Manufacture and characterization of novel ACTFEL materials and devices

Bender, Jeffrey P.

28 July 2003

Graduation date: 2004

Electroluminescent devices

Electroluminescence

Phosphors

Thin film devices

Static space charge in evaporated ZnS:Mn alternating-current thin-film electroluminescent devices

Hitt, John C.

15 August 1997

Graduation date: 1998

Electroluminescent display systems

Thin film devices

Electro-optic characterization of SrS-based alternating current thin-film electroluminescent devices

Nevers, Corey A.

30 April 1999

Two methods of electro-optically characterizing alternating-current thin-film electroluminescent (ACTFEL) devices are investigated: photo-induced transferred charge (PIQ) and luminescence (PIL), and subthreshold voltage-induced transferred charge (VIQ) techniques. Both techniques provide information related to traps within the phosphor layer. PIQ/PIL experiments monitor the transport of electrons and holes across the phosphor layer which are photo-injected by a UV laser pulse. VIQ experiments monitor the optical reset of traps ionized by bipolar subthreshold voltage pulses. PIQ/PIL experiments are performed on three different SrS ACTFEL devices: ALE-deposited SrS:Ce, sputter-deposited SrS:Cu, and undoped MOCVD-deposited SrS. From the PIQ/PIL experiments, two distinct electron thresholds in the luminescent impurity doped samples at ~0.8 (weak threshold) and ~1.2 MV/cm (strong threshold) are observed. These thresholds are independent of the phosphor thickness, indicating that they arise from a bulk property of the phosphor. The ~0.8 MV/cm weak threshold is attributed to field emission of relatively shallow (~0.6 eV) electron-emitting bulk traps (e.g. cerium or oxygen for SrS:Ce; a sulfur vacancy or oxygen for SrS:Cu). The ~1.2 MV/cm strong threshold is ascribed to the onset of trap-to-band impact ionization. In contrast to electron transport, PIQ/PIL studies reveal no hole transport in SrS doped with luminescent impurities, although hole transport is observed for an undoped SrS ACTFEL device. The lack of hole transport is attributed to the efficiency of hole capture in SrS doped with luminescent impurities. VIQ experiments are performed on the same SrS ACTFEL devices. VIQ trap energy depths are estimated as ~0.1 eV for SrS:Ce; ~0.9 eV for SrS:Cu (with a capture cross-section of ,~10�������cm��), and ~0.6 eV for undoped SrS. Tenative atomic identification of traps responsible for these VIQ trends are: chlorine or a Ce shallow donor state for SrS:Ce, a sulfur vacancy for SrS:Cu, and a sulfur vacancy or an oxygen isoelectronic trap for undoped SrS. / Graduation date: 2000

Electroluminescent display systems

Thin film devices

Impact excitation efficiency in AC-driven thin-film electroluminescent devices

Peter, Manuela

08 February 1996

Graduation date: 1996

Electroluminescent display systems

Thin film devices

Characterization of alternating-current thin-film SrS:Ce electroluminescent devices

Thuemler, Robert L.

28 May 1997

Graduation date: 1998

Electroluminescent display systems

Thin film devices

Phosphors

Electrical characterization and aging studies of green ZnS: Tb AC thin-film electroluminescent devices

Kumar, Manoj, 1972-

26 September 1994

Graduation date: 1995

Thin film devices

Electroluminescent devices

Epitaxy

Development and characterization of AlInN as an alternating-current thin-film electroluminescent display phosphor

Mueller, Matthew R.

08 September 1994

Graduation date: 1995

Electroluminescent display systems

Thin film devices

ACTFEL phosphor deposition by RF sputtering

Ang, Wie Ming

18 December 1992

Graduation date: 1993

Electroluminescent devices

Thin film devices

Sputtering (Physics)

Investigation on Thin Film Lithium Microbatteries

Shi, Z., Lü, L., Ceder, Gerbrand

01 1900

Thin film lithium microbatteries were investigated in this project in which LiCoO₂ cathodes about 200 to 500 nm were fabricated by pulsed-laser deposition (PLD) at different processing parameters such as laser energy and fluence, substrate temperature, background gas pressure, and target-substrate distance. Structure, microstructure and composition of as-deposited LiCoO₂ films were determined by XRD, SEM and XPS. Optimal deposition parameters were identified. Relaxation of open-circuit voltage of as-prepared cells and charge-discharge cycling were conducted to characterize the electrochemical properties of microbatteries made of these LiCoO₂ films. / Singapore-MIT Alliance (SMA)

thin film lithium microbatteries

pulsed-laser deposition

Electrical characterization of thin film CdTe solar cells

Desai, Darshini.

January 2007

Thesis (Ph.D.)--University of Delaware, 2006. / Principal faculty advisor: Robert G. Hunsperger, Dept. of Electrical and Computer Engineering. Includes bibliographical references.