TDS\Usayizi | 20nm | 50nm | 80nm | 100nm |
I-Morphology | I-Spherical | |||
Ubumsulwa | isisekelo sensimbi 99.99% | |||
I-COA | Bi<=0.008% Cu<=0.003% Fe<=0.001% Pb<=0.001%Sb<=0.001% Se<=0.005% Te<=0.005% Pd<=0.001% | |||
I-SSA(m2/g) | 10-12 | 8-10 | 7-9 | 7-8 |
Ukuminyana kwenqwaba(g/ml) | 0.6-1.2 | 0.5-1.2 | 0.5-1.2 | 0.5-1.2 |
Thepha Ukuminyana(g/ml) | 1.2-2.5 | 1.0-2.5 | 1.0-2.5 | 1.0-2.5 |
IyatholakalaUsayizi wokupakisha | 25g, 50g, 100g, 500g, 1kg isikhwama ngasinye ezikhwameni double antistatic, noma njengoba kudingeka. | |||
Isikhathi sokuthumela | Esitokweni, kuthunyelwa ngezinsuku ezimbili zokusebenza. |
I-inorganic material nano-metallic silver ibonwa njengento efanelekile yokulwa namagciwane.Njengamanje, kunezimo eziningi eziphumelelayo zokumboza, emikhakheni yezokwelapha, izinhlelo zokuhlanzwa kwamanzi, izindwangu, amapulasitiki, irabha, izitsha zobumba, ingilazi nezinye izigqoko ze-bactericidal, i-deodorization, imboni yefilimu elwa namagciwane, zivule imakethe ebanzi yokusetshenziswa kwe-antibacterial ye-nanoparticles yesiliva.
Uma kuqhathaniswa nama-antibacterial esiliva endabuko, ama-nanoparticles esiliva alungiselelwe i-nanotechnology awagcini nje ngokuba nomphumela obalulekile we-antibacterial, kodwa futhi anokuphepha okuphezulu kanye nomphumela ohlala njalo.Njenge-ejenti ye-antibacterial, i-nano silver inendawo enkulu ethize kanye nosayizi wezinhlayiyana ezincane, okulula ukuthintana nama-microorganisms we-pathogenic futhi ingakwazi ukwenza umsebenzi wayo omkhulu wezinto eziphilayo.Izinto eziningi eziyinhlanganisela ye-nano ezisetshenziswa ekufakweni kokudla okulwa namagciwane zisekelwe kuma-nanoparticles esiliva, okubonisa umsebenzi wawo onamandla wokulwa namagciwane.Abacwaningi bafaka indwangu engalukiwe nge-nano-silver futhi bahlola izakhiwo zayo zokulwa namagciwane.Imiphumela ibonisa ukuthi indwangu engalukiwe ngaphandle kokucwiliswa kwe-nano-silver ayinayo impahla yokulwa namagciwane, futhi indwangu engalukiwe efakwe ku-500ppm nano-silver solution inempahla enhle kakhulu yokulwa namagciwane.Isihlungi samanzi se-e polypropylene esinama-nanoparticles esiliva sinomphumela omuhle wokuvimbela kumaseli e-EScherichia coli.
Izinhlanganisela Conductive
Ama-nanoparticles esiliva ahambisa ugesi futhi ahlakazeka kalula kunoma iyiphi inombolo yezinye izinto.Ukwengeza ama-nanoparticles esiliva ezintweni ezifana nokunamathiswa, ama-epoxies, oyinki, amapulasitiki, nezinye izinhlanganisela ezihlukahlukene kuthuthukisa ukuguquguquka kwawo kagesi nokushisayo.
1. Okunamathiselwe kwesiliva okusezingeni eliphezulu (ingcina) :
Namathisela (glue) ama-electrode angaphakathi nangaphandle wezingxenye ze-chip;
Namathisela (glue) wesifunda esihlanganisiwe sefilimu;
Namathisela (glue) we-solar cell electrode;
I-conductive silver paste ye-chip ye-LED.
2. I-Conductive Coating
Hlunga nge-coating yezinga eliphezulu;
I-porcelain tube capacitor ene-coating yesiliva
Izinga lokushisa eliphansi le-sintering conductive paste;
I-Dielectric paste
Ama-nanoparticles esiliva anamandla okusekela ama-plasmons angaphezulu, okuholela ezicini ezihlukile ze-optical.Ngobude obuthile obungamaza, ama-plasmons angaphezulu ashintshashintsha bese amunca noma asakaze ukukhanya kwesigameko ngamandla kangangokuthi ama-nanoparticles angawodwana angabonakala kusetshenziswa isibonakhulu senkundla emnyama.Lezi zilinganiso zokuhlakazeka nokumunca zingalungiswa ngokushintsha ukuma nobukhulu be-nanoparticles.Ngenxa yalokho, ama-nanoparticles esiliva awusizo kuzinzwa ze-biomedical nezitholi kanye nezindlela zokuhlaziya ezithuthukisiwe ezifana ne-surface-enhanced fluorescence spectroscopy kanye ne-surface-enhanced Raman spectroscopy (SERS).Ngaphezu kwalokho, amanani aphezulu okuhlakazeka nokumuncwa abonwa ngama-nanoparticles esiliva awenza abe wusizo ikakhulukazi ekusetshenzisweni kwelanga.Ama-nanoparticles asebenza njengezimpondo ezisebenza kahle kakhulu;lapho ama-Ag nanoparticles ehlanganiswa nabaqoqi, kubangela ukusebenza kahle okuphezulu kakhulu.
Ama-nanoparticles esiliva anomsebenzi omuhle kakhulu we-catalytic futhi angasetshenziswa njengezisusa zokusabela okuningi.Ama-nanoparticles ayinhlanganisela ye-Ag/ZnO alungiswe ngokufakwa kwesithombe sokukhishwa kwezinsimbi eziyigugu.I-photocatalytic oxidation yesigaba segesi i-n-heptane yasetshenziswa njengendlela yokusabela eyimodeli ukuze kufundwe imiphumela yomsebenzi we-photocatalytic wamasampuli kanye nenani lokubekwa kwensimbi okuhloniphekile emsebenzini we-catalytic.Imiphumela ibonisa ukuthi ukufakwa kwe-Ag ku-ZnO nanoparticles kungathuthukisa kakhulu umsebenzi we-photocatalyst.
Ukuncishiswa kwe-p - nitrobenzoic acid ngama-nanoparticles esiliva njenge-catalyst.Imiphumela ibonisa ukuthi izinga lokunciphisa i-p-nitrobenzoic acid ene-nano-silver njenge-catalyst likhulu kakhulu kunalelo elingenayo i-nano-silver.Futhi, ngokwanda kwenani le-nano-silver, ukusabela okusheshayo, ukusabela okuphelele kakhulu.I-Ethylene oxidation catalyst, i-catalyst yesiliva esekelwayo ye-fuel cell.
Ngenxa yezakhiwo zayo eziphakeme, ama-nanoparticles esiliva anethemba elibanzi emkhakheni wezinto eziphilayo, ikakhulukazi kuma-biosensors.
I-nanoparticle yesiliva-golide yethulwe kubuchwepheshe be-immobilization be-glucose oxidase (GOD) yenzwa ye-glucose.Ukuhlolwa kufakazele ukuthi ukungezwa kwe-nanoparticle kwandisa amandla okukhangisa nokuzinza kwe-enzyme, ngenkathi kuthuthukiswa umsebenzi we-catalytic we-enzyme, ukuze ukuzwela kokuphendula kwamanje kwe-electrode ye-enzyme kwathuthukiswa kakhulu.