Nanoporous carbide-derived carbon with tunable pore size. - Wikidata - wikimedia - TriplyDB

Nanoporous carbide-derived carbon with tunable pore size.

Nanoporous carbide-derived carbon with tunable pore size.

http://www.wikidata.org/entity/Q34220962

about

Influence of Structural Heterogeneity on Diffusion of CH4 and CO2 in Silicon Carbide-Derived Nanoporous Carbon Materials Design and System Construction for Conventional and New-Concept Supercapacitors Graphene from amorphous titanium carbide by chlorination under 200 °C and atmospheric pressures Computational Insights into Materials and Interfaces for Capacitive Energy Storage Direct transformation of amorphous silicon carbide into graphene under low temperature and ambient pressure Ultrahigh gas storage both at low and high pressures in KOH-activated carbonized porous aromatic frameworks.Electrochemical analysis based on nanoporous structures.Nanomaterials for energy conversion and storage.Computer simulations of ionic liquids at electrochemical interfaces.Carbons and electrolytes for advanced supercapacitors.A review of molecular modelling of electric double layer capacitors.Highly microporous nitrogen-doped carbon synthesized from azine-linked covalent organic framework and its supercapacitor function.Searching for DFT-based methods that include dispersion interactions to calculate the physisorption of H2 on benzene and graphene.Microsupercapacitors as miniaturized energy-storage components for on-chip electronics.High-Surface-Area, Emulsion-Templated Carbon Foams by Activation of polyHIPEs Derived from Pickering Emulsions.Interionic interactions in conducting nanoconfinement.Generalization of the Gouy-Chapman-Stern model of an electric double layer for a morphologically complex electrode: deterministic and stochastic morphologies.Enhanced electrochemical reactions of 1,4-benzoquinone at nanoporous electrodes.Adsorptive behavior of CO2, CH4 and their mixtures in carbon nanospace: a molecular simulation study.A mimetic porous carbon model by quench molecular dynamics simulation.A zeolitic porous lithium-organic framework constructed from cubane clusters.Bioinspired carbide-derived carbons with hierarchical pore structure for the adsorptive removal of mercury from aqueous solution.The Ti3 AlC2 MAX Phase as an Efficient Catalyst for Oxidative Dehydrogenation of n-Butane.Highly confined ions store charge more efficiently in supercapacitors.Hierarchical porous nitrogen-rich carbon nanospheres with high and durable capabilities for lithium and sodium storage.Synthesis of Ordered Mesoporous Carbon Materials by Dry Etching.A Review of Carbon Nanomaterials' Synthesis via the Chemical Vapor Deposition (CVD) Method.High-performance solid state supercapacitors assembling graphene interconnected networks in porous silicon electrode by electrochemical methods using 2,6-dihydroxynaphthalen.Carbide-Derived Carbons - From Porous Networks to Nanotubes and Graphene Effects of structural properties of silicon carbide-derived carbons on their electrochemical double-layer capacitance in aqueous and organic electrolytes Nanosized LiFePO4-decorated emulsion-templated carbon foam for 3D micro batteries: a study of structure and electrochemical performance Synthesis of Carbon/Sulfur Nanolaminates by Electrochemical Extraction of Titanium from Ti2 SC Hexagonal nickel oxide nanoplate-based electrochemical supercapacitor Electrochemical capacitors utilising transition metal oxides: an update of recent developments Fast diffusion supercapacitors via an ultra-high pore volume of crumpled 3D structure reduced graphene oxide activation Influence of carbon substrate on the electrochemical performance of carbon/manganese oxide hybrids in aqueous and organic electrolytes The Importance of Pore Size and Surface Polarity for Polysulfide Adsorption in Lithium Sulfur Batteries Nanoporous Carbide-Derived Carbons as Electrode Materials in Electrochemical Double-Layer Capacitors Emulsion soft templating of carbide-derived carbon nanospheres with controllable porosity for capacitive electrochemical energy storage Micro- and Mesoporous Carbide-Derived Carbon-Selenium Cathodes for High-Performance Lithium Selenium Batteries

P2860

Q30580421-1BF636D7-6D4D-4FAE-BB49-43ABA442C5A1 Q33806308-A4D03FB8-DDBE-4466-BC21-50BD4601CAFD Q33820200-B2F6631B-DC76-495E-9310-8FBE0A998CB4 Q33914565-72FD451C-7017-4680-940B-5F4356CBB68A Q36566613-52EE890D-C4D2-41D8-8CDB-D436C23E51F7 Q37090447-D0BCF84B-1750-40C1-A1D9-83648B9D2CF5 Q38024793-CAE55F52-1322-4526-BC83-246DA2F54665 Q38086040-329F6484-4CD3-4F0E-94E2-68EC6D6DBB62 Q38132342-6B3A472C-94E1-4CBD-99BE-FFC204AA5C7C Q38185347-80A6B366-1A70-4423-B304-74C8EF2F4612 Q38192899-D4020DDC-DC63-4AD1-8F68-1075C6FADB51 Q38637880-6D500E16-BBF7-459D-93DB-015F67F9CD65 Q38747973-064EC77A-9577-427F-9A6A-6C2A54B2368D Q39000670-52AA72BC-31F6-40BA-9EA3-88FC1980E27A Q42225222-9B188450-6FEA-4CB4-AA9F-241C49FFC764 Q43524844-C4FF3FCE-1D9D-4789-A21D-CF37BF12F053 Q43913492-096ECF5A-910B-4C41-BC4B-8238432A2AB9 Q44037092-9313D26B-1788-4FB3-A67B-5EE2C496544F Q44859578-3ADD4B6C-0FA0-4790-967D-E979B41FF93C Q44874165-F39AC762-C63E-4F02-9BC3-FBAAFDD29CE4 Q45994034-04A63A4A-911A-4883-B90C-18E7CA28929E Q46381121-B4D6DF22-7BA9-45C4-8294-F5AF6B45B9AF Q46965577-4AABFC19-4BE1-446A-9F6C-C39EC1F463D3 Q46977762-76A63829-A698-49FB-A021-ADFD92A9F2B6 Q51133402-193FCED7-3DBD-4281-BAFC-72080C09BA6E Q53372787-48B97265-841E-4145-B065-8D2132442842 Q55379156-0944C030-EEEA-45FC-93C5-F0A7764F729A Q55448348-963A7F4E-D412-4E75-AC7C-82858F1A08D1 Q55879702-76999AD6-1675-49CE-87BE-24484C297B57 Q57395230-9AC5F0AD-7BF2-4BE9-A21C-8E0ECBC8450C Q57615066-1C44860A-97D9-43B3-9735-BD40CDD55671 Q57747796-0945C6F3-9EA1-4BAC-A3CA-236E2CFCA76F Q57756311-FC49565F-CF60-4608-8F8F-00552876487F Q57756405-BCE911D6-4252-48A6-B4B0-C814F7664BB4 Q57923049-D9797B14-B9FD-4DED-B1C9-5065FD89A944 Q57961121-3925B1BB-E1AA-419D-A0D0-3609C8879E9B Q58371776-3118D810-3E4E-431B-8D17-9B64C935A21E Q58371811-8F611885-AB05-4168-B584-186D811AD54F Q58371824-96682F12-F3E6-4231-B1F3-30B2A3C0DDE7 Q58371834-13A3A026-1CEC-4273-8FE0-8508472581E2

P2860

Nanoporous carbide-derived carbon with tunable pore size.

http://www.wikidata.org/entity/Q34220962

description

2003 nî lūn-bûn

@nan

2003 թուականի Օգոստոսին հրատարակուած գիտական յօդուած

@hyw

2003 թվականի օգոստոսին հրատարակված գիտական հոդված

@hy

2003年の論文

@ja

2003年論文

@yue

2003年論文

@zh-hant

2003年論文

@zh-hk

2003年論文

@zh-mo

2003年論文

@zh-tw

2003年论文

@wuu

name

Nanoporous carbide-derived carbon with tunable pore size.

@ast

Nanoporous carbide-derived carbon with tunable pore size.

@en

Nanoporous carbide-derived carbon with tunable pore size.

@nl

type

label

Nanoporous carbide-derived carbon with tunable pore size.

@ast

Nanoporous carbide-derived carbon with tunable pore size.

@en

Nanoporous carbide-derived carbon with tunable pore size.

@nl

prefLabel

Nanoporous carbide-derived carbon with tunable pore size.

@ast

Nanoporous carbide-derived carbon with tunable pore size.

@en

Nanoporous carbide-derived carbon with tunable pore size.

@nl

P1433

Q34220962-02949BDD-113E-4790-B15A-A255FE67C243

P1476

Q34220962-B2490DBD-480F-4D63-8E80-DABDE8029DC7

P2093

Q34220962-068AA5A2-FE2E-4199-9BC7-582751683C66

Q34220962-46F98093-56EE-417B-9398-8E313E9E9346

Q34220962-92B627BD-AE30-4130-93FA-015E4E34DB0A

Q34220962-9E5C35F3-9F98-4F23-9605-2DE2E5BEC194

Q34220962-AB3D6312-47B9-4908-8C03-EB9EAFF6B242

Q34220962-BE66449D-CC13-45BB-8257-367E3B7A1779

P2888

Q34220962-B7A0A5B3-6443-4310-986E-DF9F75198F0E

P304

Q34220962-DF936E1D-6B8E-42D0-9B40-A19980BCC673

P31

Q34220962-461511CC-0372-4FA1-958F-2DBBDECD2729

P356

Q34220962-FE35AA76-CF68-419A-9829-8566FCE3CD64

P407

Q34220962-B235FF23-D210-412F-B62E-6F5FBDD69DC0

P433

Q34220962-B1A0CCD1-6676-495C-B30E-EBD6F3F14332

P478

Q34220962-44C83198-C185-4FF7-A513-314EF7F6FDAF

P50

Q34220962-18EDA3A9-56D5-45C9-BF6A-E604E2F72055

Q34220962-EBDD9C76-9010-45AD-9E33-B67C6B0C28E9

P577

Q34220962-9ACC4446-0CF3-49AD-800B-F88877D33BF7

P5875

Q34220962-DE265680-C191-42D1-A9C8-9A5075FAF5AB

P6179

Q34220962-FC6FED38-C49C-453D-AFE0-625EFE2E2C2C

P698

Q34220962-8CA6D949-18FC-4BD7-96EA-8D2DB6D915F4

P356

P1433

Nature Materials

P1476

Nanoporous carbide-derived carbon with tunable pore size

@en

P2093

Alexei Nikitin

http://www.w3.org/2001/XMLSchema#string

Bo Yi

http://www.w3.org/2001/XMLSchema#string

Haihui Ye

http://www.w3.org/2001/XMLSchema#string

Henry C Foley

http://www.w3.org/2001/XMLSchema#string

John E Fischer

http://www.w3.org/2001/XMLSchema#string

Michel W Barsoum

http://www.w3.org/2001/XMLSchema#string

P2888

P304

591-594

http://www.w3.org/2001/XMLSchema#string

P31

scholarly article

P356

10.1038/NMAT957

http://www.w3.org/2001/XMLSchema#string

P407

P433

9

http://www.w3.org/2001/XMLSchema#string

P478

2

http://www.w3.org/2001/XMLSchema#string

P50

P577

2003-08-03T00:00:00Z

http://www.w3.org/2001/XMLSchema#dateTime

P5875

10622077

http://www.w3.org/2001/XMLSchema#string

P6179

1049484652

http://www.w3.org/2001/XMLSchema#string

P698

12907942

http://www.w3.org/2001/XMLSchema#string