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2022

[41] J. F. Triana and F. Herrera, Open quantum dynamics of strongly coupled oscillators with multi-configuration time-dependent Hartree propagation and Markovian quantum jumps, J. Chem. Phys. (in press) https://doi.org/10.1063/5.0119293, 2022.

[40] I. Chi-Duran, R. Fritz, V. Olaya, R. Urzua-Leiva, G. I. Cárdenas-Jirón, D.P. Singh, F. Herrera, Anisotropic band-edge absorption of millimeter-size Zn(3-Ptz)2 single crystal metal-organic frameworks, ACS Omega 7, 24432, 2022. [[PDF]]({{ "/assets/papers/2022 Anisotropic Band-Edge Absorption of Millimeter-Sized Zn(3-ptz)2 Single-Crystal Metal−Organic Frameworks.pdf" | absolute_url}})

[39] V. Hernandez, D. Ibarra, J. F. Triana, B. Martínez-Soto, M. Faúndez, D. A. Vasco, L. Gordillo, F. Herrera, C. García-Herrera, A. Garmulewicz, Agar Biopolymer Films for Biodegradable Packaging A Reference Dataset for Exploring the Limits of Mechanical Performance, Materials 15, 3954, 2022. [[PDF]]({{ "/assets/papers/2022 Agar Biopolymer Films for Biodegradable Packaging A Reference Dataset for Exploring the Limits of Mechanical Performance.pdf" | absolute_url}}) + [DATA]. Featured in AzoM.com.

[38] T. Bikku, R. A. Fritz, Y. J. Colón, F. Herrera, Machine learning identification of organic compounds using visible light, arXiv:2204.11832, 2022. [GitHub]

[37] W. Ahn, F. Herrera, B. Simpkins, Modification of urethane addition reaction via vibrational strong coupling, ChemRxiv DOI:10.26434/chemrxiv-2022-wb6vs, 2022.

[36] F. Herrera and M. Litinskaya, Ensembles of single-molecule picocavities as nonlinear optical metamaterials, J. Chem. Phys 156, 114702, 2022. [[PDF]]({{ "/assets/papers/2022 Disordered ensembles of strongly coupled single-molecule plasmonic picocavities as nonlinear optical metamaterials.pdf" | absolute_url}})

[35] J. Triana, M. Arias, J. Nishida, E. Muller, R. Wilcken, S. C. Johnson, A. Delgado, M. B. Raschke, F. Herrera, Semi-empirical quantum optics for mid-infrared molecular nanophotonics, J. Chem. Phys. 156, 124110, 2022. [[PDF]]({{ "/assets/papers/2022 Semi-empirical quantum optics for mid-infrared molecular nanophotonics.pdf" | absolute_url}})

[34] J. Triana and F. Herrera, Ultrafast modulation of vibrational polaritons for controlling the quantum field statistics at mid-infrared frequencies, New J. Phys. 24, 023008, 2022. [[PDF]]({{ "/assets/papers/2022 Ultrafast modulation of vibrational polaritons for controlling the quantum field statistics at mid-infrared frequencies.pdf" | absolute_url}})

2021

[33] V. Olaya, J. Pérez-Ríos, F. Herrera, Laser-assisted binding of ultracold polar molecules with Rydberg atoms in the van der Waals regime, arxiv:2109.06411, 2021.

[32] J. García-Garfido, J. Enríquez, I. Chi-Durán, I. Jara, L. Vivas, F.J. Hernández, F. Herrera, D.P. Singh, Millimeter-scale Zn(3-ptz)2 metal-organic framework single crystals: self-assembly mechanism and growth kinetics, ACS Omega 6, 27, 17289–17298, 2021. [[PDF]]({{ "/assets/papers/2021 Millimeter-Scale Zn(3-ptz)2 Metal−Organic Framework Single Crystals Self-Assembly Mechanism and Growth Kinetics.pdf " | absolute_url}})

[31] R.A. Fritz, Y. Colón, F. Herrera, Engineering entangled photon pairs using metal-organic frameworks, Chem. Sci. 12, 3475-3482, 2021.[[PDF]]({{ "/assets/papers/2021 Engineering entangled photon pairs with metal– organic frameworks.pdf" | absolute_url}})

[30] A.B. Grafton, A.D. Dunkelberger, B. S. Simpkins, J. F. Triana, F. Hernandez, F. Herrera, J.C. Owrutsky, Excited-State vibration-polariton transitions and dynamics in nitroprusside, Nature Communications 12, 214, 2021. [[PDF]]({{ "/assets/papers/2021 Excited-state vibration-polariton transitions and dynamics in nitroprusside.pdf" | absolute_url}}). Media coverage in biobiochile.cl.

2020

[29] J. F. Triana, F. Herrera, Self-dissociation of polar molecules in a confined infrared vacuum, DOI:10.26434/chemrxiv.12702419.v1, 2020.

[28] J. F. Triana, F. J. Hernández, F. Herrera, The shape of the electric dipole function determines the sub-picosecond dynamics of anharmonic vibrational polaritons, J. Chem. Phys. 152, 234111, 2020. [[PDF]]({{ "/assets/papers/2020 The shape of the electric dipole function determines the sub-picosecond dynamics of anharmonic vibrational polaritons.pdf" | absolute_url}}) Selected as Editor's Pick.

[27] V. Olaya, J. Pérez-Ríos, F. Herrera, C6 coefficients for interacting Rydberg atoms and alkali-metal dimers, Phys. Rev. A 101, 032705, 2020. [[PDF]]({{ "/assets/papers/2020 C6 coefficients for interacting Rydberg atoms and alkali-metal dimers.pdf" | absolute_url}})

[26] F. Herrera and J. Owrutsky, Molecular polaritons for controlling chemistry with quantum optics, J. Chem. Phys. 152, 100902, 2020. [[PDF]]({{ "/assets/papers/2020 Molecular polaritons for controlling chemistry with quantum optics.pdf" | absolute_url}}) Invited Perspective Article.

[25] F. Herrera, Photochemistry with Quantum Optics from a Non-Adiabatic Quantum Trajectory Perspective, Chem 6, 5-18, 2020. [[PDF]]({{ "/assets/papers/2020 Photochemistry with Quantum Optics from a Non-Adiabatic Quantum Trajectory Perspective.pdf" | absolute_url}})

2019

[24] M. Wersäll, B. Munkhbat, D. G. Baranov, F. Herrera, J. Cao, T. J. Antosiewicz, T. Shegai, Correlative dark-field and photoluminescence spectroscopy of individual plasmon-molecule hybrid nanostructures in strong coupling regime, ACS Photonics 6, 10, 2570-2576, 2019.[[PDF]]({{ "/assets/papers/2019 Correlative Dark-Field and Photoluminescence Spectroscopy of Individual Plasmon−Molecule Hybrid Nanostructures in a Strong Coupling Regime.pdf" | absolute_url}})

[23] F. Hernández and F. Herrera, Multi-level quantum Rabi model for anharmonic vibrational polaritons, J. Chem. Phys. 151, 144116, 2019. [[PDF]]({{ "/assets/papers/2019 Multi-level quantum Rabi model for anharmonic vibrational polaritons.pdf" | absolute_url}}) Selected as Editor's Pick. Received the 2019 JCP Best Paper Award by an Emerging Investigator.

[22] I. Chi-Duran, Z. Setifi, F. Setifi, C. Jelsch, B. Morgenstern, A. Vega, F. Herrera, D. Pratap Singh, K. Hegetschweiler and R. Boyaala Crystal structure and Hirshfeld surface analysis of tris­(2,2′-bi­pyridine)­nickel(II) bis­(1,1,3,3-tetra­cyano-2-eth­oxy­propenide) dihydrate, Acta Cryst. E75, 867-871, 2019.

[21] M. J. Carreño, J. Sepúlveda, S. Tecpan, C. Hernández, F. Herrera, An Instrument-Free Demonstration of Quantum Key Distribution for High-School Students, Phys. Educ. 54, 065006, 2019. [[PDF]]({{ "/assets/papers/2019 An instrument-free demonstration of quantum key distribution for high-school students.pdf" | absolute_url}}). Media coverage in El Mostrador.

[20] J. Enríquez, I. Chi-Durán, C. Manquián, F. Herrera, D. P. Singh, Controlled growth of the non-centrosymmetric Zn(3-ptz)2 and Zn(OH)(3-ptz) metal-organic frameworks, ACS Omega 4, 7411–7419, 2019. [[PDF]]({{ "/assets/papers/2019 Controlled Growth of the Noncentrosymmetric Zn(3-ptz)2 and Zn(OH)(3-ptz) Metal–Organic Frameworks.pdf" | absolute_url}})

[19] M. Litinskaya and F. Herrera, Vacuum-enhanced optical nonlinearities with organic molecular photoswitches, Phys. Rev. B 99, 041107(R), 2019. [[PDF]]({{ "/assets/papers/2019 Vacuum-enhanced optical nonlinearities with disordered molecular photoswitches.pdf" | absolute_url}})

[18] I. Chi-Duran, J. Enríquez, C. Manquian, R. A. Fritz, D. Serafini, F. Herrera, D. P. Singh, Azide-based high-energy metal-organic framework with enhanced thermal stability, ACS Omega DOI:10.1021/acsomega.9b01127, 2019. [[PDF]]({{ "/assets/papers/2019 Azide-based high-energy metal-organic frameworks with enhanced thermal stability.pdf" | absolute_url}})

2018

[17] I. Chi-Duran, J. Enríquez, A. Vega, F. Herrera, D. P. Singh, Hexa­aqua­zinc(II) dinitrate bis­(5-(pyridinium-3-yl)tetra­zol-1-ide), Acta Cryst. E74, 1231-1234, 2018. [[PDF]]({{ "/assets/papers/2018 molecular crystal.pdf" | absolute_url}})

[16] I. Chi-Duran, J. Enriquez, C. Manquian, W. Cañon-Mancisidor, D. Venegas-Yazigi, F. Herrera, D. P. Singh, pH-controlled assembly of 3D and 2D zinc-based metal-organic frameworks with tetrazole ligands, ACS Omega 3, 801, 2018. [[PDF]]({{ "/assets/papers/2018 pH-Controlled Assembly of 3D and 2D Zinc-Based Metal-Organic Frameworks with Tetrazole Ligands.pdf" | absolute_url}})

[15] F. Herrera and F. C. Spano, Theory of nanoscale organic cavities: The essential role of vibration-photon dressed states, ACS Photonics 5, 65, 2018. [[PDF]]({{ "/assets/papers/2017 (ASAP) Theory of Nanoscale Organic Cavities The Essential Role of Vibration-Photon Dressed States.pdf" | absolute_url}}) Invited Review for Special Issue on “Strong Coupling of Molecules to Cavities”.

2017

[14] F. Herrera and F. C. Spano, Dark vibronic polaritons and the spectroscopy of organic microcavities, Phys. Rev. Lett 118, 223601, 2017. [[PDF]]({{ "/assets/papers/2017 Dark Vibronic Polaritons and the Spectroscopy of Organic Microcavities.pdf" | absolute_url}}). Selected as an Editors´ Suggestion. Also covered in USACH Press.

[13] F. Herrera and F. C. Spano, Absorption and photoluminescence in organic cavity QED, Phys. Rev. A 95, 053867, 2017. [[PDF]]({{ "/assets/papers/2017 Absorption and photoluminescence in organic cavity QED.pdf" | absolute_url}}). Selected as APS Editor's Suggestion.

2016

[12] F. Herrera and F. C. Spano, Cavity-controlled chemistry in molecular ensembles, Phys. Rev. Lett. 116, 238301, 2016. [[PDF]]({{"/assets/papers/2016 Cavity-controlled chemistry in molecular ensembles.pdf" | absolute_url}}). Selected as APS Editor's Suggestion and Featured in APS Physics Synopsis. Media coverage in USACH Press, Pro-Physik, and Spektrum.

[11] M. Moebius, F. Herrera, S. Griesse-Nascimento, O. Reshef, C. Evans, G. G. Guerreschi, Alan Aspuru-Guzik, Eric Mazur, Efficient photon triplet generation in integrated nanophotonic waveguides, Opt. Express 24, 9932, 2016. [[PDF]]({{"/assets/papers/2016 Efficient photon triplet generation in integrated nanophotonic waveguides.pdf" | absolute_url}})

2015

[10] B. Zhu, J. Schachenmayer, M. Xu, F. Herrera, J. G. Restrepo, M. J. Holland, A. M. Rey, Synchronization of interacting quantum dipoles, New J. Phys. 17, 083063, 2015. [[PDF]]({{"/assets/papers/2015 Synchronization of interacting quantum dipoles.pdf" | absolute_url}})

2014 and Earlier

[9] F. Herrera, B. Peropadre, L. A. Pachon, S. Saikin, A. Aspuru-Guzik, Quantum nonlinear optics with polar J-aggregates in microcavities, J. Phys. Chem. Lett. 5, 3708, 2014. [[PDF]]({{"/assets/papers/2014 Quantum nonlinear optics with polar J-aggregates.pdf" | absolute_url}})

[8] F. Herrera, Y. Cao, S. Kais, K. B. Whaley, Infrared-dressed entanglement of cold open-shell polar molecules for universal matchgate quantum computing, New J. Phys. 16, 075001, 2014. [[PDF]]({{"/assets/papers/2014 Infrared-matchgate.pdf" | absolute_url}})

[7] A.A. Kocherzhenko, J. Dawlaty, B. P. Abolins, F. Herrera, D. B. Abraham, K. B. Whaley, Collective effects in linear spectroscopy of dipole-coupled molecular arrays, Phys. Rev. A 90, 062502, 2014. [[PDF]]({{"/assets/papers/2014 KMM_Submitted.pdf" | absolute_url}})

[6] F. Herrera, S. Kais, K. B. Whaley, Entanglement creation in cold molecular gases using strong laser pulses, arXiv:1302.6444.

[5] F. Herrera, K. W. Madison, R. V. Krems, M. Berciu, Investigating polaron transitions with polar molecules, Phys. Rev. Lett. 110, 223002, 2013. [[PDF]]({{"/assets/papers/2013 Investigating Polaron Transitions with Polar Molecules.pdf" | absolute_url}})

[4] F. Herrera and R. V. Krems, Tunable Holstein model with cold polar molecules, Phys. Rev. A 84, 051401(R), 2011. [[PDF]]({{"/assets/papers/2011 Tunable Holstein model with cold polar molecules.pdf" | absolute_url}})

[3] J. Perez-Rıos, F. Herrera, R. V. Krems, External field control of collective spin excitations in an optical lattice of 2Σ molecules, New. J. Phys. 12, 103007, 2010. [[PDF]]({{"/assets/papers/2010 External field control of collective spin excitations in an optical lattice of 2-sigma molecules.pdf" | absolute_url}})

[2] F. Herrera, M. Litinskaya, R. V. Krems, Tunable disorder in a crystal of cold polar molecules, Phys. Rev. A 82, 033428, 2010. [[PDF]]({{"/assets/papers/2010 Tunable disorder in a crystal of cold polar molecules.pdf" | absolute_url}})

[1] F. Herrera, Magnetic field-induced interference of scattering states in ultracold collisions, Phys. Rev. A 78, 054702, 2008. [[PDF]]({{"/assets/papers/2008 Magnetic-field-induced interference of scattering states in ultracold collisions.pdf" | absolute_url}})