Prinzipien der Syntheseplanung in der anorganischen Festkörperchemie: Analyse der Phasenbildung in Systemen M/P/Te, M = Ti,Ce,Si

Philipp, Frauke

07 January 2009

Die ternären Systeme Ti/P/Te, Ce/P/Te und Si/P/Te wurden in der vorliegenden Dissertation hinsichtlich der Existenz neuer Verbindungen untersucht. Diese Verbindungen wurden insbesondere in Bezug auf ihre thermochemischen Eigenschaften charakterisiert. Durch Kombination von experimentellen Untersuchungen und thermodynamischen Modellierungen der ablaufenden Festkörper-Gasphasen-Gleichgewichte konnten die Synthesen der neuen Verbindungen optimiert werden. Abschließend erfolgte zudem die physikalische und kristallographische Charakterisierung der gefundenen Phosphidtelluride.

info:eu-repo/classification/ddc/540

ddc:540

Improving Performance in Cadmium Telluride Solar Cells: From Fabrication to Understanding the Pathway Towards 25% Efficiency

Liyanage, Geethika Kaushalya

January 2021

No description available.

Physics

Materials Science

Cadmium Telluride

TCO/emitter alignment

front contact alignment

band bending back-buffer

initial Fermi level offset

conduction band offset

back-contact barrier

Performance of Marlow Materials in a Transverse Peltier Cooler

Verosky, Mark

08 October 2020

No description available.

Materials Science

Mechanical Engineering

Physics

transverse

Peltier

thermoelectric

cooler

semiconductor

electronic cooling

heat transfer

bismuth telluride

Be2Te3 based thermoelectric

commercial thermoelectric materials

Joule heating

Schottky barrier

Selective Deposition of Metallic and Semiconductor Materials onto DNA Templates for Nanofabrication

Liu, Jianfei

30 November 2011

This work examines the selective deposition of metallic and semiconductor materials onto DNA templates for the fabrication of nanodevices. DNA origami provides a simple and robust method for folding DNA into a variety of shapes and patterns and makes it possible to create the complex templates needed for nanodevices, such as nanoelectronic circuits, plasmonics, and nanosensors. Metallization of DNA origami templates is essential for the fabrication of such nanodevices. In addition, selective deposition of semiconductor materials onto the DNA template is of importance for making many nanodevices such as nanocircuits. Metallization of DNA origami presents several challenges beyond those associated with the metallization of other DNA templates such as λ-DNA. All of these challenges were addressed in this study. DNA origami templates were seeded with Ag and then plated with Au via electroless deposition. Selective continuous metal deposition was achieved, with an average metallized height as small as 32 nm. The structure of T-shaped DNA origami was also retained after metallization. Following the metallization of complete origami, site-specific metallization of branched DNA origami was also demonstrated. To achieve this, staple strands at select locations on origami were replaced with staple strands modified with binding sites at the end. These binding sites then attached to thiolated DNA coated Au nanoparticles through base pairing. The continuous Au nanowires formed at designated sites on DNA origami after Au plating had an average width of 33 nm, with the smallest ones ~20 nm wide. The continuity of nanowires was verified by conductivity tests- the only tests of this nature of which I am aware. Moreover, predesigned sites on "circuit-shaped" DNA origami were successfully metallized. The selective deposition of a variety of materials onto DNA templates for the formation of continuous DNA-templated nanowires was also demonstrated. Specifically, an electroless Ni plating solution was developed to enable the fabrication of uniform and continuous DNA-templated Ni nanowires. Tests showed that these DNA-templated Ni nanowires were conductive. Moreover, continuous DNA-templated Bi2Te3 and/or Te nanowires have been fabricated through galvanic displacement of DNA-templated Ni and Cu nanowires. Altogether, these results represent important progress toward the realization of DNA-templated nanofabrication.

DNA origami

metallization

electroless plating

nanowire

site-specific

nickel

gold

silver

copper

semiconductor

tellurium

bismuth telluride

conductivity test

nanocircuits

Chemical Engineering

Photocurrent Spectroscopy of CdS/Plastic, CdS/Glass, and ZnTe/GaAs Hetero-pairs Formed with Pulsed-laser Deposition

Acharya, Krishna Prasad

01 July 2009

No description available.

Chemistry

Energy

Materials Science

Physics

Pulsed-laser deposition

Photocurrent Spectra

Photocurrent Quenching

Photonic Doping

Semiconductor

Plastic

Thin Films

Cadmium Sulfide

Zinc Telluride

Gallium Arsenide

Hetero-structures

Synthesis and Property Characterization of Novel Ternary Semiconductor Nanomaterials

Mao, Baodong

26 June 2012

No description available.

Chemistry

Materials Science

Nanoscience

semiconductor nanocrystals

quantum dots

alloying

doping

ternary

I-III-VI

AgInS2

ZnS

copper sulfide

bismuth antimony telluride

photovoltaics

thermoelectrics

Accurate Determination of Nonlinear Optical Properties of Cadmium Magnesium Telluride

Lombardo, David

27 May 2015

No description available.

Optics

Physics

Materials Science

CdMgTe

Cadmium Magnesium Telluride

2PA

Two Photon Absorption

Nonlinear Optics

Nonlinear Refraction

Nonlinear Absorption

Z-Scan

I-Scan

Intensity Scan

Sb-Te Phase-change Materials under Nanoscale Confinement

Ihalawela, Chandrasiri A.

15 July 2016

No description available.

Materials Science

Condensed Matter Physics

Chemistry

Antimony Telluride

Phase-change Nanowires

Charge Carrier Processes in Photovoltaic Materials and Devices: Lead Sulfide Quantum Dots and Cadmium Telluride

Roland, Paul Joseph

January 2015

No description available.

Physics

Solid State Physics

Temperature-dependence

Charge Carrier Transport

Semiconductor Point Defects

Lead Sulfide Quantum Dots

Cadmium Telluride

Photoluminescence

Time Correlated Single Photon Counting

Photovoltaics

Development of Deposition and Characterization Systems for Thin Film Solar Cells

Cimaroli, Alexander J.

January 2016

No description available.

Solid State Physics

Zinc Phosphide

Cadmium Telluride

Thin Film

Solar Cell

Photovoltaic

Close-space Sublimation

Hysteresis

Perovskite

Maximum Power Point Tracking