The Resource Nanomaterials in glucose sensing, Krishna Burugapalli, Ning Wang, Jakub Trzebinski, Wenhui Song, Anthony Cass
Nanomaterials in glucose sensing, Krishna Burugapalli, Ning Wang, Jakub Trzebinski, Wenhui Song, Anthony Cass
Resource Information
The item Nanomaterials in glucose sensing, Krishna Burugapalli, Ning Wang, Jakub Trzebinski, Wenhui Song, Anthony Cass represents a specific, individual, material embodiment of a distinct intellectual or artistic creation found in University of Missouri-St. Louis Libraries.This item is available to borrow from 1 library branch.
Resource Information
The item Nanomaterials in glucose sensing, Krishna Burugapalli, Ning Wang, Jakub Trzebinski, Wenhui Song, Anthony Cass represents a specific, individual, material embodiment of a distinct intellectual or artistic creation found in University of Missouri-St. Louis Libraries.
This item is available to borrow from 1 library branch.
- Summary
- The smartness of nano-materials is attributed to their nanoscale and subsequently unique physicochemical properties and their use in glucose sensing has been aimed at improving performance, reducing cost and miniaturizing the sensor and its associated instrumentation. So far, portable (handheld) glucose analysers were introduced for hospital wards, emergency rooms and physicians' offices; single-use strip systems achieved nanolitre sampling for painless and accurate home glucose monitoring; advanced continuous monitoring devices having 2 to 7 days operating life are in clinical and home use; and continued research efforts are being made to develop and introduce increasingly advanced glucose monitoring systems for health as well as for food, biotechnology, cell and tissue culture industries. Nanomaterials have touched every aspect of biosensor design and this monograph reviews their role in the development of advanced technologies for glucose sensing, and especially for diabetes management
- Language
- eng
- Extent
- 1 online resource (1 PDF (59 pages))
- Contents
-
- Abstract -- 1. Introduction
- 2. Need for glucose sensing
- 3. Signal generation and detection of glucose -- 3.1 Electrochemical methods -- 3.1.1 Direct (non-enzymatic) oxidation or reduction of glucose at an electrode -- 3.1.2 Indirect oxidation or reduction of glucose at an electrode -- 3.1.2.1 First-generation sensors -- 3.1.2.2 Second-generation sensors -- 3.1.2.3 Third-generation sensors -- 3.2 Optical methods -- 3.2.1 Direct spectroscopic methods -- 3.2.2 Indirect spectroscopic methods -- 3.2.3 Glucose-specific affinity-based methods
- 4. Nano-materials generating or enhancing glucose measuring signal -- 4.1 Non-enzymatic electrochemical glucose sensing -- 4.2 Non-enzymatic optical glucose sensing -- 4.3 Indirect enzymatic glucose sensing -- 4.3.1 Measuring O2 depletion -- 4.3.2 Measuring H2O2 production -- 4.3.3 Measuring pH changes -- 4.3.4 Enzymatic optical glucose sensing -- 4.4 Direct enzymatic glucose sensing -- 4.4.1 Diffusionally mediated amperometric biosensors -- 4.4.2 Electrical wiring of enzyme's redox centres to the electrode
- 5. Smart membranes for glucose sensing -- 5.1 Membranes to entrap or immobilize enzyme or affinity molecules -- 5.2 Membranes for diminishing interferents -- 5.3 Widening the dynamic (linear) measuring range -- 5.4 Strategies to reliably extend the in vivo clinical life of implantable glucose biosensors
- 6. Summary and future direction
- Isbn
- 9780791860274
- Label
- Nanomaterials in glucose sensing
- Title
- Nanomaterials in glucose sensing
- Statement of responsibility
- Krishna Burugapalli, Ning Wang, Jakub Trzebinski, Wenhui Song, Anthony Cass
- Subject
-
- Glucose tolerance tests
- HEALTH & FITNESS -- Diseases | General
- Health & Biological Sciences
- Hexoses
- Investigative Techniques
- MEDICAL -- Clinical Medicine
- MEDICAL -- Diseases
- MEDICAL -- Evidence-Based Medicine
- MEDICAL -- Internal Medicine
- Manufactured Materials
- Medicine
- Molecular Probe Techniques
- Monosaccharides
- Nanomedicine
- Nanomedicine
- Nanostructures
- Technology, Industry, and Agriculture
- Biosensing Techniques
- Blood Glucose
- Carbohydrates
- Clinical Endocrinology
- Glucose
- Glucose tolerance tests
- Language
- eng
- Summary
- The smartness of nano-materials is attributed to their nanoscale and subsequently unique physicochemical properties and their use in glucose sensing has been aimed at improving performance, reducing cost and miniaturizing the sensor and its associated instrumentation. So far, portable (handheld) glucose analysers were introduced for hospital wards, emergency rooms and physicians' offices; single-use strip systems achieved nanolitre sampling for painless and accurate home glucose monitoring; advanced continuous monitoring devices having 2 to 7 days operating life are in clinical and home use; and continued research efforts are being made to develop and introduce increasingly advanced glucose monitoring systems for health as well as for food, biotechnology, cell and tissue culture industries. Nanomaterials have touched every aspect of biosensor design and this monograph reviews their role in the development of advanced technologies for glucose sensing, and especially for diabetes management
- Cataloging source
- NYMPP
- http://library.link/vocab/creatorName
- Burugapalli, Krishna
- Dewey number
- 616.4
- Index
- no index present
- Language note
- English
- LC call number
- RC660
- LC item number
- .B875 2014
- Literary form
- non fiction
- Nature of contents
-
- dictionaries
- abstracts summaries
- bibliography
- NLM call number
- QY 470
- NLM item number
- B875n 2014
- http://library.link/vocab/relatedWorkOrContributorName
-
- Wang, Ning
- Trzebinski, Jakub
- Song, Wenhui
- Cass, A. E. G.
- Series statement
- Biomedical and nanomedical technologies
- http://library.link/vocab/subjectName
-
- Glucose tolerance tests
- Nanomedicine
- Glucose
- Manufactured Materials
- Molecular Probe Techniques
- Hexoses
- Technology, Industry, and Agriculture
- Investigative Techniques
- Monosaccharides
- Carbohydrates
- Biosensing Techniques
- Blood Glucose
- Nanostructures
- HEALTH & FITNESS
- MEDICAL
- MEDICAL
- MEDICAL
- MEDICAL
- Glucose tolerance tests
- Nanomedicine
- Medicine
- Health & Biological Sciences
- Clinical Endocrinology
- Target audience
-
- adult
- specialized
- Label
- Nanomaterials in glucose sensing, Krishna Burugapalli, Ning Wang, Jakub Trzebinski, Wenhui Song, Anthony Cass
- Bibliography note
- Includes bibliographical references (pages 39-59)
- Carrier category
- online resource
- Carrier category code
-
- cr
- Carrier MARC source
- rdacarrier
- Color
- multicolored
- Content category
- text
- Content type code
-
- txt
- Content type MARC source
- rdacontent
- Contents
-
- Abstract -- 1. Introduction
- 2. Need for glucose sensing
- 3. Signal generation and detection of glucose -- 3.1 Electrochemical methods -- 3.1.1 Direct (non-enzymatic) oxidation or reduction of glucose at an electrode -- 3.1.2 Indirect oxidation or reduction of glucose at an electrode -- 3.1.2.1 First-generation sensors -- 3.1.2.2 Second-generation sensors -- 3.1.2.3 Third-generation sensors -- 3.2 Optical methods -- 3.2.1 Direct spectroscopic methods -- 3.2.2 Indirect spectroscopic methods -- 3.2.3 Glucose-specific affinity-based methods
- 4. Nano-materials generating or enhancing glucose measuring signal -- 4.1 Non-enzymatic electrochemical glucose sensing -- 4.2 Non-enzymatic optical glucose sensing -- 4.3 Indirect enzymatic glucose sensing -- 4.3.1 Measuring O2 depletion -- 4.3.2 Measuring H2O2 production -- 4.3.3 Measuring pH changes -- 4.3.4 Enzymatic optical glucose sensing -- 4.4 Direct enzymatic glucose sensing -- 4.4.1 Diffusionally mediated amperometric biosensors -- 4.4.2 Electrical wiring of enzyme's redox centres to the electrode
- 5. Smart membranes for glucose sensing -- 5.1 Membranes to entrap or immobilize enzyme or affinity molecules -- 5.2 Membranes for diminishing interferents -- 5.3 Widening the dynamic (linear) measuring range -- 5.4 Strategies to reliably extend the in vivo clinical life of implantable glucose biosensors
- 6. Summary and future direction
- Control code
- 865580320
- Dimensions
- unknown
- Extent
- 1 online resource (1 PDF (59 pages))
- File format
- multiple file formats
- Form of item
- online
- Isbn
- 9780791860274
- Media category
- computer
- Media MARC source
- rdamedia
- Media type code
-
- c
- http://library.link/vocab/ext/overdrive/overdriveId
- cl0500000369
- Reformatting quality
- access
- Specific material designation
- remote
- System control number
- (OCoLC)865580320
- Label
- Nanomaterials in glucose sensing, Krishna Burugapalli, Ning Wang, Jakub Trzebinski, Wenhui Song, Anthony Cass
- Bibliography note
- Includes bibliographical references (pages 39-59)
- Carrier category
- online resource
- Carrier category code
-
- cr
- Carrier MARC source
- rdacarrier
- Color
- multicolored
- Content category
- text
- Content type code
-
- txt
- Content type MARC source
- rdacontent
- Contents
-
- Abstract -- 1. Introduction
- 2. Need for glucose sensing
- 3. Signal generation and detection of glucose -- 3.1 Electrochemical methods -- 3.1.1 Direct (non-enzymatic) oxidation or reduction of glucose at an electrode -- 3.1.2 Indirect oxidation or reduction of glucose at an electrode -- 3.1.2.1 First-generation sensors -- 3.1.2.2 Second-generation sensors -- 3.1.2.3 Third-generation sensors -- 3.2 Optical methods -- 3.2.1 Direct spectroscopic methods -- 3.2.2 Indirect spectroscopic methods -- 3.2.3 Glucose-specific affinity-based methods
- 4. Nano-materials generating or enhancing glucose measuring signal -- 4.1 Non-enzymatic electrochemical glucose sensing -- 4.2 Non-enzymatic optical glucose sensing -- 4.3 Indirect enzymatic glucose sensing -- 4.3.1 Measuring O2 depletion -- 4.3.2 Measuring H2O2 production -- 4.3.3 Measuring pH changes -- 4.3.4 Enzymatic optical glucose sensing -- 4.4 Direct enzymatic glucose sensing -- 4.4.1 Diffusionally mediated amperometric biosensors -- 4.4.2 Electrical wiring of enzyme's redox centres to the electrode
- 5. Smart membranes for glucose sensing -- 5.1 Membranes to entrap or immobilize enzyme or affinity molecules -- 5.2 Membranes for diminishing interferents -- 5.3 Widening the dynamic (linear) measuring range -- 5.4 Strategies to reliably extend the in vivo clinical life of implantable glucose biosensors
- 6. Summary and future direction
- Control code
- 865580320
- Dimensions
- unknown
- Extent
- 1 online resource (1 PDF (59 pages))
- File format
- multiple file formats
- Form of item
- online
- Isbn
- 9780791860274
- Media category
- computer
- Media MARC source
- rdamedia
- Media type code
-
- c
- http://library.link/vocab/ext/overdrive/overdriveId
- cl0500000369
- Reformatting quality
- access
- Specific material designation
- remote
- System control number
- (OCoLC)865580320
Subject
- Glucose tolerance tests
- HEALTH & FITNESS -- Diseases | General
- Health & Biological Sciences
- Hexoses
- Investigative Techniques
- MEDICAL -- Clinical Medicine
- MEDICAL -- Diseases
- MEDICAL -- Evidence-Based Medicine
- MEDICAL -- Internal Medicine
- Manufactured Materials
- Medicine
- Molecular Probe Techniques
- Monosaccharides
- Nanomedicine
- Nanomedicine
- Nanostructures
- Technology, Industry, and Agriculture
- Biosensing Techniques
- Blood Glucose
- Carbohydrates
- Clinical Endocrinology
- Glucose
- Glucose tolerance tests
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<div class="citation" vocab="http://schema.org/"><i class="fa fa-external-link-square fa-fw"></i> Data from <span resource="http://link.umsl.edu/portal/Nanomaterials-in-glucose-sensing-Krishna/-92SFpzklXs/" typeof="Book http://bibfra.me/vocab/lite/Item"><span property="name http://bibfra.me/vocab/lite/label"><a href="http://link.umsl.edu/portal/Nanomaterials-in-glucose-sensing-Krishna/-92SFpzklXs/">Nanomaterials in glucose sensing, Krishna Burugapalli, Ning Wang, Jakub Trzebinski, Wenhui Song, Anthony Cass</a></span> - <span property="potentialAction" typeOf="OrganizeAction"><span property="agent" typeof="LibrarySystem http://library.link/vocab/LibrarySystem" resource="http://link.umsl.edu/"><span property="name http://bibfra.me/vocab/lite/label"><a property="url" href="http://link.umsl.edu/">University of Missouri-St. Louis Libraries</a></span></span></span></span></div>
