasgupta, P. P. Mukherjee, ACS Energy Lett. 6, 3734 (2021) [link]
Revealing Heterogeneity with Operando Microscopy 65. Rate Limitations in Composite Solid-State Battery Electrodes: Revealing Heterogeneity with Operando Microscopy
A. L. Davis, V. Goel, D. W. Liao, M. N. Main, E. Kazyak, J. Lee, K. Thornton, N. P. Dasgupta, ACS Energy Lett. 6, 2993 (2021) [link]
a. bulk cell b. operando video microscopy c. operando XPS 64. Operando Analysis of Interphase Dynamics in Anode-Free Solid-State Batteries with Sulfide Electrolytes
A. L. Davis, E. Kazyak, D. W. Liao, K. N. Wood, N. P. Dasgupta, J. Electrochem. Soc. 168, 070557 (2021) [link]
graphs and diagrams 63. Geometric Optimization of Bismuth Vanadate Core–Shell Nanowire Photoanodes using Atomic Layer Deposition
A. R. Bielinski, A. J. Gayle, S. Lee, N. P. Dasgupta, ACS Appl. Mater. Interfaces 13, 52063 (2021) [link]
3D Optical Microscopy 62. Lithium stripping: Anisotropic evolution and faceting of pits revealed by operando 3-D microscopy
A. J. Sanchez, E. Kazyak, Y. Chen, J. Lasso, N. P. Dasgupta, J. Mater. Chem. A 9, 21013 (2021) [link]
diagrams and tables 61. Tunable Atomic Layer Deposition into Ultra-High-Aspect-Ratio (>60000:1) Aerogel Monoliths Enabled by Transport Modeling
A. J. Gayle , Z. J. Berquist, Y. Chen, A. J. Hill, J. Y. Hoffman, A. R. Bielinski, A. Lenert, N. P. Dasgupta, Chem. Mater. 33, 5572 (2021) [link]
solid-state EV batteries 60. Transitioning solid-state batteries from lab to market: Linking electro-chemo-mechanics with practical considerations
M. J. Wang, E. Kazyak, N. P. Dasgupta, J. Sakamoto, Joule 5, 1371 (2021) [link]
diagram and table 59. Operando analysis of the molten Li|LLZO interface: Understanding how the physical properties of Li affect the critical current density
B. Kinzer, A. L. Davis, T. Krauskopf, H. Hartmann, W. S. LePage, E. Kazyak, J. Janek, N. P. Dasgupta, J. Sakamoto, Matter 4, 1947 (2021) [link]
plasma-enhanced ALD of CuOx 58. Plasma-Enhanced Atomic Layer Deposition of p-Type Copper Oxide Semiconductors with Tunable Phase, Oxidation State, and Morphology
J. D. Lenef, J. Jo, O. Trejo, D. J. Mandia, R. L. Peterson, N. P. Dasgupta, J. Phys. Chem. C. 125, 9383 (2021) [link]
graphite/hard carbon hybrid anode design 57. Enabling 6C Fast Charging of Li‐Ion Batteries with Graphite/Hard Carbon Hybrid Anodes
K.‐H. Chen, V. Goel, M. J. Namkoong, M. Wied, S. Müller, V. Wood, J. Sakamoto, K. Thornton, N. P. Dasgupta, Adv. Energy Mater. 11, 2003336 (2020) [link]
graphs and diagrams 56. Molecular Layer Deposition of Li-ion Conducting “Lithicone” Solid Electrolytes
E. Kazyak, M. Shin, W. S. LePage, T. H. Cho, N. P. Dasgupta, Chem. Commun. 56, 15537 (2020) [link]
e-jet printing; area-selective ald; tft fabrication 55. Area-Selective Atomic Layer Deposition Patterned by Electrohydrodynamic Jet Printing for Additive Manufacturing of Functional Materials and Devices
T. H. Cho, N. Farjam, C. R. Allemang, C. P. Pannier, E. Kazyak, C. Huber, M. Rose, O. Trejo, R. L. Peterson, K. Barton, N. P. Dasgupta, ACS Nano 14, 17262 (2020) [link]
diagrams and graphs 54. Causes of the Difference Between Hall Mobility and Field-Effect Mobility for p-Type RF Sputtered Cu2O Thin-Film Transistors
J. Jo, J. D. Lenef, K. Mashooq, O. Trejo, N. P. Dasgupta, R. L. Peterson, IEEE Trans. Electron Devices 67, 5557 (2020) [link]
polymer and solvent diagram 53. Subtractive patterning: High-resolution electrohydrodynamic jet printing with solvents
N. Farjam, T. H. Cho, N. P. Dasgupta, K. Barton, Appl. Phys. Lett. 117, 133702 (2020) [link]
inkjet printing; cvd process 52. Inkjet-defined site-selective (IDSS) growth for controllable production of in-plane and out-of-plane MoS2 device arrays
B. Ryu, J. S. Yoon, E. Kazyak, K.-H. Chen, Y. Park, N. P. Dasgupta, X. Liang, Nanoscale 12, 16917 (2020) [link]
diagram; table; graph 51. Electrochemical and Surface Chemistry Analysis of Lithium Lanthanum Zirconium Tantalum Oxide (LLZTO)/Liquid Electrolyte (LE) Interfaces
A. Gupta, E. Kazyak, N. P. Dasgupta, J. Sakamoto, J. Power Sources 474, 228598 (2020) [link]
Control over NWs; graph 50. Rational Design of Transparent Nanowire Architectures with Tunable Geometries for Preventing Marine Fouling
J. Wang, S. Lee, A. R. Bielinski, K. A. Meyer, A. Dhyani, A. M. Ortiz‐Ortiz, A. Tuteja, N. P. Dasgupta, Adv. Mater. Interfaces 7, 2000672 (2020) [link]
DOE target graph 49. Efficient fast-charging of lithium-ion batteries enabled by laser-patterned three-dimensional graphite anode architectures
K.-H. Chen, M. J. Namkoong, V. Goel, C. Yang, S. Kazemiabnavi, S.M. Mortuza, E. Kazyak, J. Mazumder, K. Thornton, J. Sakamoto, N. P. Dasgupta, J. Power Sources 471, 228475 (2020) [link]
diagrams and graphs 48. High‐Performance Zinc Tin Oxide TFTs with Active Layers Deposited by Atomic Layer Deposition
C. R. Allemang, T. H. Cho, O. Trejo, S. Ravan, R. E. Rodríguez, N. P. Dasgupta, R. L. Peterson, Adv. Electron. Mater. 6, 2000195 (2020) [link]
ALD Coated vs Uncoated 47. Electro-Chemo-Mechanical Evolution of Sulfide Solid Electrolyte/Li metal Interfaces: Operando Analysis and ALD Interlayer Effects
A. L. Davis, R. Garcia-Mendez, K. N. Wood, E. Kazyak, K.-H. Chen, G. Teeter, J. Sakamoto, N. P. Dasgupta, J. Mater. Chem. A 8, 6291 (2020) [link]
in-plane operando video microscopy 46. Li Penetration in Ceramic Solid Electrolytes: Operando Microscopy Analysis of Morphology, Propagation, and Reversibility
E. Kazyak, R. Garcia-Mendez, W. S. LePage, A. Sharafi, A. L. Davis, A. J. Sanchez, K.-H. Chen, C. Haslam, J. Sakamoto, N. P. Dasgupta, Matter 2, 1 (2020) [link]
graphs and drawing 45. Plan-View Operando Video Microscopy of Li Metal Anodes: Identifying the Coupled Relationships among Nucleation, Morphology, and Reversibility
A. J. Sanchez, E. Kazyak, Y. Chen, K.-H. Chen, E. R. Pattison, N. P. Dasgupta, ACS Energy Lett. 5, 994 (2020) [link]
anode interface morphological evolution during li stripping/plating 44. Challenges in Lithium Metal Anodes for Solid-State Batteries
K. B. Hatzell, X. C. Chen, C. L. Cobb, N. P. Dasgupta, M. B. Dixit, L. E. Marbella, M. T. McDowell, P. P. Mukherjee, A. Verma, V. Viswanathan, A. S. Westover, W. G. Zeier, ACS Energy Lett. 5, 922 (2020) [link]
Interfacial Toughness of Thermoplastic–Epoxy Interfaces 43. Enhanced Interfacial Toughness of Thermoplastic–Epoxy Interfaces Using ALD Surface Treatments
Y. Chen, N. J. Ginga, W. S. LePage, E. Kazyak, A. J. Gayle, J. Wang, R. E. Rodríguez, M. D. Thouless, N. P. Dasgupta, ACS Appl. Mater. Interfaces 11, 43573 (2019) [link]
Ab Initio Simulations 42. Elucidating the Evolving Atomic Structure in Atomic Layer Deposition Reactions with in Situ XANES and Machine Learning
O. Trejo, A. L. Dadlani, F. De La Paz, S. Acharya, R. Kravec, D. Nordlund, R. Sarangi, F. B. Prinz, J. Torgersen, N. P. Dasgupta, Chem. Mater. 31, 8937 (2019) [link]
Dead Lithium Growth in Lithium Metal Batteries 41. Evolution of Dead Lithium Growth in Lithium Metal Batteries: Experimentally Validated Model of the Apparent Capacity Loss
S. Xu, K.-H. Chen, N. P. Dasgupta, J. B. Siegel, A G. Stefanopoulou, J. Electrochem. Soc. 166, 14 (2019) [link]
Current vs Potential of Nanowire Photoanodes 40. Atomic Layer Deposition of Bismuth Vanadate Core–Shell Nanowire Photoanodes
A. R. Bielinski, S. Lee, J. J. Brancho, S. L. Esarey, A. J. Gayle, E. Kazyak, K. Sun, B. M Bartlett, N. P. Dasgupta, Chem. Mater. 31, 3221 (2019) [link]
Comprehensive measurements elucidate Li mechanics 39. Lithium Mechanics: Roles of Strain Rate and Temperature and Implications for Lithium Metal Batteries
W. S. LePage, Y. Chen, E. Kazyak, K.-H. Chen, A. J. Sanchez, A. Poli, E. M. Arruda, M. D. Thouless, N. P. Dasgupta, J. Electrochem. Soc. 166, 89 (2019) [link]
Coulombic Efficiency of Lithium Metal Anodes 38. Synergistic Effect of 3D Current Collectors and ALD Surface Modification for High Coulombic Efficiency Lithium Metal Anodes
K.‐H. Chen, A. J. Sanchez, E. Kazyak, A. L. Davis, N. P. Dasgupta, Adv. Energy Mater. 9, 1802534 (2019) [link]
Ionic conductivity vs year of publications 37. Atomic Layer Deposition and First Principles Modeling of Glassy Li3BO3-Li2CO3 Electrolytes for Solid-State Li Metal Batteries
E. Kazyak, K.-H. Chen, A. L. Davis, S. Yu, A. J. Sanchez, J. Lasso, A. R. Bielinski, T. Thompson, J. Sakamoto, D. J. Siegel, and N. P. Dasgupta, J. Mater. Chem. A 6, 19425 (2018) [link]
Initiation of Li Filaments 36. Evaluating the Effects of Temperature and Pressure on Li/PEO-LiTFSI Interfacial Stability and Kinetics
A. Gupta, E. Kazyak, N. Craig, J. Christensen, N. P. Dasgupta, and J. Sakamoto, J. Electrochem. Soc. 165, A2801(2018) [link]
Structural color of morpho butterfly wing 35. Biotemplated Morpho Butterfly Wings for Tunable Structurally Colored Photocatalysts
R. E. Rodríguez, S. P. Agarwal, S. An, E. Kazyak, D. Das, W. Shang, R. Skye, T. Deng, and N. P. Dasgupta, ACS Appl. Mater. Interfaces 10, 4614 (2018) [link]
Surface conditioning of Solid-State Electrolyte 34. Surface Chemistry Mechanism of Ultra-Low Interfacial Resistance in the Solid-State Electrolyte Li7La3Zr2O12
A. Sharafi, E. Kazyak, A. L. Davis, S. Yu, T Thompson, D. J. Siegel, N. P. Dasgupta, J. Sakamoto, Chem. Mater. 29, 7961 (2017) [link]
 Atomic Layer Deposition of the Solid Electrolyte Garnet Li7La3Zr2O12 33. Atomic Layer Deposition of the Solid Electrolyte Garnet Li7La3Zr2O12
E. Kazyak, K.-H. Chen, K. N. Wood, A. L. Davis, T. Thompson, A.R. Bielinski, A. J. Sanchez, X. Wang, C. Wang, J. Sakamoto, N. P. Dasgupta, Chem. Mater. 29, 3785 (2017) [link]
Dead lithium cycles 32. Dead Lithium: Mass Transport Effects on Voltage, Capacity, and Failure of Lithium Metal Anodes
K.-H. Chen, K. N. Wood, E. Kazyak, W. S. LePage, A. L. Davis, A. J. Sanchez, N. P. Dasgupta, J. Mater. Chem. A 5, 11671 (2017). (2017 JMCA Emerging Investigators Issue) [link]
Understanding behavior of lithium metal anodes 31. Lithium Metal Anodes: Toward an Improved Understanding of Coupled Morphological, Electrochemical, and Mechanical Behavior
K. N. Wood, M. Noked, N. P. Dasgupta, ACS Energy Lett. 2, 664 (2017) [link]
nanowire systems 30. Rational Design of Hyperbranched Nanowire Systems for Tunable Superomniphobic Surfaces Enabled by Atomic Layer Deposition
A. R. Bielinski, M. Boban, Y. He, E. Kazyak, D. H. Lee, C. Wang, A. Tuteja, N. P. Dasgupta, ACS Nano 11, 478 (2017) [link]
Number of publications vs year 29. Atomic Layer Deposition for Energy and Environmental Applications
N. P. Dasgupta, L. Li, X. Sun, Adv. Mater. Interfaces 3, 1600914 (2016) [link]
Operando visual microscopy 28. Dendrites and Pits: Untangling the Complex Behavior of Lithium Metal Anodes through Operando Video Microscopy
K. N. Wood, E. Kazyak, A. F. Chadwick, K. H. Chen, J. G. Zhang, K. Thornton, N. P. Dasgupta, ACS Central Science 2, 790 (2016) [link]
Current density vs Potential 27. Macroporous p-GaP Photocathodes Prepared by Anodic Etching and Atomic Layer Deposition Doping
S. Lee, A. R. Bielinski, E. Fahrenkrug, N. P. Dasgupta, and S. Maldonado, ACS Appl. Mater. Interfaces. 8, 16178 (2016) [link]
Schematic for clean water generation 26. Bioinspired Multifunctional Paper-Based rGO Composites for Solar-Driven Clean Water Generation
J. Lou, Y. Liu, Z. Wang, D. Zhao, C.Song, J. Wu, N. P. Dasgupta, W. Zhang, D. Zhang, P. Tao, W. Shang, and T. Deng, ACS Appl. Mater. Interfaces. 8, 14628, (2016) [link]
Recent Advances in Atomic Layer Deposition cover 25. Recent Advances in Atomic Layer Deposition
N. P. Dasgupta, H.-B.-R. Lee, S. F. Bent, P. S. Weiss, Chem. Mater. 28, 1943 (2016) [link]
Evaporation membrane 24. Bioinspired Bifuntional Membrane for Efficient Clean Water Generation
Y. Liu, J. Lou, M. Ni, C. Song, J. Wu, N. P. Dasgupta, P. Tao, W. Sheng, T. Deng, ACS Appl. Mater. Interfaces 8, 772 (2016). [link]
Schematics of the sample architectures for the AN and AM 23. Quantifying Geometric Strain at the PbS QD-TiO2 Anode Interface and Its Effect on Electronic Structures
O. Trejo, K. E. Roelofs, S. Xu, M. Logar, R. Sarangi, D. Norland, A. L. Dadlani, R. Kravec, N. P. Dasgupta, S. F. Bent, F. B. Prinz, Nano Lett. 15, 7829 (2015). [link]
Voltage vs cycle number of Lithium Metal Anodes 22. Improved Cycle Life and Stability of Lithium Metal Anodes through Ultrathin Atomic Layer Deposition Surface Treatments
E. Kazyak, K. N. Wood and N. P. Dasgupta, Chem. Mater. 27, 6457 (2015). [link]
ALD seed layer with nanowires 21. Hierarchical ZnO Nanowire Growth with Tunable Orientations on Versatile Substrates Using Atomic Layer Deposition Seeding
A. R. Bielinski, E. Kazyak, C. M. Schlepütz, H. J. Jung, K. N. Wood and N. P. Dasgupta, Chem. Mater. 27, 4799 (2015). [link]
Fabrication of photovoltaic devices from CdS nanorod arrays 20. Core–Shell CdS–Cu2S Nanorod Array Solar Cells
A. B. Wong, S. Brittman, Y. Yu, N. P. Dasgupta and P. Yang, Nano Lett. 15, 4096 (2015). [link]
Atomic Layer Deposition of Metal Sulfide Materials 19. Atomic Layer Deposition of Metal Sulfide Materials
N. P. Dasgupta, X. Meng, J. W. Elam and A. B. F. Martinson, Acc. Chem. Res. 48, 341 (2015). [link]
STEM mode elemental maps of Mn and Ti 18. Uniform Doping of Metal Oxide Nanowires Using Solid-State Diffusion
J. Resasco, N. P. Dasgupta, J. Rosell, J. Guo and P. Yang, J. Am. Chem. Soc. 136, 10521 (2014). [link]
SEM images of the nanowires and a seed crystal 17. Epitaxially Aligned Cuprous Oxide Nanowires for All-Oxide Single-Wire Solar Cells
S. Brittman, Y. Yoo, N. P. Dasgupta, S.-I. Kim, B. Kim and P. Yang, Nano Lett. 14, 4665 (2014). [link]
Semiconductor Nanowires – Synthesis, Characterization and Applications cover 16. 25th Anniversary Article: Semiconductor Nanowires – Synthesis, Characterization and Applications
N. P. Dasgupta, J. Sun, C. Liu, S. Brittman, S. C. Andrews, J. Lim, H. Gao, R. Yan and P. Yang, Adv. Mater. 26, 2137 (2014). [link]
Semiconductor Nanowires for Artificial Photosynthesis 15. Semiconductor Nanowires for Artificial Photosynthesis
C. Liu, N. P. Dasgupta and P. Yang, Chem. Mater. 26, 415 (2014). [link]
photoelectrochemical performance of Pt cocatalysts loaded via ALD 14. Atomic Layer Deposition of Platinum Catalysts on Nanowire Surfaces for Photoelectrochemical Water Reduction
N. P. Dasgupta, C. Liu, S. Andrews, F. B. Prinz and P. Yang, J. Am. Chem. Soc. 135, 12932 (2013). [link]
Semiconductor Nanowires for Solar Photovoltaic and Photoelectrochemical Energy Conversion 13. Semiconductor Nanowires for Solar Photovoltaic and Photoelectrochemical Energy Conversion
N. P. Dasgupta and P. Yang, Front. Phys. 9(3), 289(2014). [link]
Annular dark field-STEM image (high-angle collection srcset=50 mrad) of a dome-shaped 8.5 nm PbS QD” width=”300″ height=”300″> 12. Spatial Variation of Available Energy Excitations within Individual Quantum Dots
H. J. Jung, N. P. Dasgupta, P. Van Stockum, A. Koh, R. Sinclair and F. B. Prinz, Nano Lett. 13, 716 (2013). [link]
In Situ Cycle-by-Cycle Flash Annealing of Atomic Layer Deposited Materials 11. In Situ Cycle-by-Cycle Flash Annealing of Atomic Layer Deposited Materials
M. C. Langston, N. P. Dasgupta, H. J. Jung, M. Logar, Y. Huang, R. Sinclair and F. B. Prinz, J. Phys. Chem. C. 116, 24177 (2012). [link]
Nickel Silicide Nanowire Arrays 10. Nickel Silicide Nanowire Arrays for Anti-Reflective Electrodes in Photovoltaics
N. P. Dasgupta, S. Xu, H. J. Jung, A. Iancu, R. Fasching, R. Sinclair and F. B. Prinz, Adv. Funct. Mater. 22, 3650 (2012). [link]
MRSBulletin atomic layer deposition cover 9. ALD for Clean Energy Conversion, Utilization, and Storage
J. W. Elam, N. P. Dasgupta and F. B. Prinz, MRS Bull. 36, 899 (2011). [link]
High-Flow Diaphragm Valve 8. Use of a High-Flow Diaphragm Valve as a Stop Valve in Atomic Layer Deposition Reactors
N. P. Dasgupta, O. Trejo and F. B. Prinz, J. Vac. Sci. Technol. A (special issue on ALD) 30, 01A110 (2011). [link]
Bright-field TEM images at low and high magnification of ALD PbS films 7. Atomic Layer Deposition of Lead Sulfide Quantum Dots on Nanowire Surfaces
N. P. Dasgupta*, H. J. Jung*, O. Trejo, M. T. McDowell, A. Hryciw, M. Brongersma, R. Sinclair and F. B. Prinz, Nano Lett., 11(3), 934 (2011). [link]
band gap vs PbS film thickness 6. Scanning Tunneling Spectroscopy of Lead Sulfide Quantum Wells Fabricated by Atomic Layer Deposition
W. Lee, N.P. Dasgupta, H. J. Jung, J.-R. Lee, R. Sinclair and F. B. Prinz, Nanotechnology 21, 485402 (2010). [link]
XRD spectra of a sapphire(0001) substrate (bottom trace) and AZO film (top trace) deposited on an identical substrate 5. Atomic Layer Deposition of Al-doped ZnO Films: Effect of Grain Orientation on Conductivity
N. P. Dasgupta, S. Neubert, W. Lee, O. Trejo, J.-R. Lee and F. B. Prinz, Chem. Mater. 22, 4769 (2010). [link]
Design of an Atomic Layer Deposition Reacto 4. Design of an Atomic Layer Deposition Reactor for Hydrogen Sulfide Compatibility
N. P. Dasgupta, J. F. Mack, M. C. Langston, A. Bousetta and F. B. Prinz, Rev. Sci. Instrum. 81, 44102 (2010). [link]
Area-Selective Atomic Layer Deposition of Lead Sulfide: Nanoscale Patterning and DFT Simulations 3. Area-Selective Atomic Layer Deposition of Lead Sulfide: Nanoscale Patterning and DFT Simulations
W. Lee, N. P. Dasgupta, O. Trejo, J.-R. Lee, J. Hwang, T. Usui and F. B. Prinz, Langmuir 26, 6845 (2010). [link]
Bandgap variation of ALD PbS films on a thermally grown SiO2 2. Atomic Layer Deposition of Lead Sulfide Thin Films for Quantum Confinement
N. P. Dasgupta, W. Lee and F. B. Prinz, Chem. Mater. 21, 3973 (2009). [link]
SEM images of the produced Ni nanowire 1. Electrochemical Deposition of Metallic Nanowires as a Scanning Probe Tip
M. Motoyama, N. P. Dasgupta and F. B. Prinz, J. Electrochem. Soc. 156, 431 (2009). [link]

Published Proceedings

10. Brief Paper: Quantifying Spatial Heterogeneity of Laminated Perovskite Semiconductors Using Photoluminescence Mapping

O. Okia, C. Lanaghan, J. Palmer, S. Yadavalli, D. Fenning, N. P. Dasgupta, ASME 2024 19th International Manufacturing Science and Engineering Conference MSEC2024-124108, V002T06A004 (2024). [link]

9. Mechanical Properties of Fibers Coated by Atomic Layer Deposition for Polymer-Matrix Composites with Enhanced Thermal and Ultraviolet Resistance

R. E. Rodríguez, T. H. Cho, M. Ravandi, W. S. LePage, M. Banu, M. D. Thouless, and N. P. Dasgupta, TMS 2020 149th Annual Meeting & Exhibition Supplemental Proceedings 1513-1527 (2020). [link]

8. (Invited) Atomic Layer Deposition of Core-Shell Nanowires for Solar Energy Conversion Devices

A. R. Bielinski and N. P. Dasgupta, ECS Trans. 69, 3 (2015). [link]

7. TEM Study on PbS Quantum Dots made by Atomic Layer Deposition and Their Behavior under E-beam Irradiation

H. J. Jung, N. P. Dasgupta, F. B. Prinz and R. Sinclair, Microscopy and Microanalysis 16 (S2), 1376 (2010). [link]

6. Synthesis of Microscale Lead Sulfide Disks by Patterned Self-Assembled Monolayer

T. Usui, N. P. Dasgupta, X. Jiang, W. Lee and F. B. Prinz, ECS Trans. 25, 3 (2009). [link]

5. Atomic Layer Deposition of PbS-ZnS Quantum Wells for High Efficiency Solar Cells

N. P. Dasgupta, W. Lee, T. P. Holme and F. B. Prinz, Proc. 34th IEEE Photovoltaics Specialists Conference, 356 (2009). [link]

4. Scanning Tunneling Microscopy of Quantum Confinement Effects in Lead Sulfide Thin Films

W. Lee, N. P. Dasgupta and F. B. Prinz, Proc. 34th IEEE Photovoltaics Specialists Conference, 527 (2009). [link]

3. Electrochemical Deposition of Metallic Nanowires as a Scanning Probe Tip

M. Motoyama, N. P. Dasgupta and F. B. Prinz, “Electrochemical Deposition of Metallic Nanowires as a Scanning Probe Tip”, ECS Trans. 16, 3 (2009). [link]

2. Fabrication and Characterization of Lead Sulfide Thin Films by Atomic Layer Deposition

N. P. Dasgupta, S. P. Walch and F. B. Prinz, ECS Trans. 16, 29 (2008). [link]

1. Making Photovoltaic Power Competitive with Grid Power

V. Gowrishankar, D. Hutton, C. Fluhrer, N. Dasgupta, Conference Record of the 2006 IEEE 4th World Conference on Photovoltaic Energy Conversion 2, 2532 (2006). [link]