Publications

Ten Representative Publications

  1.       Han, Y.; Nickle, C.; Zhang, Z.; Astier, H. P. A. G.; Duffin, T.; Qi, D. C.; Wang, Z.; Del Barco, E.; Thompson, D.; Nijhuis, C. A. Electric-Field-Driven Dual-Functional Molecular Switches in Tunnel Junctions, Nat. Mater. 2020, 19, 843-848.
  2.       Goswami, S.; Rath, S. P.; Thompson, D.; Hedström, S.; Annamalai, M.; Pramanick, R.; Ilic, B. R.; Sarkar, S.; Hooda, S.; Nijhuis C. A., Martin, J.; Williams, R. S.; Goswami, S.; Venkatesan, T. Charge Disproportionate Molecular Redox for Discrete Memristive and Memcapacitive Switching, Nat. Nanotechnol. 2020, 15, 380-389.
  3.       Yuan, L.; Wang, L.; Garrigues, A. R.; Jian, L.; Annadata, H. V.; del Barco, E.; Nijhuis, C. A. Transition from Direct to Inverted Charge Transport Marcus Regions in Molecular Junctions via Molecular Orbital Gating, Nat. Nanotechnol. 2018, 13, 322-329.
  4.       Goswami, S.; Matula, A. J.; Rath, S. P.; Hedström, S.; Saha, S.; Annamalai, M.; Sengupta, D.; Patra, A.; Ghosh, S.; Jani, H.; Sarkar, S.; Motapothula, M. R.; Nijhuis, C. A.; Martin, J.; Goswami, S.; Batista, V. S.; Venkatesan, T. Robust Resistive Memory Devices Using Solution-Processable Metal-Coordinated Azo Aromatics, Nat. Mater. 2017, 16, 1216–1224.
  5.       Du, W.; Wang, T.; Chu, H.; Nijhuis, C. A. Highly efficient on-chip direct electronic–plasmonic transducers, Nat. Photon. 2017, 11, 623–627.
  6.       Chen, X.; Roemer, M.; Yuan, L.; Du, W.; Thompson, D.; del Barco, E.; Nijhuis, C. A. Molecular Diodes with Rectification Ratios Exceeding 105 Driven by Electrostatic Interactions, Nat. Nanotechnol. 2017, 12, 797–803.
  7.       Loh, D.; Sen, S.; Bosman, M.; Tan, S. F.; Zhong, J.; Nijhuis, C. A.; Král, P.; Matsudaira, P.; Mirsaidov, U. Multi-Step Nucleation of Nanocrystals in Aqueous Solution, Nat. Chem. 2017, 9, 77–82.
  8.       Du, W.; Wang, T.; Chu, H.; Wu, L.; Liu, R.; Sun, S.; Phua, W.K.; Wang, L.; Tomczak, N.; Nijhuis, C. A. On-chip Molecular Electronic Plasmon Sources Based on Self-Assembled Monolayer Tunnel Junctions, Nat. Photon. 2016, 10, 274 - 280.
  9.       Tan, S. F.; Wu, L.; Yang, J. K. W.; Bai, P.; Bosman, M.; Nijhuis, C. A. Quantum Plasmon Resonances Controlled by Molecular Tunnel Junctions, Science, 2014, 343, 1496-1499.
  10.       Nerngchanmnong, N.; Yuan, L.; Qi, D. C.; Jiang, L.; Thompson, D.; Nijhuis, C. A. The Role of Van der Waals Forces in the Performance of Molecular Diodes Nat. Nanotechnol. 2013, 8, 113-118.

All Publications

2022

157.     Wang, Y.; Zhang, Q.; Astier, H. P. A. G.; Nickle, C.; Soni, S.; Alami, F.A.; Borrini, A.; Zhang, Z.; Honnigfort, C.; Braunschweig, B.; Leoncini, A.; Qi, D.C.; Han, Y.; del Barco, E.; Thompson, D.; Nijhuis, C.A. Dynamic molecular switches with hysteretic negative differential conductance emulating synaptic behaviour Nature Materials 2022, 10.1038/s41563-022-01402-2

156.     Gupta, N. K.; Okamoto, N.; Karuppannan, S. K.; Pasula, R. R.; Ziyu, Z.; Qi, D. C.; Lim, S.; Nakamura, M.; Nijhuis, C. A.; The Role of Structural Order in the Mechanism of Charge Transport across Tunnel Junctions with Various Iron-Storing Proteins Small 2022, 2203338.

155.     Zhao, Z.; Soni, S.; Lee, T.; Nijhuis, C. A. Smart Eutectic Gallium-Indium: from Properties to Applications Advanced Materials 2022, accepted.

154.     Jia Hao Soh, E.; Astier, H. P. A. G.; Daniel, D.; Chua, J. Q. I.; Miserez, A.; Jia, Z.; Li, L.; O'Shea, S.; Bhaskaran, H.; Tomczak, N.; Nijhuis, C. A. AFM Manipulation of EGaIn Microdroplets to Generate Controlled, On-Demand Contacts on Molecular Self-Assembled Monolayers ACS Nano 2022, 10.1021

153.     Han, Y.; Li, J.; Meany, J. E.; Want, Y.; Woski, S. A.; Johnson, M. S.; Nijhuis, C. A.; Metzger, R. M. Verification and Temperature-Dependent Rectification by HBQ, the Smallest Unimolecular Donor–Acceptor Rectifier ACS Omega 2022, 7, 33, 28790–28796.

152.     Wang, Z.; Wang, Z.; Kalathingal, V.; Wei, H. Y.; Hoang, T. X.; Son, C. H.; Guo, Y.; Viana-Gomes, J. C.; Eda, G.; Nijhuis, C. A. Phase Matching via Plasmonic Modal Dispersion for Third Harmonic Generation Advanced Science 20229, 2201180.

151.     Amini, S.; Chen, X.; Chua, J. Q. I.; Tee, J. S.; Nijhuis, C. A.; Miserez, A. Interplay between Interfacial Energy, Contact Mechanics and Capillary Forces in EGaIn Droplets ACS Applied Materials & Interfaces 2022, 14, 24, 28074–28084.

150.     Wang, Y.; Zhang, Q.; Astier H. P. A. G; Nickle, C.; Zhang, Z.; Leoncini, A.; Qi, D. C.; Han, Y.; del Barco, E.; Thompson, D.; Nijhuis, C. A. Dynamic Molecular Switches Drive Negative Memristance Mimicking Synaptic Behavior ChemRxiv 2022, in preprint

149.     Alami, F. A.; Soni, S.; Borrini, A.; Nijhuis, C. A. Temperature dependencies and Charge Transport Mechanisms in Molecular Tunneling Junctions Induced by Redox-Reactions ECS J. Solid State Sci. Technol. 202211, 055005

148.     Wang, M.; Wang, T.; Ojambati, O. S.; Duffin, T. J.; Kang, K.; Lee, T.; Scheer, E.; Xiang, D.;  Nijhuis, C. A. Plasmonic phenomena in molecular junctions – principles and applications Nat. Chem. Rev. 2022, https://doi.org/10.1038/s41570-022-00423-4.

147.     Liu, R.; Han, Y.; Sun, F.; Li, Z.-L.; Khatri, G.; Kwon, J.; Nickle, C.; Wang, L.; Wang, C.-K.; Thompson, D.; Nijhuis, C. A.; del Barco, E. Stable Universal 1-

and 2-Input Single-Molecule Logic Gates Adv. Mater. 2022, 34, 2202135.

146.     Wang, F.; Hoang, T. X.; Chu, H. S.; Nijhuis C. A. Spatial Control over Stable Light-Emission from AC-Driven CMOS-Compatible Quantum Mechenical Tunnel Junctions Laser Photonics Rev. 2022, 16, 2100419.

145.     Li, Y.; Wang, D.; Peng, W.; Jiang, L.; Yu, X.; Thompson, D.; Nijhuis, C. A. Large cooperative effects in tunneling rates across van der Waals coupled binary self-assembled monolayers Nano Today 2022, 44, 101497.

144.     Karuppannan, S. K.; Martin, J.; Xu, W.; Pasula, R. R.; Lim, S.; Nijhuis, C. A. Biomolecular control over local gating in bilayer graphene induced by ferritin iScience 2022, 25, 104128.

143.     Jangid, V.; Brunel, D.; Sanchez-Adaime, E.; Bharwal, A. K.; Dumur, F.; Duché, D.; Abel, M.; Koudia, M.; Buffeteau, T.; Nijhuis, C. A.; Berginc, G.; Lebouin, C.; Escoubas, L. Improving orientation, packing density and molecular arrangement in SAMs of bi-anchoring Ferrocene-triazole derivatives by 'Click' Chemistry Langmuir 2022, 38, 3585–3596.

142.     Radulescu, A.; Kalathingal, V.; Wang, Z.; Nijhuis, C. A. Coherence Between Different Propagating Surface Plasmon Polariton Modes Excited by Quantum Mechanical Tunnel Junctions Adv. Opt. Mater. 202210, 2101804.

141.     Ghosh, T.; Fritz, E.-C.; Balakrishnan, D.; Zhang, Z.; Vrancken, N.; Anand, U.; Zhang, H.; Loh, N. D.; Mei Xu, X.; Holsteyns, F.; Nijhuis, C. A.; Mirsaidov. U. Preventing the Capillary-Induced Collapse of Vertical Nanostructures ACS Appl. Mater. Interfaces 202214, 5537–5544.

140.     Wang, F.; Liu, Y; Hoang, T. X.; Chu, H. S.; Chua, S. J.; Nijhuis C. A. CMOS-Compatible Electronic-Plasmonic Transducers Based on Plasmonic Tunnel Junctions and Schottky Diodes Small 2022,18, 2105684.

139.     Chen, X.; Nijhuis, C. A. The Unusual Dielectric Response of Large Area Molecular Tunnel Junctions Probed with Impedance Spectroscopy Adv. Elec. Mater2022, 8, 2100495.

138.     Zhe, W.; Kalathingal, V.; Nijhuis, C. A. Optical Anisotropy in van der Waals materials: Impact on Direct Excitation of Plasmons and Photons by Quantum Tunneling Light: Sci. & Appl. 2022, 2100419.

2021

137.     Radulescu, Andreea; Kalathingal, V.; Nijhuis, C. A. Geometric Control Over the Edge Diffraction of Electrically Excited Surface Plasmon Polaritons by Tunnel Junctions ACS Photon. 2021, 8, 3591-3598

136.     Gupta, N. K.; Wilkinson, E. A.; Karuppannan, S. K.; Bailey, L.; Vilan, A.; Zhang, Z.; Qi, D.-C.; Tadich, A.; Tuite, E. M.; Pike, A.; Tucker, J. H. R.; Nijhuis, C. A. The Role of Order in the Mechanism of Charge Transport across Single-Stranded and Double-Stranded DNA Monolayers in Tunnel Junctions JACS, 2021, 143, 20309-20319.

135.     Rosa, V.; Malhotra, R.; Agarwalla, S. V.; Morin, J. L. P.; Luong-Van, E. K.; Han, Y. M.; Chew, R. J. J.; Seneviratne, C. J.; Silikas, N.; Tan, K. S.; Nijhuis, C. A.; Neto, A. H. C. Graphene nanocoating: high quality and stability upon several stressors J. Dental Res. 2021, 100, 1169-1177.

134.     Malhotra, R.; Han, Y.; Nijhuis, C. A.; Silikas, N.; Neto, A. H. C.; Rosa, V. Graphene nanocoating provides superb long-lasting corrosion protection to titanium alloy Dental Mat. 2021, 37, 1553-1560.

133.     Zhang, Z.; Cao, L.; Chen, X.; Thompson, D.; Qi, D. C.; Nijhuis, C. A. Energy-Level Alignment and Orbital-Selective Femtosecond Charge Transfer Dynamics of Redox-Active Molecules on Au, Ag, and Pt Metal Surfaces J. Phys. Chem. C 2021, 125, 18474-18482.

132.      Han, Y.; Nickle, C.; Maglione, M. S.; Karuppannan, S. K.; Casado-Montenegro, J.; Qi, D. C.; Chen, X.; Tadich, A.; Cowie, B.; Mas-Torrent, M.; Rovira, C.; Cornil, J.; Veciana, J.; Del Barco, E.; Nijhuis, C. A. Bias-Polarity Dependent Direct and Inverted Marcus Charge Transport Affecting Rectification in a Redox-Active Molecular Junction, Adv. Sci. 20218, 2100055.

131.      Wang, F.; Liu, Y.; Duffin, T.; Kalathingal, V.; Gao. S.; Hu, W.; Guo, Y.; Chua, S-J.; Nijhuis, C. A. A Silicon-Based Quantum Mechanical Tunnel Junction for Plasmon Excitation from Low-Energy Electron Tunneling, ACS Photonics 2021, 8, 1951–1960.

130.      Chen, X.; Kretz, B.; Adoah, F.; Nickle, C.; Chi, X.; Yu, X.; Del Barco, E.; Thompson, D.; Egger, D.; Nijhuis, C. A. A Single Atom Change Turns Insulating Saturated Wires into Molecular Conductors, Nat. Commun. 2021, 12, 3432.

129.      Kumar, K. S.; Pasula, R. R.; Herng, T. S.; Ding, J.; Chi. X.; Del Barco, E.; Roche, S.; Yu, X.; Yakovlev, N.; Lim, S.; Nijhuis, C. A. Room-Temperature Tunnel Magnetoresistance across Biomolecular Tunnel Junctions Based on Ferritin, J. Phys. Mater. 2021, 4, 035003.

128.      Gupta, N. K.; Pasula, R. R.; Karuppannan, S. K.; Zhang, Z.; Anton. T.; Bruce, C.; Qi, D. C.; Bencok, P.; Sierin, L.; Nijhuis, C. A. Switching of the Mechanism of Charge Transport Induced by Phase Transitions in Tunnel Junctions with Large Biomolecular Cages, J. Mater. Chem. C 2021, 9, 10768-10776.

127.      Radulescu, A.; Makarenko, K. S.; Hoang, T-X.; Kalathingal, V.; Duffin. T.; Chu, H-S.; Nijhuis, C. A. Geometric Control over Surface Plasmon Polariton Out-coupling Pathways in Metal-insulator-metal Tunnel Junctions, Opt. Express 2021, 29, 11987-12000.

126.     Gupta. N. K.; Thorsten Schultz, T.; Karuppannan, S. K.;Vilan, A.; Koch, N.; A. Nijhuis, C. A.  The energy level alignment of the ferrocene–EGaIn interface studied with photoelectron spectroscopy Phys. Chem. Chem. Phys., 2021, 23, 13458-13467.

125.      Kumar, K. S.; Martín-Rodríguez, A.; Ruiz, E.; Harding, P.; Harding, D. J.; Yu, X.; Tadich, A.; Cowie, B.; Qi, D. C.; Nijhuis, C. A. Room Temperature Conductance Switching in a Molecular Iron(III) Spin Crossover Junction, Chem. Sci. 2021, 12, 2381-2388.

124.      Lin, Y.; Hoang, T-X.; Chu, H-S.; Nijhuis, C. A. Directional Launching of Surface Plasmon Polaritons by Electrically Driven Aperiodic Groove Array Reflectors, Nanophotonics 2021, 10, 1145-1154.

2020

123.      Han, Y.; Maglione, M.; Diez-Cabanes, V.; Casado-Montenegro, J.; Yu, X.; Kumar, K. S.; Zhang, Z.; Crivillers, N.; Mas-Torrent, M.; Rovira, C.; Cornil, J.; Veciana, J.; Nijhuis, C. A. Reversal of the Direction of Rectification Induced by Fermi Level Pinning at Molecule-Electrode Interfaces in Redox-Active Tunneling Junctions, ACS Appl. Mater. Interfaces 2020, 12, 55044-55055.
122.      Jangid, V.; Brunel, D.; Lebouin, C.; Reynaud, C. A.; Sanchez-Adaime, E.; Duche, D.; Dumur, F.; Simon, J-J.; Berginc, G.; Nijhuis, C. A.; Escoubas, L. Self-Assembly and Electrochemical Characterization of Ferrocene-based Molecular Diodes for Solar Rectenna Device, MRS Adv. 2020, 5, 3185-3194.
121.      Liu, Y.; Ding, L.; Cao, Y.; Wan, D.; Yuan, G.; Huang, B.; Thean, A. V-Y.; Mei, T.; Venkatesan, T.; Nijhuis, C. A.; Chua, S-J. The Design of CMOS-Compatible Plasmonic Waveguides for Intra-Chip Communication, IEEE Photonics J. 2020, 12, 1-10.
120.      Han, Y.; Nijhuis, C. A. Functional Redox-Active Molecular Tunnel Junctions, Chem.: Asian J 2020, 15, 3752.
119.      Chen, X.; Salim, T.; Zhang, Z.; Yu, X; Volkova, I.; Nijhuis, C. A. Large Increase in Dielectric Constant and Partial Loss of Coherence Increases Tunneling Rates across Molecular Wires, ACS Appl. Mater. Interfaces 2020, 12, 45111-45121.
118.      Duffin. T.; Kalathingal, V.; Radulescu, A.; Li, C.; Pennycook, S.; Nijhuis, C. A. Cavity Plasmonics in Tunnel Junctions: Outcoupling and the Role of Surface Roughness, Phys. Rev. Appl. 2020, 14, 044021.
117.      Thompson, D.; Del Barco, E.; Nijhuis, C. A. Design Principles of Dual-Functional Molecular Switches in Solid-State Tunnel Junctions, Appl. Phys. Lett. 2020, 117, 030502.
116.      Han, Y.; Nickle, C.; Zhang, Z.; Astier, H. P. A. G.; Duffin, T.; Qi, D. C.; Wang, Z.; Del Barco, E.; Thompson, D.; Nijhuis, C. A. Electric-Field-Driven Dual-Functional Molecular Switches in Tunnel Junctions, Nat. Mater. 2020, 19, 843-848.
115.      Reynaud, C.A.; Duché, D.; Simon, J-J.; Sanchez-Adaime, E.; Margeat, O.; Ackermann, J.; Jangid, V.; Lebouin, C.; Brunel, D.; Dumur, F., Berginc, G.; Nijhuis, C. A.; Escoubas, L. Rectifying Antennas for Energy Harvesting from the Microwaves to Visible Light: a Review, Prog. Quantum. Electron. 2020, 72, 100265.
114.      Mukhopadhyay, S.; Kumar, K.S.; Guo, C.; Fereiro, J.; Bergren, A.; Mukundan, V.; Qiu, X.; Ocampo, O. E. C.; Chen, X.; Chiechi, R. C., McCreery, R.; Pecht, I.; Sheves, M.; Pasula, R. P.; Lim, S.; Nijhuis, C. A.; Vilan, A.; Cahen, D. Solid-State Protein Junctions: Cross-Laboratory Study Shows Preservation of Mechanism at Varying Electronic Coupling, iScience 2020, 23, 101099.
113.      Goswami, S.; Rath, S. P.; Thompson, D.; Hedström, S.; Annamalai, M.; Pramanick, R.; Ilic, B. R.; Sarkar, S.; Hooda, S.; Nijhuis C. A., Martin, J.; Williams, R. S.; Goswami, S.; Venkatesan, T. Charge Disproportionate Molecular Redox for Discrete Memristive and Memcapacitive Switching, Nat. Nanotechnol. 2020, 15, 380-389.
112.      Makarenko, K. S.; Hoang, T. X.; Duffin, T.; Radulescu, A; Kalathingal, V.; Lezec, H. J.; Chu, H-S.; Nijhuis, C. A. Efficient Surface Plasmon Polariton Excitation and Control over Outcoupling Mechanisms in Metal-Insulator-Metal Tunneling Junctions, Adv. Sci. 2020, 1900291.
111.      Kumar, K. S.; Neoh, E.; Vilan, A.; Nijhuis, C. A. Protective Layers Based on Carbon Paint to Yield High Quality Large-Area Molecular Junctions with Low Contact Resistance, J. Am. Chem. Soc. 2020, 142, 3513-3524.
110.      Malhotra, R.; Han, Y.; Morin, J.L.P.; Luong-Van, E.K.; Chew, R.J.J.; Castro Neto, A.H.; Nijhuis, C. A.; Rosa, V. Inhibiting Corrosion of Biomedical-Grade Ti-6Al-4V Alloys with Graphene Nanocoating, J. Dent. Res. 2020, 99, 285–292.

2019

109.      Wang, T.; Du, W.; Tomczak, N.; Wang, L.; Nijhuis, C. A. In Operando Characterization and Control over Intermittent Light Emission from Molecular Tunnel Junctions via Molecular Backbone Rigidity, Adv. Sci. 2019, 1900390.
108.      Wang, L.; Yuan, L.; Jiang, L.; Yu, X.; Cao, L.; Nijhuis, C. A. Unravelling the Failure Modes of Molecular Diodes: The Importance of the Monolayer Formation Protocol and Anchoring Group to Minimize Leakage Currents, J. Phys. Chem. C 2019, 123, 19759-19767.
107.      Kumar, K.S.; Hu, H.; Cedric, T.; Vilan, A.; Nijhuis, C. A. Ultra-Smooth and Photoresist-Free Micropore-Based EGaIn Molecular Junctions: Fabrication and How Roughness Determines Voltage Response, Adv. Funct. Mater. 2019, 1904452.
106.      Chen, X; Annadata, H. V.; Kretz, B.; Zharnikov, M.; Chi, X.; Yu, X.; Egger, D; Nijhuis, C. A. The Interplay of Collective Electrostatic Effects and Level Alignment Dictates the Tunneling Rates across Halogenated Aromatic Monolayer Junctions, J. Phys. Chem. Lett. 2019, 10, 4142-4147.
105.      Du, W; Han, Y; Hu, H.; Chu, H; Annadata, H. V.; Wang, T; Tomczak, N; Nijhuis, C. A. Directional Excitation of Surface Plasmon Polaritons via Molecular Through-Bond Tunneling across Double-Barrier Tunnel Junctions, Nano Lett. 2019, 19, 4634-4640.
104.      Chen, X; Hu, H; Trasobares, J.; Nijhuis, C. A. Rectification Ratio and Tunneling Decay Coefficient Depend on the Contact Geometry Revealed by in Situ Imaging of the Formation of EGaIn Junctions, ACS Appl. Mater. Interfaces 2019, 11, 21018-21029.
103.      Duffin, T.; Nerngchamnong, N.; Thompson, D.; Nijhuis, C. A. Direct Measurement of the Local Field within Alkyl-Ferrocenyl-Alkanethiolate Monolayers: Importance of the Supramolecular and Electronic Structure on the Voltammetric Response and Potential Profile, Electrochim. Acta. 2019, 311, 92-102.
102.      Cao, L.; Yuan, L.; Yang, M.; Nerngchamnong, N.; Thompson, D.; Yu, X.;Qi, D. C.; Nijhuis, C. A. The Supramolecular Structure and Van der Waals Interactions Affect the Electronic Structure of Ferrocenyl-Alkanethiolate SAMs on Gold and Silver Electrodes, Nanoscale Adv. 2019, 1, 1991-2002.
101.      Albert, A.; Darwish, N.; Ciampi, S.; Jiang, L.; Roesch, R.; Ruiz, E.; Nijhuis, C. A.; Díez-Pérez, I. Control over Near-Ballistic Electron Transport through Formation of Parallel Pathways in a Single-Molecule Wire, J. Am. Chem. Soc. 2019, 141, 240-250.

2018

100.      Stiévenard, D.; Guérin, D.; Lenfant, S.; Lévêque, G.; Nijhuis, C. A.; Vuillaume, D. Electrical detection of plasmon-induced isomerization in molecule-nanoparticle network devices, Nanoscale 2018, 10, 23122-23130.
99.      Reynaud, C. A.; Duché, D.; Le Rouzo, J.; Nasser, A.; Nony, L.; Pourcin, F.; Margeat, O.; Ackermann, J.; Berginc, G.; Nijhuis, C. A.; Simon, J-J.; Escoubas, L. Enhancing Reproducibility and Nonlocal Effects in Film‐Coupled Nanoantennas, Adv. Opt. Mater. 2018, 6, 1801107.
98.      Souto, M.; Diez-Cabanes, V.; Yuan, L.; Kyvik, A.; Ratera, I.; Nijhuis, C. A.; Cornil, J.; Veciana, J. Influence of the Donor Unit on the Rectification Ratio in Tunnel Junctions Based on Donor-Acceptor Self-Assembled Monolayers using PTM Units as Acceptors, Phys. Chem. Chem. Phys. 2018, 20, 25638-25647.
97.      Moreno-Moreno, M.; Troyano, J.; Ares, P.; Castillo, O.; Nijhuis, C. A.; Yuan, L.; Ochoa, P.; Delgado, S.; Gomez-Herrero, J.; Zamora, F.; Gomez-Navarro, C. One-Pot Preparation of Mechanically Robust, Transparent, Highly Conductive and Memristive Metal-Organic Ultrathin Film, ACS Nano 2018, 12, 10171-10177.
96.      Huang, X.; Cai, Y.; Feng, X.; Tan, W.; Hasan, D.; Chen, L.; Chen, N.; Wang L.; Huang, L.; Duffin, T.; Nijhuis, C. A.; Zhang, Y.; Lee, C.; Ang, K. Black Phosphorus Carbide as a Tunable Anisotropic Plasmonic Metasurface, ACS Photonics 2018, 5, 3116–3123.
95.      Suchand Sangeeth, C. S.; Jiang, L.; Nijhuis, C. A. Bottom-Electrode Induced Defects in Self-Assembled Monolayer (SAM)-Based Tunnel Junctions affect only the SAM Resistance, not the Contact Resistance or SAM Capacitance, RSC Adv. 2018, 8, 19939-19949.
94.      Yuan, L.; Jiang, L.; Nijhuis, C. A. The Driving Force of Electrical Breakdown of Large-Area Molecular Tunnel Junctions, Adv. Funct. Mater 2018, 1801710.
93.      Yuan, L.; Wang, L.; Garrigues, A. R.; Jian, L.; Annadata, H. V.; del Barco, E.; Nijhuis, C. A. Transition from Direct to Inverted Charge Transport Marcus Regions in Molecular Junctions via Molecular Orbital Gating, Nat. Nanotechnol. 2018, 13, 322-329.
92.      Sierra, M. A.; Sánchez, D.; Garrigues, A. R.; Barco, E.; Wang, L.; Nijhuis, C. A. How to Distinguish between Interacting and Noninteracting Molecules in Tunnel Junctions, Nanoscale 2018, 10, 3904-3910.
91.      Tan, S. F.; Raj, S.; Bisht, G.; Annadata, H. V.; Nijhuis, C. A.; Král, P.; Mirsaidov, U. Nanoparticle Interactions Guided by Shape-Dependent Hydrophobic Forces, Adv. Mater. 2018, 1707077.
90.      Song, P.; Guerin, S.; Tan, S. J. R.; Annadata, H. V.; Yu, X.; Scully, M.; Han, Y. M.; Roemer, M.; Loh, K. P.; Thompson, D.; Nijhuis, C. A. Stable Molecular Diodes Based on π–π Interactions of the Molecular Frontier Orbitals with Graphene Electrodes, Adv. Mater. 2018, 30, 1706322.

2017

89.      Tan, W. C.; Huang, L.; Ng, R. J.; Wang, L.; Hasan, D.M.N.; Duffin, T.J.; Kumar, K. S.; Nijhuis, C. A.; Lee, C.; Ang, K. Black Phosphorus Carbide Infrared Phototransistor, Adv. Mater. 2017, 29, 1705039.
88.       Gan, L.; Yuan, L.; Suchand Sangeeth, C. S.; Jańczewski, D.; Song, J.; Nijhuis, C. A. Tuning Charge Transport across Junctions of Ferrocene-Containing Polymer Brushes on ITO by Controlling the Brush Thickness and the Tether Lengths, Eur. Polym. J. 2017, 97, 282-291.
87.       Goswami, S.; Matula, A. J.; Rath, S. P.; Hedström, S.; Saha, S.; Annamalai, M.; Sengupta, D.; Patra, A.; Ghosh, S.; Jani, H.; Sarkar, S.; Motapothula, M.R.; Nijhuis, C. A.; Martin, J.; Goswami, S.; Batista, V. S.; Venkatesan, T. Robust resistive memory devices using solution-processable metal-coordinated azo aromatics transducers, Nat. Mater. 2017, 16, 1216–1224
86.       Du, W.; Wang, T.; Chu, H.; Nijhuis, C. A. Highly efficient on-chip direct electronic–plasmonic transducers, Nat. Photon. 2017, 11, 623–627.
85.      Chen, X.; Roemer, M.; Yuan, L.; Du, W.; Thompson, D.; del Barco, E.; Nijhuis, C. A. Molecular diodes with rectification ratios exceeding 105 driven by electrostatic interactions, Nat. Nanotechnol. 2017, 12, 797–803.
84.      Sodhi, R. N. S.; Brodersen, P.; Cademartiri, L.; Thuo, M. M.; Nijhuis, C. A. Surface and buried interface layer studies on challenging structures as studied by Angle-Resolved XPS (ARXPS), Surf. Interface Anal. 2017, 49, 1309-1315
83.      Souto, M.; Yuan, L.; Morales, D.; Jiang, L.; Ratera, I.; Nijhuis, C. A.; Veciana, J. Tuning the Rectification Ratio by Changing the Electronic Nature (Open-Shell and Closed-Shell) in Donor-Acceptor SAMs, J. Am. Chem. Soc. 2017,139, 4262–4265
82.       Tan, W. C.; Cai, Y.; Ng, R.; Huang, L.; Feng, X.; Zhang, G.; Zhang, Y.-W.; Nijhuis, C. A.; Liu, X.; Ang, K.-W. Few-Layer Black Phosphorus Carbide Field-Effect Transistor via Carbon Doping, Adv. Mater. 2017, 29, 1700503.
81.       Kumar, K.S.; Jiang, L.; Nijhuis, C. A. Fabrication of Ultra-smooth and Oxide-free Molecule-ferromagnetic Metal Interfaces for Applications in Molecular Electronics under Ordinary Laboratory Conditions, RSC Adv. 2017, 7, 14544–14551.
80.       Song, P.; Thompson, D.; Annadata, H. V.; Guerin, S.; Loh, K. P.; Nijhuis, C. A. Supramolecular Structure of the Monolayer Triggers Odd-Even Effects in the Tunneling Rates across Non-Covalent Junctions on Graphene, J. Phys. Chem. C 2017121, 4172–4180.
79.       Tan, S. F.; Bosman, M.; Nijhuis, C. A. Molecular Coatings for Stabilizing Silver and Gold Nanocubes under Electron Beam Irradiation, Langmuir 201733, 1189–1196.
78.      Loh, D.; Sen, S.; Bosman, M.; Tan, S. F.; Zhong, J.; Nijhuis, C. A.; Král, P.; Matsudaira, P.; Mirsaidov, U. Multi-step nucleation of nanocrystals in aqueous solution, Nat. Chem. 2017, 9, 77–82.

2016

77.      Liu, F.; Jiang, L.; Tan, H. M.; Yadav, A.; Biswas, P.; van der Maarel, J.; Nijhuis, C. A.; van Kan, J. Separation of superparamagnetic particles through ratcheted Brownian motion and periodically switching magnetic fields, Biomicrofluidics 2016, 10, 064105 - 064110.
76.      Garrigues, A. R.; Yuan, L.; Wang, L.; Singh, S.; del Barco, E.; Nijhuis, C. A. Temperature Dependent Charge Transport across Tunnel Junctions of Single-Molecules and Self-Assembled Monolayers: A Comparative Study, Dalton Trans. 2016, 45,17153-17159.
75.      Thompson, D.; Nijhuis, C. A. Even the Odd Numbers Help: Failure Modes of SAM-Based Tunnel Junctions Probed via Odd-Even Effects Revealed in Synchrotrons and Supercomputers, Acc. Chem. Res. 2016, 49, 2061–2069.
74.      Lin, W.; Tan, S. F.; Bosman, M.; Yang, J. K. W.; Nijhuis, C. A.; Bai, P. Charge Transfer Plasmons Resonances across Silver-Molecule-Silver Junctions: Estimating the Terahertz Conductance of molecules at Near Infrared Frequencies, RSC Adv. 2016, 6, 70884-70894.
73.       Tan, S. F.; Lin, G.; Bosman, M.; Mirsaidov, U.; Nijhuis, C. A. Real-Time Dynamics of Galvanic Replacement Reactions of Silver Nanocubes and Au Studied by Liquid-Cell Transmission Electron Microscopy, ACS Nano 201610, 7689–7695.
72.         Gan, L.; Song, J.; Guo, S.; Jańczewski, D.; Nijhuis, C. A. Side Chain Effects in the Packing Structure and Stiffness of Redox-Responsive Ferrocene-Containing Polymer Brushes, Eur. Polym. J. 2016, 83, 517-528.
71.         Suchand Sangeeth, C. S.; Demissie, A.; Yuan, L.; Wang, T.; Frisbie, C. D.; Nijhuis, C. A. Comparison of DC and AC Transport in 1.5-7.5 nm Oligophenylene Imine Molecular Wires across Two Junction Platforms: Eutectic In-Ga versus Conducting Probe Atomic Force Microscope Junctions, J. Am. Chem. Soc. 2016, 138, 7305–7314.
70.         Garrigues, A. R.; Yuan, L.; Wang, L.; Mucciolo, E. R.; Thompson, D.; del Barco, E.; Nijhuis, C. A. A Single-Level Tunnel Model to Account for Electrical Transport through Single Molecule- and Self Assembled Monolayer-based Junctions, Sci. Rep. 2016, 6, 26517.
69.         Song, P.; Yuan, L.; Roemer, M.; Jiang, L.; Nijhuis, C. A. Supramolecular vs. Electronic Structure: The Effect of the Tilt Angle of the Active Group in the Performance of a Molecular Diode, J. Am. Chem. Soc. 2016, 138, 5769–5772.
68.        Yuan, L.; France, C.; Crivillers, N.; Mas-Torrent, M.; Cao, L.; Sangeeth, C. S. S.; Rovira, C.; Veciana, J.; Nijhuis, C. A. Chemical Control over the Energy Level Alignment in a Two-Terminal Junction, Nat. Commun. 2016, 7, 12066.
67.       Tan, S. F.; Chee, S. W.; Lin, G.; Bosman, M.; Lin, M.; Mirsaidov, U.; Nijhuis, C. A. Real-Time Imaging of the Formation of Au-Ag Core-Shell Nanoparticles, J. Am. Chem. Soc. 2016,138, 5190–5193.
66.       Garrigues, A. R.; Wang, L.; del Barco, E.; Nijhuis, C. A. Electrostatic Control over Temperature-Dependent Tunneling across a Single Molecule Junction, Nat. Commun. 2016, 7, 11595.
65.       Wang, T.; Nijhuis, C. A. Molecular Electronic Plasmonics, Applied Materials Today 2016, 3, 73-86.
64.       Roemer, M.; Donnadieu, B.; Nijhuis, C. A. Functionalized 1'-Substituted Iodoferrocenes and their Pd-Catalyzed Heck Cross Coupling Reactions, Eur. J. Inorg. Chem. 2016, 2016, 1314-1318.
63.       Du, W.; Wang, T.; Chu, H.; Wu, L.; Liu, R.; Sun, S.; Phua, W.K.; Wang, L.; Tomczak, N.; Nijhuis, C. A. On-chip Molecular Electronic Plasmon Sources Based on Self-Assembled Monolayer Tunnel Junctions, Nat. Photon. 2016, 10, 274 - 280.
62.       Cao, L.; Yang, M.; Yuan, L.; Nerngchamnong, N.; Feng, Y.; Wee, A.; Qi, D. C.; Nijhuis, C. Orbital Dependent Ultrafast Charge Transfer Dynamics of Ferrocenyl-Functionalized SAMs on Gold Studied by Core-hole Clock Spectroscopy, J. Phys. Condens. Matter. 2016, 28, 094006. Accepted as a Special Issue Article (Molecular functionalization of surfaces for device applications)
61.       Kumar, K.S.; Pasula, R. R.; Lim, S.; Nijhuis, C. A. Long-Range Tunneling Processes across Ferritin-Based Junctions, Adv. Mater. 2016, 28, 1824–1830.
60.       Song, P.; Suchand Sangeeth, C. S.; Thompson, D.; Du, W.; Loh, K. P.; Nijhuis, C. A. Non-Covalent Self-Assembled Monolayers on Graphene as a Highly Stable Platform for Molecular Tunnel Junctions, Adv. Mater. 2016, 28, 631–639.

2015

59.       Wan, A.; Suchand Sangeeth, C. S.; Wang, L.; Yuan, L.; Jiang, L.; Nijhuis, C. A. Arrays of High Quality SAM-Based Junctions and Their Application in Molecular Diode Based Logic, Nanoscale 2015, 7, 19547-19556.
58.       Jiang, L.; Wang, T.; Nijhuis, C. A. Fabrication of Ultra-Flat Silver Surfaces with Sub Micro-Meter Scale Grains Thin Solid Films, Thin Solid Films 2015, 593, 26–39.
57.       Jiang, L.; Sangeeth, C. S. S.; Yuan, L.; Thompson, D.; Nijhuis, C. A. One-Nanometer Thin Monolayers Remove the Deleterious Effect of Substrate Defects in Molecular Tunnel Junctions, Nano Lett. 2015, 15, 6643–6649.
56.       Nerngchamnong, N.; Thompson, D.; Cao, L.; Yuan, L.; Jiang, L.; Roemer, M.; Nijhuis, C. A. Non-Ideal Electrochemical Behavior of Ferrocenyl-Alkanethiolate SAMs Maps the Microenvironment of the Redox Unit, J. Phys. Chem. C 2015, 2,21978–21991.
55.       Wan, A.; Wang, T.; Yin, T.; Li, A.; Hu, H.; Li, S.; Shen, Z.; Nijhuis, C. A. Plasmon Modulated Photoluminescence of Single Gold Nanobeams, ACS Photonics 2015, 2, 1348–1354.
54.      Wang, D.; Fracasso, D.; Nurbawono, A.; Annadata, H.V.; Suchand Sangeeth, C. S.; Yuan, L.; Nijhuis, C. A. Tuning the Tunneling Rate and Dielectric Response of SAM-Based Junctions via a Single Polarizable Atom, Adv. Mater. 2015, 27, 6689–6695.
53.       Thompson, D.; Liao, J.; Nolan, M.; Quinn, A. J.; Nijhuis, C. A.; O'Dwyer, C.; Nirmalraj, P. N.; Schönenberger, C.; Calame, M. Formation Mechanism of Metal-Molecule-Metal Junctions: Molecule-Assisted Migration on Metal Defects, J. Phys. Chem. C 2015,119, 19438–19451.
52.       Jiang, L.; Suchand Sangeeth, C. S.; Nijhuis, C. A. The Origin of the Odd-Even Effect in the Tunneling Rates across EGaIn Junctions with SAMs of n-Alkanethiolates, J. Am. Chem. Soc. 2015,137, 10659–10667.
51.      Yuan, L.; Breuer, R.; Jiang, L.; Schmittel, M.; Nijhuis, C. A. A Molecular Diode with a Statistically Robust Rectification Ratio of Three Orders of Magnitude, Nano Lett. 2015, 15, 5506–5512.
50.      Yuan, L.; Thompson, D.; Cao, L.; Nerngchamnong, N.; Nijhuis, C. A. One Carbon Matters: The Origin and Reversal of Odd–Even Effects in Molecular Diodes with Self-Assembled Monolayers of Ferrocenyl-Alkanethiolates, J. Phys. Chem. C 2015,119, 17910–17919.
49.      Suchand Sangeeth, C. S.; Wan, A.;Nijhuis, C. A. Probing the nature and resistance of the molecule-electrode contact in SAM-based junctions, Nanoscale 2015, 7, 12061-12067.
48.      Dong, Z.; Chu, H.; Zhu, D.; Du, W.; Akimov, Y. A.; Goh, W. P.; Wang, T.; Goh, K. E. J.; Troadec, C.; Nijhuis, C. A.; Yang, J.K.W. Electrically-Excited Surface Plasmon Polaritons with Directionality Control, ACS Photonics 2015, 2, 385–391.
47.       Nurbawono, A.; Liu, S.; Nijhuis, C. A.; Zhang, C. Odd–Even Effects in Charge Transport through Self-Assembled Monolayer of Alkanethiolates, J. Phys. Chem. C 2015, 119, 5657–5662.
46.      Yuan, L.; Nerngchamnong, N.; Cao, L.; Hamoudi, H.; del Barco, E.; Roemer, M.; Sriramula, R.; Thompson, D.; Nijhuis, C. A. Controlling the Direction of Rectification in a Molecular Diode, Nat. Commun. 2015, 6, 6324.
45.       Jiang, L.; Suchand Sangeeth, C. S.; Wan, A.; Vilan, A.; Nijhuis, C. A. Defect Scaling with Contact Area in EGaIn-Based Junctions: Impact on Quality, Joule Heating, and Apparent Injection Current, J. Phys. Chem. C 2015, 119, 960–969.

2014

44.       Wong, C. P. Y.; Koek, T. J. H.; Liu, Y. P.; Loh, K. P.; Goh, K. E. J.; Troadec, C.; Nijhuis, C. A. Electronically Transparent Graphene Barriers against Unwanted Doping of Silicon, ACS Appl. Mater. Inter. 2014, 6, 20464–20472.
43.       Nerngchamnong, N.; Wu, H.; Sotthewes, K.; Yuan, L.; Cao, L.; Roemer, M.; Lu, J.; Loh, K. P.; Troadec, C.; Zandvliet, H.; Nijhuis, C. A. The Supramolecular Structure of Self-Assembled Monolayers of Ferrocenyl Terminated n-Alkanethiolates on Gold Surfaces, Langmuir 2014, 30, 13447–13455.
42.       Liu, Y.; Yuan, L.; Yang, M.; Zheng, Y.; Nai, C. T.; Gao, L.; Nerngchamnong, N.; Li, L. J.; Suchand Sangeeth, C. S.; Feng, Y. P.; Nijhuis, C. A.; Loh, K. P. Giant Enhancement in Vertical Conductivity of Stacked CVD Graphene sheets by Self-assembled Molecular Layers, Nat. Commun. 2014, 5, 5461.
41.       Suchand Sangeeth, C. S.; Wan, A.; Nijhuis, C. A. The Equivalent Circuits of a Self-Assembled Monolayer Based Tunnel Junction Determined by Impedance Spectroscopy, J. Am. Chem. Soc. 2014, 136, 11134-11144.
40.       Wimbush, K. S.; Fratila, R. M.; Wang, D. D.; Qi, D. C.; Cao, L.; Yuan, L.; Yakovlev, N.; Loh. K. P.; Reinhoudt, D. N.; Velders, A. H.; Nijhuis, C. A. Bias Induced Transition from an Ohmic to a Non-Ohmic Interface in Supramolecular Tunneling Junctions with Ga2O3/EGaIn Top Electrodes, Nanoscale 2014, 19, 11246-11258.
39.       Bosman, M.; Zhang, L.; Duan, H.; Tan, S. F.; Nijhuis, C. A.; Qiu, C. W.; Yang, J. K. W. Encapsulated Annealing: Enhancing the Plasmon Quality Factor in Lithographically–Defined Nanostructures, Sci. Rep. 2014, 4, 5537.
38.       Roemer, M.; Nijhuis, C. A. Syntheses and Purification of the Versatile Synthons Iodoferrocene and 1,1`-Diiodoferrocene, Dalton Trans. 2014, 43, 11815-11818.
37.       Yuan, L.; jiang, L.; Thompson, D.; Nijhuis, C. A. On the Remarkable Role of Surface Topography of the Bottom-Electrodes in Blocking Leakage Currents in Molecular Diodes, J. Am. Chem. Soc. 2014, 136, 6554-6557.
36.       Tan, S. F.; Wu, L.; Yang, J. K. W.; Bai, P.; Bosman, M.; Nijhuis, C. A. Quantum Plasmon Resonances Controlled by Molecular Tunnel Junctions, Science, 2014, 343, 1496-1499.
35.       Wan, A.; Jiang, L.; Suchand Sangeeth, C. S.; Nijhuis, C. A. Reversible Soft Top-Contacts to Yield Molecular Junctions with Precise and Reproducible Electrical Characteristics, Adv. Funct. Mater. 2014, 24, 4442-4456.
34.       Yuan, L.; Jiang, L.; Zhang, B.; Nijhuis, C. A. Dependency of the Tunneling Decay Coefficient in Molecular Tunneling Junctions on the Topography of the Bottom Electrodes, Angew. Chem. Int. Ed. 2014, 53, 3377-3381.
33.       Jiang, L.; Yuan, L.; Cao, L.; Nijhuis, C. A. Controlling Leakage Currents: The Role of the Binding Group and Purity of the Precursors for Self-Assembled Monolayers in the Performance of Molecular Diodes, J. Am. Chem. Soc. 2014,136, 1982-1991.

2013

32.       Bosman, M.; Ye, E.; Tan, S. F.; Nijhuis, C. A.; Yang, J. K. W.; Marty, R.; Mlayah, A.; Arbouet, A.; Girard, C.; Han, M. Y. Surface plasmon damping quantified with an electron nanoprobe Sci. Rep. 2013, 3, 1312.
31.       Mahony S. O.; Dwyer, C. O.; Nijhuis, C. A.; Gree, J. C.; Quinn, A. J.; Thompson, D. Nanoscale dynamics and protein adhesivity of alkylamine self-assembled monolayers on graphene Langmuir 2013, 29, 7271-728.
30.       Nerngchanmnong, N.; Yuan, L.; Qi, D. C.; Jiang, L.; Thompson, D.; Nijhuis, C. A. The role of van der Waals forces in the performance of molecular diodes Nat. Nanotechnol. 2013, 8, 113-118.

2012

29.       Reus, W. F.; Nijhuis, C. A.; Barber, J.; Thuo, M. N.; Tricard, S.; Kim, C.; Whitesides, G. M. Statistical Tools for Analyzing Measurements of Charge Transport J. Phys. Chem.C 2012, 116, 6714-6733.
28.       Cademartiri, L.; Thuo, M. M.; Nijhuis, C. A.; Barber, J.; Sodhi, R. N. S.; Brodersen, P.;Kim, C.; Reus, W. F.;  Whitesides, G. M. Electrical Resistance of AgTS-S(CH2)n-1CH3//Ga2O3/EGaIn Tunneling Junctions J. Phys. Chem. C 2012, 6, 4806-4822.
27.       Nijhuis, C. A.; Reus, W. F.; Barber, J.; Dickey, M. D.; Whitesides, G. M. Comparison of SAM-Based Tunneling Junctions with Ga2O3/EGaIn Top-Electrodes to Other Large-Area Junctions, J. Phys. Chem. C 2012, 6, 14139-14150.
26.       Reus, W. F.; Thuo, M. M.; Shapiro, N.D.; Nijhuis, C. A.; Whitesides, G. M. The SAM, Not the Electrodes, Dominates Charge Transport in AgTS-SAM//Ga2O3/EGaIn Junctions ACS Nano 2012, 6, 4806-4822.

2011

25.       Ramachandra, S.; Schuermann, K. C.; Belser, P.; Edafe, F.; Nijhuis, C. A.; Reus, W. F.; Whitesides, G. M.; De Cola, L. Luminescent Ruthenium Tripod Complexes: Properties in Solution and on Conductive Surfaces, Inorg. Chem. 2011, 50, 1581–1591.
24.       Ramachandra, S.; Polo, F.; Edafe, F.;  Schuermann, K. C.; Nijhuis, C. A.; Peter Belser, Reus, W. F.; Whitesides, G. M.; De Cola, L. Luminescent acetylthiol derivative tripodal Osmium(II) and Iridium(III) complexes. Spectroscopy in solution and on surfaces. Pure Appl. Chem. 2011, 83, 779-797.
23.       Thuo, M. N.; Nijhuis, C. A.; Reus, W. F.; Schulz, M. D.; Kim, C.; Barber, J.; Whitesides, G. M. Odd-Even Effects in Tunneling Across Self-Assembled Monolayers, J. Am. Chem. Soc. 2011, 133, 2962-2975.
22.       Nijhuis, C. A.; Reus, W. F.; Siegel, A. C.; Whitesides, G. M. A Molecular Half-Wave Rectifier J. Am. Chem. Soc. 2011, 133, 15397–15411.

2010

21        Nie, Z.; Nijhuis, C. A.; Chen, X.; Martinez, A. W.; Narovlyansky, M.; Whitesides, G. M.Electrocehmical Sensing in Paper-Based Microfluidic Devices Lab Chip 2010, 4, 477-483.
20.       Siegel, A. C.; Tang, K. Y. S.; Nijhuis, C. A.; Phillips, S. T.; Dickey, M. D.; Whitesides, G. M. Co-Fabrication: A Strategy for Building Multi-Component Microsystems Acc. Chem. Res. 2010, 43, 518-528.
19.       Nijhuis, C. A.; Reus, W. F.; Barber, J.; Dickey, M. D.; Whitesides, G. M. Charge Transport and Rectification in Arrays of SAM-Based Tunneling Junctions, Nano Lett. 2010, 10, 3611–3619.
18.       Wimbush, K. S.; Reus, W. F.; Whitesides, G. M.; Reinhoudt, D. N.; van der Wiel, W. G.; Nijhuis, C. A.; Velders, A Control over Rectification in Supramolecular Tunneling Junctions, Angew. Chem. Int. Ed. 2010, 49, 10176–10180. 
17.       Nijhuis, C. A.; Reus, W. F.; Whitesides, G. M. The Mechanism of Rectification in Tunneling Junctions Based on Molecules with Asymmetric Potential Drops, J. Am. Chem. Soc. 2010, 132, 18386–18401.

2009

16.       Nijhuis, C. A.; Reus, W. F.; Whitesides, G. M. Molecular Rectification in Metal−SAM−Metal Oxide−Metal Junctions J. Am. Chem. Soc. 2009, 131, 17814-17827.

2008

15.       Nijhuis, C. A.; Maat, J. ter; Weusthof, M.; Salm, C.; Schmitz, J.; Ravoo, B. J.; Huskens, J.; Reinhoudt, D. N. Preparation of Metal–SAM–Dendrimer–SAM–Metal Junctions by Supramolecular Metal Transfer Printing New J. Chem. 2008, 32, 652-661.
14.     Sciarone, T. J. J.; Nijhuis, C. A.; Meetsma, A.; Hessen, B. Neutral and Cationic Paramagnetic Amino-amidinate Iron (II) Complexes: 19F NMR Evidence for Interactions with Weakly Coordinating Anions Organometallics 2008, 27, 2058-2065.

2007

13.       Nijhuis, C. A.; Ravoo, B. J.; Huskens, J.; Reinhoudt, D. N. Electrochemically Controlled Supramolecular Systems Coord. Chem. Rev. 2007, 251, 1761-1780.
12.       Nijhuis, C. A.; Dolatowska, K.; Ravoo, B. J.; Huskens, J.; Reinhoudt, D. N. Redox Controlled Interaction of Biferrocenyl Dendrimers with β-Cyclodextrin Molecular Printboards Chem. Eur. J. 2007, 13, 69-80.
11.       Nijhuis, C. A.; Boukamp, B.; Ravoo, B. J.; Huskens, J.; Reinhoudt, D. N. Potential Dependent Electrochemical Impedance Spectroscopy and Cyclic Voltammetry of Ferrocenyl Dendrimers – β-Cyclodextrin Assemblies in Solution and at Molecular Printboards J. Phys. Chem. C 2007, 111, 9799-9810.

2006

10.       Sciarone, T. J. J.; Nijhuis, C. A.; Meetsma, A.; Hessen, B. Synthesis and Reactivity of Mono(amidinate) Organoiron(II) Complexes Dalton Trans. 2006, 4896–4904.
9.         Nijhuis, C. A.; Sinha, J. K.; Wittstock, G.; Ravoo, B. J.; Huskens, J.; Reinhoudt, D. N.Controlling the Supramolecular Assembly of Redox-Active Dendrimers at Molecular Printboards by Scanning Electrochemical Microscopy Langmuir 2006, 22, 9770-9775.
8.         Nijhuis, C. A.; Oncel, N.; Huskens, J.; Zandvliet H.; Ravoo, B. J.; Poelsema, B.; Reinhoudt, D. N. Room Temperature Single Electron Tunneling in Dendrimer Stabilized Gold Nanoparticles Anchored at a Molecular Printboard Small 2006, 2, 1422-1426.
7.         Nijhuis, C. A. Redox-Active Dendrimers at Molecular Printboards Ph.D. Thesis, University of Twente, The Netherlands, 2006, ISBN 90-365-2434-2.

2005

6.         Bruinink, C. M.; Nijhuis, C. A.; Péter, M.; Dordi, B.; Crespo-Biel, O.; Auletta, T.; A.; Schönherr, H.; Vancso, G. J.; Huskens, J.; Reinhoudt, D. N. Supramolecular Microcontact Printing and Dip-Pen Nanolithography on Molecular Printboards Chem. Eur. J. 2005, 11, 3988-3996.
5.         Nijhuis, C.A.; Yu, F.; Knoll, W.; Huskens, J.; Reinhoudt, D. N. Multivalent Dendrimers at Molecular Printboards: Influence of Dendrimer Structure on Binding Strength and Stoichiometry and Their Electrochemically Induced Desorption Langmuir 2005, 21, 7866-7876.
4.         Nijhuis,C. A.; Jellema, E.; Sciarone, T. J. J.; Meetsma, A. Budzelaar, P. H. M.; Hessen B.First-Row Transition Metal Bis(amidinate) Complexes; Planar Four-Coordination of FeII Enforced by Sterically Demanding Aryl Substituents Eur. J. Inorg. Chem. 2005, 2089–2099.

2004

3.         Auletta, T.; Dordi, B.; Mulder, A.; Sartori, A.; Onclin, S.; Bruinink C. M.; Péter, M.; Nijhuis, C. A.; Beijleveld, H.; Schönherr, H.; Vancso, G. J.; Casnati, A.; Ungaro, R.; Ravoo, B. J.; Huskens, J.; Reinhoudt, D. N. Writing Patterns of Molecules on Molecular Printboards Angew. Chem. Int. Ed. 2004, 43, 369-373.
2.         Huskens, J.; Mulder, A.; Auletta, T.; Nijhuis, C. A.; Ludden, M. J. W.; Reinhoudt, D. N. A Model for Describing the Thermodynamics of Multivalent Host-Guest Interactions at Interfaces J. Am. Chem. Soc.  2004, 126, 6784-6797.
1.         Nijhuis, C. A.; Huskens, J.; Reinhoudt, D. N. Binding Control and Stoichiometry of Ferrocenyl Dendrimers at a Molecular Printboard J. Am. Chem. Soc. 2004, 126, 12266-12267.

Patent/Invention disclosures

1.      Patent Application Serial No.: 61/158,251 Integration of Multiple Detection Modules in 3D Paper-Based Diagnostic Devices Nie, Z.; Nijhuis, C. A.; Chen, X.; Martinez, A. W.; Narovlyansky, M.; Whitesides, G. M.
2.      US Provisional Application No. 61/906,277 Invention disclosure: Formation of Soft-contacts to Soft-Matter. Nijhuis, C.A., Wang, A., Li, J., Suchand S. (2013).
3.      US Provisional Application No. 62/015,769 Electronically Transparent Protection Barriers, Nijhuis, C. A., Troadec, C. Wong, P. Y, (2014).
4.      US Provisional Patent Application No.: 61/971,643 Interface Engineering of Multi-Stacked Graphene For Enhanced Electrical Conductivity Liu YanPeng, Yuan, L., Nijhuis, C.A., Loh, K.P. (2014).
5.      US Provisional Patent Application No. 61/986,228 Highly Economically Synthesis and Purification of Iodoferrocenes Nijhuis, C.A., Roemer, M. (2014).
6.      US Provisional Patent Application IHPC/Z/09534 On-Chip Molecular Electronic Plasmon Sources Based On Self-Assembled Monolayer Tunnel Junctions, Wei, D.; Wang, T.; Chu, S.H.; Wu, L.; Nijhuis, C.A. (2016).
7.      SG Non-Provisional Application No. 10201601530U Highly Efficient On-Chip Direct Electronic-Plasmonic Transducers, Wei, D.; Wang, T.; Nijhuis, C.A. (2016)