Ross Haroldson
University of Texas at Dallas
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Publication
Featured researches published by Ross Haroldson.
ACS Nano | 2016
Honglei Wang; Ross Haroldson; Balasubramaniam Balachandran; Alexander A. Zakhidov; Sandeep Sohal; Julia Y. Chan; Anvar Zakhidov; Walter Hu
Recently, organolead halide-based perovskites have emerged as promising materials for optoelectronic applications, particularly for photovoltaics, photodetectors, and lasing, with low cost and high performance. Meanwhile, nanoscale photodetectors have attracted tremendous attention toward realizing miniaturized optoelectronic systems, as they offer high sensitivity, ultrafast response, and the capability to detect beyond the diffraction limit. Here we report high-performance nanoscale-patterned perovskite photodetectors implemented by nanoimprint lithography (NIL). The spin-coated lead methylammonium triiodide perovskite shows improved crystallinity and optical properties after NIL. The nanoimprinted metal-semiconductor-metal photodetectors demonstrate significantly improved performance compared to the nonimprinted conventional thin-film devices. The effects of NIL pattern geometries on the optoelectronic characteristics were studied, and the nanograting pattern based photodetectors demonstrated the best performance, showing approximately 35 times improvement on responsivity and 7 times improvement on on/off ratio compared with the nonimprinted devices. The high performance of NIL-nanograting photodetectors likely results from high crystallinity and favored nanostructure morphology, which contribute to higher mobility, longer diffusion length, and better photon absorption. Our results have demonstrated that the NIL is a cost-effective method to fabricate high-performance perovskite nanoscale optoelectronic devices, which may be suitable for manufacturing of high-density perovskite nanophotodetector arrays and to provide integration with state-of-the-art electronic circuits.
Optics Express | 2017
Honglei Wang; Shih-Chia Liu; Balasubramaniam Balachandran; Jiyoung Moon; Ross Haroldson; Zhitong Li; Artur Ishteev; Qing Gu; Weidong Zhou; Anvar A. Zakhidov; Walter Hu
Recently, solution-processed hybrid halide perovskite has emerged as promising materials for advanced optoelectronic devices such as photovoltaics, photodetectors, light emitting diodes and lasers. In the mean time, all-dielectric metasurfaces with high-index materials have attracted attention due to their low-loss and high-efficient optical resonances. Because of its tunable by composition band gap in the visible frequencies, organolead halide perovskite could serve as a powerful platform for realizing high-index, low-loss metasurfaces. However, direct patterning of perovskite by lithography-based technique is not feasible due to material instability under moisture. Here we report novel organolead halide perovskite metasurfaces created by the cost-effective thermal nanoimprint technology. The nanoimprinted perovskite metasurface showed improved surface morphology and enhanced optical absorption properties. Significantly enhanced optical emission with an eight-fold enhancement in photoluminescence (PL) intensity was observed under room temperature. Temperature-dependent PL of perovskite nanograting metasurface was also investigated. Based on our results, we believe that thermal nanoimprint is a simple and cost-effective technique to fabricate perovskite-based metasurfaces, which could have broad impact on optoelectronic and photonic applications.
Optics Letters | 2018
Abouzar Gharajeh; Ross Haroldson; Zhitong Li; Jiyoung Moon; Balasubramaniam Balachandran; Walter Hu; Anvar A. Zakhidov; Qing Gu
We report a directly patterned perovskite distributed feedback (DFB) resonator and show narrow amplified spontaneous emission (ASE) at pump powers as low as 0.1 W/cm2 under continuous-wave (CW) optical pumping conditions at room temperature. Compared to the pristine thin film photoluminescence spectrum, a 16-fold reduction in emission linewidth in the MAPbI3 DFB cavity was observed. The direct nanostructuring of perovskites was achieved by thermal nanoimprint lithography. Our findings pave the way toward realizing CW pumped perovskite lasers at room temperature and energy-efficient perovskite light sources.
international conference on nanotechnology | 2017
Honglei Wang; Balasubramaniam Balachandran; Ross Haroldson; Abouzar Gharajeh; Deyin Zhao; Zhitong Li; Jiyoung Moon; Shih-Chia Liu; Julia Y. Chan; Weidong Zhou; Sergei Makarov; Qing Gu; Anvar A. Zakhidov; Walter Hu
Organic-inorganic hybrid perovskites have recently emerged as promising materials for optoelectronics. Here we show successful patterning of hybrid perovskite into nanostructures with cost-effective nanoimprint technology. Photodetectors are fabricated on nanoimprinted perovskite with improved responsivity. Nanoimprinted perovskite metasurface forms with significantly enhanced photoluminescence. Lasing is expected on nanoimprinted perovskite with optimized cavity design and process.
international conference on nanotechnology | 2017
Abouzar Gharajeh; Honglei Wang; Zhitong Li; Jiyoung Moon; Ross Haroldson; Balasubramaniam Balachandran; Deyin Zhao; Shih-Chia Liu; Weidong Zhou; S. V. Makarov; Anvar A. Zakhidov; Walter Hu; Qing Gu
Hybrid halide perovskite has made great advances for making new composition of materials, which have wide usage in advanced optoelectronic devices. Here we show amplified spontaneous emission (ASE) in a perovskite nanograting metasurface, defined by the cost effective nanoimprint lithography method which cannot typically be applied to hard, ionic based materials such as perovskite.
SPIE Microtechnologies | 2017
Anvar A. Zakhidov; Ross Haroldson; Danila Saranin; Patricia M. Martinez; Artur Ishteev
The hybrid (organo-inorganic) lead-halide perovskites revolutionized the field of solar cell research due to the impressive power conversion efficiencies of up to 21% recently reported in perovskite based solar cells. This talk will present first the general concepts of excitonic photovoltaics, as compared to conventional Si-type solar cells, asking a question: is hybrid perovskite PV an excitonic solar cell or not? Do we need excitons dissociation at D-A interfaces or CNT charge collectors? Then I will show our recent experimental results on the fast spectroscopy of excitons, magnetic field effect on generation of correlated (e-h) pairs. Also will discuss our Hall effect results, that allows to evaluate intrinsic charge carrier transport and direct measurements of mobility in these materials performed for the first time in steady-state dc transport regime. From these measurements, we have obtained the electron-hole recombination coefficient, the carrier diffusion length and lifetime. Our main results include the intrinsic Hall carrier mobility reaching up to 60 cm2V-1s-1 in perovskite single crystals, carrier lifetimes of up to 3 ms (surprisingly too long!), and carrier diffusion lengths as long as 650 μm (huge if compared to organic and even best inorganic materials). Our results also demonstrate that photocarrier recombination in these disordered solution-processed perovskites is as weak as in the best (high-purity single crystals) of conventional direct-band inorganic semiconductors. Moreover, as we show in our experiment, carrier trapping in perovskites is also strongly suppressed, which accounts for such long carrier lifetimes and diffusion lengths, significantly longer than similar parameters in the best inorganic semiconductors, such e.g. as GaAs. All these remarkable transport properties of hybrid perovskites need to be understood from fundamental physics point of view. Looks like we need some new concepts to explain the mysterious properties of “protected” hybrid perovskites. We suggest that some of this unusual properties can be attributed to a special type of “dipole rotational polaron” formed in their lattice due to interactions of charge with methyl-ammonium organic dipoles, each of 2.3 Debye. Examples of perovskite solar cell with transparent CNT charge collectors will demonstrated the 3 D charge collection in the monolithic tandems of perovskite PV with other dissimilar materials PVs, such as OPV and inorganic PV. We describe the pioneering methods to create highly transparent CNT sheets by dry lamination from vertically alligned CVD forests of MWCNTs. Transparency can be further increased by converting CNT aerogels into locally collapsed meshs with micron scale oppenings by spraying Ag nanowires, which lowers sheet resistance to values of Rsh< 40 ohm/sq. such AgNW@CNT transparent sheets are ideal interlayers in three terminal tandems of perovskite PV with polymeric OPV and/or inorganic solar cells. We show that nanoimprinting can further improve the performance of perovskite photodetectors and optoelectronic devices
Journal of Physics: Conference Series | 2017
Ekaterina Y. Tiguntseva; A. S. Zalogina; Valentin A. Milichko; Dmitry A. Zuev; Mikhail Omelyanovich; Artur Ishteev; A Cerdan Pasaran; Ross Haroldson; S. V. Makarov; Anvar A. Zakhidov
Hybrid lead halide perovskite based optoelectronics is a promising area of modern technologies yielding excellent characteristics of light emitting diodes and lasers as well as high efficiencies of photovoltaic devices. However, the efficiency of perovskite based devices hold a potential of further improvement. Here we demonstrate high photoluminescence efficiency of perovskites thin films via deposition of resonant silicon nanoparticles on their surface. The deposited nanoparticles have a number of advances over their plasmonic counterparts, which were applied in previous studies. We show experimentally the increase of photoluminescence of perovskite film with the silicon nanoparticles by 150 % as compared to the film without the nanoparticles. The results are supported by numerical calculations. Our results pave the way to high throughput implementation of low loss resonant nanoparticles in order to create highly effective perovskite based optoelectronic devices.
Journal of Physics: Conference Series | 2017
Ekaterina Y. Tiguntseva; I. N. Saraeva; S. I. Kudryashov; Elena V. Ushakova; Filipp E. Komissarenko; Artur Ishteev; A N Tsypkin; Ross Haroldson; Valentin A. Milichko; Dmitry A. Zuev; S. V. Makarov; Anvar A. Zakhidov
Hybrid halide perovskites have emerged as one of the most promising type of materials for thin-film photovoltaic and light-emitting devices. Further boosting their performance is critically important for commercialization. Here we use femtosecond laser for post-processing of organo-metalic perovskite (MAPbI3) films. The high throughput laser approaches include both ablative silicon nanoparticles integration and laser-induced annealing. By using these techniques, we achieve strong enhancement of photoluminescence as well as useful light absorption. As a result, we observed experimentally 10-fold enhancement of absorbance in a perovskite layer with the silicon nanoparticles. Direct laser annealing allows for increasing of photoluminescence over 130%, and increase absorbance over 300% in near-IR range. We believe that the developed approaches pave the way to novel scalable and highly effective designs of perovskite based devices.
ACS Photonics | 2017
S. V. Makarov; Valentin A. Milichko; Elena V. Ushakova; Mikhail Omelyanovich; Andrea Cerdan Pasaran; Ross Haroldson; Balasubramaniam Balachandran; Honglei Wang; Walter Hu; Yuri S. Kivshar; Anvar A. Zakhidov
Nanoscale | 2017
Ekaterina Y. Tiguntseva; A. V. Chebykin; Artur Ishteev; Ross Haroldson; Balasubramaniam Balachandran; Elena V. Ushakova; Filipp E. Komissarenko; Honglei Wang; Valentin A. Milichko; A N Tsypkin; Dmitry A. Zuev; Walter Hu; S. V. Makarov; Anvar A. Zakhidov