eprintid: 6396
rev_number: 4
userid: 6
dir: disk0/00/00/63/96
datestamp: 2011-11-10 19:31:46
lastmod: 2016-11-15 13:36:39
status_changed: 2011-11-10 19:31:46
type: thesis_degree
metadata_visibility: show
contact_email: drk4@pitt.edu
item_issues_count: 0
eprint_status: archive
creators_name: Kauffman, Douglas R.
creators_email: drk4@pitt.edu
creators_id: DRK4
title: Spectroscopic and Electrical Investigations into Chemical Interactions with Carbon Nanotubes
ispublished: unpub
divisions: sch_as_chemistry
full_text_status: public
keywords: analytical chemistry; carbon nanotubes; chemical sensor
abstract: Decorating single-walled carbon nanotubes (SWNTs) with appropriate nanoparticle species or polymeric layers can induce unique chemical sensitivities and/or catalytic activities. The approach of decorating SWNTs with various chemically sensitive materials is advantageous because undecorated SWNTs are only inherently sensitive towards a limited range of molecules. Because they are electrically conductive and optically active, the enhanced chemical sensitivity of decorated SWNTs can be exploited for the development of chemical sensors or catalytic platforms. Of particular interest are the transduction mechanisms between the decoration layer and underlying SWNTs, which serves to signal the adsorption and/or reaction of particular molecular species at the SWNT surface.A variety of techniques have been employed to characterize the properties of decorated SWNTs towards the development of chemical sensors and catalytic platforms. In particular, a combination of optical spectroscopy, electrochemistry and solid-state electrical transport measurements provide real-time information into the charge transfer occurring at the decorated SWNT surface. This information provides valuable mechanistic insight into the electronic processes that dictate sensor response or catalyst efficiency.Using the above-mentioned techniques, we have demonstrated that charge transfer between SWNTs and adsorbing gaseous species creates simultaneous and complimentary changes in the optical spectroscopy and electrical transport properties of SWNTs. Moreover, our approach has allowed us to developed mechanistic descriptions of the interaction between adsorbing gas molecules and the decorated SWNT networks. The decorated SWNT system has potential applications in the field of chemical sensors and heterogeneous catalysis, and a fundamental understanding of the chemical processes may lead to better chemical sensors and/or catalysts.
date: 2010-06-18
date_type: completed
institution: University of Pittsburgh
refereed: TRUE
etdcommittee_type: committee_chair
etdcommittee_type: committee_member
etdcommittee_type: committee_member
etdcommittee_type: committee_member
etdcommittee_name: Star, Alexander
etdcommittee_name: Pratt, David W.
etdcommittee_name: Yun, Minhee
etdcommittee_name: Amemiya, Shigeru
etdcommittee_email: astar@pitt.edu
etdcommittee_email: pratt@pitt.edu
etdcommittee_email: yunmh@engr.pitt.edu
etdcommittee_email: amemiya@pitt.edu
etdcommittee_id: ASTAR
etdcommittee_id: PRATT
etdcommittee_id: MIY16
etdcommittee_id: AMEMIYA
etd_defense_date: 2010-03-24
etd_approval_date: 2010-06-18
etd_submission_date: 2010-02-23
etd_access_restriction: immediate
etd_patent_pending: FALSE
assigned_doi: doi:10.5195/pitt.etd.2011.6396
thesis_type: dissertation
degree: PhD
committee: Alexander Star (astar@pitt.edu) - Committee Chair
committee: David W. Pratt (pratt@pitt.edu) - Committee Member
committee: Minhee Yun (yunmh@engr.pitt.edu) - Committee Member
committee: Shigeru Amemiya (amemiya@pitt.edu) - Committee Member
etdurn: etd-02232010-092719
other_id: http://etd.library.pitt.edu/ETD/available/etd-02232010-092719/
other_id: etd-02232010-092719
citation:   Kauffman, Douglas R.  (2010) Spectroscopic and Electrical Investigations into Chemical Interactions with Carbon Nanotubes.  Doctoral Dissertation, University of Pittsburgh.    (Unpublished)  
document_url: http://d-scholarship-dev.library.pitt.edu/6396/1/Douglas_R_Kauffman_ETD_2010.pdf