Hybrid solid state devices

The rate of energy and electron transfer in any of these systems is an ensemble average of all sites within the layered assembly, and thus there is no single rate for any of the processes in the assemblies. Nonetheless, in addition to the increased quantum yield, assemblies constructed with the HTiNbOs spacer exhibit a long-lived charge-separated state component not observed in the a-ZrP spaced assemblies, of x = 900 ps. While there is still much to be learned from the study of multi-chromophore arrays, this synthetic approach appears to hold much promise for the creation of organic-inorganic hybrid solid state devices. 

Moons E, Bruening M, Shanzer A, Beier J, Cahen D (1996) Electron transfer in hybrid molecular solid-state devices. Synth Met 76 245-248... 

Polyoxometalates have found applications in analytical and clinical chemistry, catalysis (including photocatalysis), biochemistry (electron transport inhibition), medicine (antitumoral, antiviral, and even anti-HIV activity), and solid-state device [19,20], Recently, three-dimensional ordered materials are modified by the incorporation of POM into wall structures using a direct synthesis approach [21,22], The motivation for the work lies in the novel properties that POM is introduced into silica networks [19,20], The incorporation is that the POM is linked to silica matrix by covalent grafting. A class of POM that are particularly attractive for the preparation of hybrid materials are the lacunary POM. Lacunary POMs include the mono and divacant unsaturated Keggin fragments [X" W,039]< ">- (X"+=B Ge P [22], [ Y -SiWioOgg] [21], Lacunary... 

Kruger J, Bach U, Gratzel M (2000) Modification of Ti02 heterojunctions with benzoic acid derivatives in hybrid molecular solid-state devices. Adv Mater 12 447... 

J. Kruger, U. Bach, M. Gratzel, Modification of Ti02 Heterojunctions with Benzoic Acid Derivatives in Hybrid Molecular Solid-State Devices, Adv. Mater. 2000, 12, 447-451. 

Higuchi M, Akasaka Y, Ikeda T, Hayashi A, Kurth DG (2009) Electrochromic solid-state devices using organic-metaUic hybrid polymers. J Inoig Oiganomet Polym Mater 19 74-78. doi 10.1007/S10904-008-9243-7... 

N Suzuki, K Yamamoto, S Matsumoto, I Kurosawa, M Aoyagi, S Takada. Fabrication of superconducting NbN gate MOSFET for hybrid circuit applications. Extended Abstracts of 1994, International Conference on Solid State Devices and Materials, Yokohama, Japan, 1994, pp 547-549. 

By the sol-gel-process, inorganic glassy and hybrid polymeric materials are accessible at comparatively low temperatures [1], Therefore, organic molecules or dyes can easily be incorporated into the oxide matrix. This combination is especially attractive for the development of the following devices optical filters, solid-state lasers, optical switches, nonlinear optical laser hosts, optical data storage media, and photoconductive devices and films [2]. 

Photons in quantum optical cavities also constitute excellent qubit candidates [52]. Resonant coupling of atoms with a single mode of the radiation field was experimentally achieved 25 years ago [53], and eventually the coherent coupling of quantum optical cavities with atoms or (simple) molecules was suggested as a means to achieve stable quantum memories in a hybrid quantum processor [54]. There might be a role to play for molecular spin qubits in this kind of hybrid quantum devices that combine solid-state with flying qubits. 

P. G. LeComber and W. E. Spear, The Development of the a-Si H Field-Effect Transistor and Its Possible Applications D. G. Ast, a-Si H FET-Addressed LCD Panel S. Kaneko, Solid-State Image Sensor M. Matsumura, Charge-Coupled Devices M. A. Bosch, Optical Recording A. D Amico and G. Fortmato, Ambient Sensors H. Kukimoto, Amorphous Light-Emitting Devices R. J. Phelan, Jr., Fast Detectors and Modulators J. I. Pankove, Hybrid Structures... 

Adapt integrated electronic/optical/electrochemical models for analysis of advanced a-Si Ge and CIGS photoelectrode configurations, including "hybrid" devices combining solid-state and photoelectrochemical junctions. 

---