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05817nam a2200709 4500 |
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ocn918561542 |
| 003 |
OCoLC |
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20170124072506.9 |
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m o d |
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cr cnu|||unuuu |
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150814s2015 gw ob 001 0 eng d |
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|a N$T
|b eng
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|d N$T
|d IDEBK
|d YDXCP
|d OCLCF
|d EBLCP
|d DG1
|d CDX
|d COO
|d OCLCQ
|d DEBBG
|d KSU
|d GrThAP
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| 019 |
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|a 918931343
|a 919103574
|a 920859515
|a 923713977
|a 924290525
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|a 9783527680023
|q electronic bk.
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|a 3527680020
|q electronic bk.
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|z 9783527336661
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|a 9783527680016
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|a 3527680012
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|a 3527336664
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|a 9783527336661
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|a 10.1002/9783527680016
|2 doi
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|a AU@
|b 000056117012
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|a GBVCP
|b 835787419
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|b BV043397990
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|a (OCoLC)918561542
|z (OCoLC)918931343
|z (OCoLC)919103574
|z (OCoLC)920859515
|z (OCoLC)923713977
|z (OCoLC)924290525
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4 |
|a TK2896
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|a TEC
|x 009070
|2 bisacsh
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|a 621.042
|2 23
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| 049 |
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|a MAIN
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| 245 |
0 |
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|a Nanocarbons for advanced energy conversion.
|n volume 2 /
|c edited by Xinliang Feng.
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| 264 |
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1 |
|a Weinheim, Germany :
|b Wiley-VCH,
|c 2015.
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| 264 |
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4 |
|c ©2015
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| 300 |
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|a 1 online resource.
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| 336 |
|
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|a text
|b txt
|2 rdacontent
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| 337 |
|
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|a computer
|b c
|2 rdamedia
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| 338 |
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|a online resource
|b cr
|2 rdacarrier
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| 490 |
1 |
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|a Advanced nanocarbon materials
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| 588 |
0 |
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|a Online resource; title from PDF title page (EBSCO, viewed August 17, 2015).
|
| 504 |
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|a Includes bibliographical references and index.
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| 505 |
0 |
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|a ""Cover -- Title Page -- Copyright -- Contents -- List of Contributors -- Preface -- Chapter 1 Heteroatom-Doped Carbon Nanotubes as Advanced Electrocatalysts for Oxygen Reduction Reaction -- 1.1 Introduction -- 1.2 Experimental Evaluation of Electrocatalytic Activity toward ORR -- 1.3 Doped Carbon Nanotubes for ORR -- 1.3.1 Carbon Nanotubes Doped with Nitrogen -- 1.3.2 Carbon Nanotubes Doped with Heteroatoms Other Than Nitrogen -- 1.4 Conclusions -- Acknowledgments -- References -- Chapter 2 Doped Graphene as Electrocatalysts for Oxygen Reduction Reaction""
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| 505 |
8 |
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|a ""2.1 Introduction -- 2.2 Active Sites and Mechanisms of ORR on Doped Graphene -- 2.2.1 ORR Mechanism on Doped Graphene -- 2.2.2 The Active Site of Doped Graphene for ORR -- 2.3 Synthesis and Performance of Doped Graphene -- 2.3.1 Nitrogen-Doped Graphene -- 2.3.2 Synthesis and Performance of Other Heteroatom-Doped Graphene -- 2.3.2.1 B-Doped Graphene -- 2.3.2.2 S-Doped Graphene -- 2.3.2.3 P and Other Heteroatom-Doped Graphene -- 2.4 Conclusions and Perspective -- References -- Chapter 3 Heteroatom-Doped Nanoporous Carbon for Electrocatalysis -- 3.1 Introduction""
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| 505 |
8 |
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|a ""3.2 Synthesis of Doped Nanoporous Carbons -- 3.2.1 Synthesis of Heteroatom-Doped Ordered Mesoporous Carbons -- 3.2.1.1 Self-Assembling of Heteroatom-Rich Carbon Precursors through a Soft-Templating Method -- 3.2.1.2 Posttreatment of Ordered Mesoporous Carbon Framework with Heteroatom-Rich Chemicals -- 3.2.1.3 Hard-Templating Method with One-Step Doping Using Heteroatom-Rich Carbon Precursors -- 3.2.2 Synthesis of Doped Porous Graphene -- 3.2.2.1 Vapor-Assisted Method -- 3.2.2.2 Liquid-Phase Method -- 3.3 Heteroatom-Doped Nanoporous Carbons for Electrocatalysis""
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| 505 |
8 |
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|a ""3.3.1 Oxygen Reduction Reaction (ORR) -- 3.3.2 Doped Ordered Mesoporous Carbon for ORR -- 3.3.3 Doped Graphene for ORR -- 3.3.3.1 Single Heteroatom-Doped Graphene -- 3.3.3.2 Dual-Doped Graphene -- 3.3.3.3 Doped Graphene-Based Nanocomposites -- 3.3.4 Other Electrochemical Systems -- 3.4 Summary and Perspectives -- References -- Chapter 4 Nanocarbon-Based Nonprecious-Metal Electrocatalysts for Oxygen Reduction in Various Electrolytes -- 4.1 Introduction -- 4.2 Oxygen Reduction in Acidic Media -- 4.2.1 Heat-Treated Macrocyclic Compounds""
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| 505 |
8 |
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|a ""4.2.2 Heat-Treated Nonmacrocyclic Catalysts -- 4.2.2.1 Nitrogen Precursors -- 4.2.2.2 Type of Transition Metals -- 4.2.2.3 Effect of Supports -- 4.2.2.4 Heating Temperatures -- 4.2.3 Importance of in situ Formed Graphitic Nanocarbons -- 4.3 Oxygen Reduction in Alkaline Media -- 4.3.1 Metal-Free Carbon Catalysts -- 4.3.1.1 Nitrogen-Doped Carbon -- 4.3.1.2 Boron and Sulfur Doping -- 4.3.1.3 Binary and Ternary Dopants -- 4.3.2 Heat-Treated M-N-C (M: Fe, Co) Catalysts -- 4.3.3 Nanocarbon/Transition Metal Compound Hybrids""
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| 520 |
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|a In this second volume in the first book series on nanocarbons for advanced applications the highly renowned series and volume editor has put together a top author team of internationally acclaimed experts on carbon materials. Divided into three major parts, this reference provides a current overview of the design, synthesis, and characterization of nanocarbons, such as carbon nanotubes, fullerenes, graphenes, and porous carbons for energy conversion applications. It covers such varied topics as electrocatalysts for oxygen reduction reactions in the different types of fuel cells, metal-air bat.
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| 650 |
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0 |
|a Energy conversion.
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| 650 |
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0 |
|a Carbon.
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| 650 |
|
0 |
|a Nanotechnology.
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| 650 |
|
7 |
|a TECHNOLOGY & ENGINEERING / Mechanical
|2 bisacsh
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| 650 |
|
7 |
|a Carbon.
|2 fast
|0 (OCoLC)fst00846775
|
| 650 |
|
7 |
|a Energy conversion.
|2 fast
|0 (OCoLC)fst00910026
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| 650 |
|
7 |
|a Nanotechnology.
|2 fast
|0 (OCoLC)fst01032639
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| 650 |
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4 |
|a Biomimetic materials.
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| 650 |
|
4 |
|a Nanobiotechnology.
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| 650 |
|
4 |
|a Nanocarbons.
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| 655 |
|
4 |
|a Electronic books.
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| 655 |
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0 |
|a Electronic books.
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| 700 |
1 |
|
|a Feng, Xinliang,
|e editor.
|
| 776 |
0 |
8 |
|i Print version:
|a Feng, Xinliang
|t Nanocarbons for Advanced Energy Conversion
|d : Wiley,c2015
|z 9783527336661
|
| 830 |
|
0 |
|a Advanced nanocarbon materials.
|
| 856 |
4 |
0 |
|u https://doi.org/10.1002/9783527680016
|z Full Text via HEAL-Link
|
| 994 |
|
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|a 92
|b DG1
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