TDS\ubungakanani | 20nm | 50nm | 80nm | 100nm |
I-Morphology | I-Spherical | |||
Ubunyulu | isiseko sentsimbi 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 |
Ubuninzi bobuninzi (g/ml) | 0.6-1.2 | 0.5-1.2 | 0.5-1.2 | 0.5-1.2 |
Uxinaniso lweTephu(g/ml) | 1.2-2.5 | 1.0-2.5 | 1.0-2.5 | 1.0-2.5 |
Ubungakanani bokuPakisha obukhoyo | 25g, 50g, 100g, 500g, 1kg ingxowa nganye kwiingxowa antistatic kabini, okanye njengoko kufuneka. | |||
Ixesha lokuzisa | Kwisitokhwe, ukuthunyelwa ngeentsuku ezimbini zomsebenzi. |
Izinto ze-inorganic ze-nano-metallic zesilivere zibonwa njengeyona nto ifanelekileyo yokulwa ne-antibacterial.Okwangoku, kukho iimeko ezininzi eziyimpumelelo kwiingubo, iindawo zonyango, iinkqubo zokuhlanjululwa kwamanzi, iingubo, iiplastiki, irabha, i-ceramics, iglasi kunye nezinye iingubo ze-bactericidal, i-deodorization, imboni yefilimu ye-antibacterial, ivule imarike ebanzi yokusetyenziswa kwe-antibacterial ye-nanoparticles yesilivere.
Xa kuthelekiswa ne-antibacterial agents zesilivere, i-nanoparticles yesilivere elungiselelwe yi-nanotechnology ayinayo kuphela impembelelo ebalulekileyo ye-antibacterial, kodwa inokhuseleko oluphezulu kunye nefuthe elihlala ixesha elide.Njenge-antibacterial agent, isilivere ye-nano inommandla omkhulu ocacileyo kunye nobukhulu be-particle encinci, ekulula ukudibanisa ne-pathogenic microorganisms kwaye inokusebenzisa umsebenzi wayo ophezulu we-biological.Uninzi lwezinto ezidibeneyo ze-nano ezisetyenziselwa ukupakisha ukutya okulwa ne-antibacterial zisekelwe kwi-nanoparticles yesilivere, ebonisa umsebenzi wayo onamandla wokulwa ne-antibacterial.Abaphandi bafake ilaphu elingalukwanga nge-nano-silver kwaye bavavanya iimpawu zayo zokulwa ne-antibacterial.Iziphumo zibonisa ukuba ilaphu elingalukwanga ngaphandle kwe-nano-silver immersion ayinayo ipropathi yokulwa ne-antibacterial, kwaye ilaphu elingalukiweyo elifakwe kwisisombululo se-500ppm nano-silver linepropathi egqwesileyo ye-antibacterial.Isihluzi samanzi se-e polypropylene kunye nesilivere ye-nanoparticles coating inefuthe elihle lokuthintela kwiiseli ze-EScherichia coli.
Ii-Composites eziqhubayo
Iinanoparticles zesilivere ziqhuba umbane kwaye zihlakazeka ngokulula nakweliphi na inani lezinye izinto.Ukongeza i-nanoparticles yesilivere kwizinto ezifana ne-pastes, i-epoxies, i-inki, iiplastiki, kunye nezinye iindidi ezahlukeneyo zokudibanisa umbane kunye ne-thermal conductivity.
1. Intlama yesilivere yomgangatho ophezulu (iglu) :
Namathisela (iglue) kwi-electrodes yangaphakathi nangaphandle yamacandelo e-chip;
Ncamathelisa (iglu) kwifilimu eshinyeneyo edibeneyo yesekethe;
Ncamathisela (iglu) kwi-electrode yeseli yelanga;
I-conductive yesilivere ye-paste ye-chip ye-LED.
2. I-Coductive Coating
Isihluzi esinomgangatho ophezulu wokugquma;
I-porcelain tube capacitor ene-coating yesilivere
Ubushushu obuphantsi be-sintering paste conductive;
Intlama yeDielectric
I-nanoparticles yesilivere inamandla okuxhasa ii-plasmons zomhlaba, ezikhokelela kwiimpawu ezikhethekileyo ze-optical.Kumaza athile obude, iiplasmons zomphezulu ziye zitsale kwaye emva koko zifunxe okanye zisasaze ukukhanya kwesiganeko ngamandla kangangokuba i-nanoparticles nganye inokubonwa kusetyenziswa imakroskopu yentsimi emnyama.Ezi nqanaba zokuchithwa kunye nokufunxa ziyakwazi ukulungiswa ngokuguqula imilo kunye nobukhulu be-nanoparticles.Ngenxa yoko, ii-nanoparticles zesilivere ziluncedo kwii-sensors ze-biomedical kunye ne-detectors kunye neendlela zokuhlalutya eziphambili ezifana ne-face-enhanced fluorescence spectroscopy kunye ne-surface-enhanced Raman spectroscopy (SERS).Ngaphezu koko, amazinga aphezulu okusasazwa kunye nokufunxa abonwa nge-nanoparticles yesilivere ayenza ibe luncedo ngakumbi kwizicelo zelanga.Iinanoparticles zisebenza njengee-eriyali ezisebenza kakuhle kakhulu;xa i-Ag nanoparticles ifakwe kubaqokeleli, iphumela ekusebenzeni okuphezulu kakhulu.
Iinanoparticles zesilivere zinomsebenzi ogqwesileyo we-catalytic kwaye zinokusetyenziswa njengezinto ezibangela ukusabela okuninzi.Iinanoparticles ezihlanganisiweyo ze-Ag/ZnO zalungiswa ngokufakwa kwefotoreduction yesinyithi esixabisekileyo.I-photocatalytic oxidation yesigaba segesi i-n-heptane isetyenziswe njengempendulo yomzekelo wokufunda imiphumo ye-photocatalytic umsebenzi weesampuli kunye nesixa se-metal deposition ehloniphekileyo kumsebenzi we-catalytic.Iziphumo zibonisa ukuba ukufakwa kwe-Ag kwi-ZnO nanoparticles kunokuphucula kakhulu umsebenzi we-photocatalyst.
Ukunciphisa i-p - nitrobenzoic acid kunye ne-nanoparticles yesilivere njenge-catalyst.Iziphumo zibonisa ukuba iqondo lokunciphisa i-p-nitrobenzoic acid kunye ne-nano-silver njenge-catalyst inkulu kakhulu kunokuba ngaphandle kwe-nano-silver.Kwaye, ngokunyuka kwenani le-nano-silver, ngokukhawuleza ukusabela, ukusabela okupheleleyo.I-ethylene oxidation catalyst, i-catalyst yesilivere exhaswayo kwiseli yamafutha.
Ngenxa yeempawu zayo eziphezulu, i-nanoparticles yesilivere inethemba elibanzi kwintsimi yezinto eziphilayo, ngakumbi kwii-biosensors.
I-nanoparticle yesilivere-yegolide yaziswa kwi-teknoloji ye-immobilization ye-glucose oxidase (GOD) ye-sensor ye-glucose.Uvavanyo lubonise ukuba ukongezwa kwe-nanoparticle kwandisa amandla e-adsorption kunye nokuzinza kwe-enzyme, ngelixa kuphuculwa umsebenzi we-catalytic we-enzyme, ukuze uvelwano lwempendulo yangoku ye-electrode ye-enzyme iphuculwe kakhulu.