Carbon Nanotubes
Links to US Patents and Journal Articles
US Patents
published 6/17/2008
Articles from Week 25 (6/23-6/27) 2008
Go to Listing of Patent Links by Week
Back to the nanotechnology-profit website.
Warning: Sometimes the older Patent links no longer work. Go to the US Patent Patent number search page, copy the Patent number into the search box and search.
Carbon Nanotubes
6/17/2008
7,387,747
Method of making thermal interface material (TIM) with carbon nanotubes (CNT)
7,387,735
Method of isolating semiconducting carbon nanotubes
6/27/2008
Stacking interaction of cytosine with carbon nanotubes: MP2, DFT and Raman
spectroscopy study
(153-158)
Chemical Physics Letters 459 #1-6 (2008)
Alignment of Carbon
Nanotubes in Weak Magnetic Fields
(p 5148-5152)
Angewandte Chemie International Edition 47 #28 (2008)
Abstract
Applications
Arrays
Biology
Chemical Vapor Deposition (CVD)
Coated Carbon Nanotubes
6/27/2008
A Density Functional Study on Transition-Metal-Coated
Single-Walled Carbon Nanotubes
(9128 – 9132)
Journal of Physical Chemistry C 112 #25 (2008)
Abstract
Controlled Release
Dispersions; Nanofluids; Suspensions
Doping
Double Sided Carbon Nanotubes
Electrical Conductivity
Electrochemistry
Electronic Structure
Emission
6/27/2008
A density functional theory study of shake-up satellites in
photoemission of carbon fullerenes and nanotubes
(# 234704)
Journal of Chemical Physics 128 #23 (2008)
Abstract
Fabrication
6/27/2008
Rational design of amphiphilic polymers to make carbon nanotubes
water-dispersible, anti-biofouling, and functionalizable
(2876 – 2878)
Chemical Communications #25 (2008)
Fibers
Filled Carbon Nanotubes
Film
6/27/2008
Experimental characterization of single-walled carbon nanotube film-Si
Schottky contacts using metal-semiconductor-metal structures
(# 243116)
Applied Physics Letters 92 #24 (2008)
Abstract
Effects of diffusion on photocurrent generation in single-walled carbon
nanotube films
(# 243510)
Applied Physics Letters 92 #24 (2008)
Abstract
Functionalized Carbon Nanotubes
6/27/2008
Determining the Diameter of Functionalized
Single-Walled Carbon Nanotubes with 13C NMR: A Theoretical Study
(9267 – 9271)
Journal of Physical Chemistry C 112 #25 (2008)
Abstract
Syntheses, Properties
and Electrochemical Activity of Carbon Microtubes Modified with Amino Groups
(p 1809-1823)
Advanced Functional Materials 18 #12 (2008)
Abstract
Mechanical Properties
Multiwall Nanotubes (MWCNT)
6/27/2008
Synthesis and Thermal Conductivity of Copper
Nanoparticle Decorated Multiwalled Carbon Nanotubes Based Nanofluids
(9315 – 9319)
Journal of Physical Chemistry C 112 #25 (2008)
Abstract
6/27/2008
Dispersion and
noncovalent modification of multiwalled carbon nanotubes by various
polystyrene-based polymers
(p 3525-3532)
Journal of Applied Polymer Science 109 #6 (2008)
Abstract
Effect of ball milling in a tumbling ball mill on the properties of
multi-wall carbon nanotubes
(1350-1356)
Chemical Engineering and Processing 47, #8 (2008)
Pressure dependence of the instability of multiwalled carbon nanotubes conveying
fluids
(637-648)
Archive of Applied Mechanics 78 #8 (2008)
Comparative study on modification of multi-walled carbon nanotubes by a
hydrophilic polymer with different approaches
(5691-5694)
Applied Surface Science 254 #18 (2008)
Direct laser interference patterning of multi-walled carbon nanotube-based
transparent conductive coatings
(5874-5878)
Applied Surface Science 254 #18 (2008)
Nanocomposites
6/27/2008
A low-cost method for producing high-performance nanocomposite thin-films
made from silica and CNTs on cellulose substrates
(4862-4869)
Journal of Materials Science 43 #14 (2008)
Fabrication and performances of epoxy/multi-walled carbon
nanotubes/piezoelectric ceramic composites as rigid piezo-damping materials
(4979-4987)
Journal of Materials Science 43 #14 (2008)
Effect of aging on the reinforcement efficiency of carbon nanotubes in epoxy matrix
6/27/2008
(5020-5022) Journal of Materials Science 43 #14 (2008)
A Microstructure-Level Material
Model for Simulating the Machining of Carbon Nanotube Reinforced Polymer
Composites
(# 031110)
Journal of Manufacturing Science and Engineering 130, #3 (2008)
Abstract
Microstructure-Level Machining
Simulation of Carbon Nanotube Reinforced Polymer Composites—Part I: Model
Development and Validation
(# 031114)
Journal of Manufacturing Science and Engineering 130, #3 (2008)
Abstract
Microstructure-Level Machining
Simulation of Carbon Nanotube Reinforced Polymer Composites—Part II: Model
Interpretation and Application
(# 031115)
Journal of Manufacturing Science and Engineering 130, #3 (2008)
Abstract
Experimental study and theoretical analysis on the mechanical properties of
SWNTs/phenolic composites
(926-932)
Composites Part B: Engineering 39 #6 (2008)
Preparation and characterization of carbon nanotubes-polymer/CdSe hybrid
nanocomposites through combining electrostatic adsorption and ATRP technique
(131-13)
Colloids and Surfaces A: Physicochemical and Engineering Aspects 324 #1-3 (2008)
Comparison of the effective conductivity between composites reinforced
by graphene nanosheets and carbon nanotubes
(# 243121)
Applied Physics Letters 92 #24 (2008)
Abstract
Reversible Infrared
Actuation of Carbon Nanotube-Liquid Crystalline Elastomer Nanocomposites
(p 2271-2275)
Advanced Materials 20 #12 (2008)
Abstract
Individual
Dissolution of Single-Walled Carbon Nanotubes by Using Polybenzimidazole, and
Highly Effective Reinforcement of Their Composite Films
(p 1776-1782)
Advanced Functional Materials 18 #12 (2008)
Abstract
Reactions
Scavengers
Sensors
Single Wall Carbon Nanotubes (SWCNT)
6/27/2008
A Density Functional Study on Transition-Metal-Coated
Single-Walled Carbon Nanotubes
(9128 – 9132)
Journal of Physical Chemistry C 112 #25 (2008)
Abstract
Determining the Diameter of Functionalized
Single-Walled Carbon Nanotubes with 13C NMR: A Theoretical Study
(9267 – 9271)
Journal of Physical Chemistry C 112 #25 (2008)
Abstract
Brownian Dynamics Simulations of Single-Wall Carbon
Nanotube Separation by Type Using Dielectrophoresis
(7467 – 7477)
Journal of Physical Chemistry B 112 #25 (2008)
Abstract
Photoluminescence Recovery from Single-Walled Carbon
Nanotubes on Substrates
(12382 – 12383)
Journal of the American Chemical Society 130 #41 (2008)
Abstract
Experimental study and theoretical analysis on the mechanical properties of
SWNTs/phenolic composites
(926-932)
Composites Part B: Engineering 39 #6 (2008)
6/27/2008
Stabilizing single-walled carbon nanotubes by removal of residual metal
catalysts
(149-152)
Chemical Physics Letters 459 #1-6 (2008)
Photocurrent of CdSe nanocrystals on single-walled carbon nanotube-field
effect transistor
(# 243103)
Applied Physics Letters 92 #24 (2008)
Abstract
Characterization of the disaggregation state of single-walled carbon
nanotube bundles by dielectrophoresis and Raman spectroscopy
(# 243123)
Applied Physics Letters 92 #24 (2008)
Abstract
Effects of diffusion on photocurrent generation in single-walled carbon
nanotube films
(# 243510)
Applied Physics Letters 92 #24 (2008)
Abstract
Effect of different types of pseudopotentials on study of electronic
dispersion for graphene and a (5,5) SWCNT
(371-374)
Applied Physics A Materials Science & Processing 92 #2 (2008)
Individual
Dissolution of Single-Walled Carbon Nanotubes by Using Polybenzimidazole, and
Highly Effective Reinforcement of Their Composite Films
(p 1776-1782)
Advanced Functional Materials 18 #12 (2008)
Abstract
Sorption
Surfaces
Synthesis
Thermal Conductivity
Transformations
Transistors: See Carbon Nanotube Transistors
6/27/2008
Semiconductor-enriched single wall carbon nanotube networks applied to
field effect transistors
(# 243112)
Applied Physics Letters 92 #24 (2008)
Abstract
6/27/2008
Device characteristics of carbon nanotube transistor fabricated by
direct growth method
(# 243115)
Applied Physics Letters 92 #24 (2008)
Abstract
Water Dispersion
XXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXX
Roger D. Corneliussen
Editor
Maro Publications
Maro Alerts|
www.maropolymeronline.com
|www.nanotechnology-profit.com|
Tel: 610 363 9920
Fax: 610 363 9921
E-Mail: cornelrd@bee.net
***********************************
Copyright 2008 by Roger D. Corneliussen.
No part of this transmission is to be duplicated in any manner or forwarded by electronic mail without the express written
permission of Roger D. Corneliussen
**************************************