Fihirisa | Diamita & Tsawon | Tsafta | ER(μΩ·m) | SSA(m2/g) | TD (g/cm3) | ASH | Danshi% | Farashin PH | Bayyanar |
Spec 1 | D 8-20nm, L 1-2um | 99%+ | 647 | 130-180 | 2.1 | <0.5% | 0.05% | 7.00-8.00 | baki |
Spec 2 | D 8-20nm, L 5-20um | 99%+ | 647 | 130-180 | 2.1 | <0.5% | 0.05% | 7.00-8.00 | baki |
Spec 3 | D 10-30nm, L 1-2um | 99%+ | 659 | 100-120 | 2.1 | <0.5% | 0.05% | 7.00-8.00 | baki |
Spec 4 | D 10-30nm, L 5-20um | 99%+ | 659 | 100-120 | 2.1 | <0.5% | 0.05% | 7.00-8.00 | baki |
Spec 5 | D 30-60nm, L 1-2um | 99%+ | 956 | 90-110 | 2.1 | <0.5% | 0.05% | 7.00-8.00 | baki |
Spec 6 | D 30-60nm, L 5-20um | 99%+ | 956 | 90-110 | 2.1 | <0.5% | 0.05% | 7.00-8.00 | baki |
Spec 7 | D 60-100nm, L 1-2um | 99%+ | 1046 | 60-100 | 2.1 | <0.5% | 0.05% | 7.00-8.00 | baki |
Spec 8 | D 60-100nm, L 5-20um | 99%+ | 1046 | 60-100 | 2.1 | <0.5% | 0.05% | 7.00-8.00 | baki |
Idan kuna sha'awar ƙarancin ƙarancin carbon nanotubes, da fatan za a tuntuɓe mu don samun zance mai ma'ana. Idan kuna sha'awar ultalong carbon nanotubes, muna so mu ji daga gare ku. Idan kuna sha'awar haɓaka sabon aikace-aikacen don carbon nanotubes, tuntuɓi. Idan kuna sha'awar keɓantaccen carbon nanotubes, muna maraba da ku don faɗi ra'ayin ku. |
MWCNTs (CAS No. 308068-56-6) a cikin foda
High conductivity
Ba a yi aiki ba
Short-MWCNTs
Long-MWCNTs
Babban yanki na musamman akwai samuwa
Danna nan don MWCNTs masu aiki
MWCNTs a cikin nau'in ruwa.Amfani da takamaiman dispersing kayan aiki da kuma tabbatar dispersing fasahar, Multi-bangon Cnts, dispersing wakili da deionized ruwa ko wasu ruwa matsakaici aka gauraye a ko'ina don shirya sosai tarwatsa carbon nanotubes dispersions.
Matsakaicin hankali: max 5%
Kunshe a cikin baƙar fata kwalabe
Lokacin bayarwa: a cikin kwanakin aiki 4
jigilar kaya a duniya
Kayan ajiyar hydrogen:
Nazarin ya nuna cewa carbon nanotubes sun dace sosai a matsayin kayan ajiyar hydrogen.
Dangane da halaye na tsari na carbon nanotubes mai bango ɗaya, wanda ke haifar da haɓakar haɓakar ruwa da iskar gas.
Ajiye hydrogen nanotube na carbon nanotube shine yin amfani da tallan jiki ko sinadarai na sinadarai na hydrogen a cikin kayan porous tare da babban yanki don adana hydrogen a 77-195K kuma kusan 5.0Mpa.
Manyan iya aiki masu ƙarfi:
Carbon nanotubes da high crystallinity, mai kyau lantarki watsin, babban takamaiman surface yankin da micropore size za a iya sarrafawa ta hanyar kira tsari.Matsakaicin ƙimar amfani da ƙasa na carbon nanotubes na iya kaiwa 100%, wanda ke da duk buƙatun ingantaccen kayan lantarki don supercapacitors.
Don capacitors Layer Layer biyu, adadin kuzarin da aka adana yana ƙayyade ta wurin ingantaccen yanki na fili na lantarki.Saboda guda katanga na carbon nanotubes suna da mafi girman takamaiman yanki na musamman da kuma ingantaccen ƙarfin lantarki, lantarki da aka shirya ta hanyar carbon nanotubes na iya haɓaka ƙarfin ƙarfin ƙarfin Layer biyu.
Babban ƙarfin haɗakar filayen kayan abu:
Kamar yadda guda-banga carbon nanotubes su ne mafi halayyar daya-girma nanomaterials tare da musamman da kuma cikakken microstructure da kuma sosai babban al'amari rabo, da kuma da yawa gwaje-gwaje sun nuna cewa guda-banga carbon nanotubes da m inji Properties da zama na karshe nau'i na shirya super- mai ƙarfi composites.
A matsayin kayan ƙarfafa haɗin gwiwa, carbon nanotubes ana fara aiwatar da su akan abubuwan ƙarfe na ƙarfe, irin su carbon nanotubes iron matrix composites, carbon nanotubes aluminum matrix composites, carbon nanotubes nickel matrix composites, carbon nanotubes jan karfe matrix composites.
Filin emitter:
Carbon nanotubes masu bango guda ɗaya suna da kyawawan kaddarorin fitar da wutar lantarki da ke haifar da filin, waɗanda za a iya amfani da su don yin na'urorin nunin tsari maimakon manyan fasahar bututun cathode.Masu bincike a Jami'ar California sun nuna cewa carbon nanotubes suna da kyakkyawan kwanciyar hankali da juriya ga bombardment ion, kuma suna iya aiki a cikin yanayin yanayi na 10-4Pa tare da nauyin 0.4A / cm3 na yanzu.
Cikakken aikace-aikacen kayan lantarki da injiniyoyi:
Carbon nanotube tsoka