Hielscher faka'ata tekinolosia

Ultrasonic Synthesis ʻo Molecularly imprinted Polymers (MIPs)

Molecularly imprinted Polymers (MIPs) ʻoku artificially fokotuʻutuʻu meʻa puke ʻaki ha selectivity kuo ʻosi fokotuʻutuʻu mo specificity ki ha faʻunga totonu pe kemikale molecule. Te Ultrasonication lava ʻo fakaleleiʻi ʻa e ngaahi hala synthesis kehekehe ʻo molecularly tohitohiʻi polymers ʻai ke toe lelei mo falalaʻanga ange ʻa e polymerization.

Ko e ha ʻa Molecularly imprinted Polymers?

Ko e molecularly kuo paaki polymer (MIP) ko polymeric naunau ia mo antibody ngaahi ʻulungaanga fakalangilangi kuo faʻu ʻo fakaʻaongaʻi ki ai e founga paaki molecular. ʻOku fakatupu ʻe he founga paaki molecular imprinting molecularly ʻa e polymer ki ha taumuʻa pau molecule. Kuo cavities ʻa e molecularly kuo tohiki polymer ʻi hono polymer matrix ʻaki ha ʻofa ki he pau “template” molecule. ʻOku faʻa kau ʻi he founga ko ʻeni ʻa hono kamataʻi ʻo e polymerization ʻo monomers ʻi he ʻao ʻo ha template molecule ʻa ia ʻoku maʻu hili ia, ʻo tuku ai ʻa e cavities fengaueʻaki. ʻOku maʻu ʻe he polymers ko ʻeni ʻa e ʻofa ki he molecule totonu pea kuo fakaʻaongaʻi ia ʻi hono fakaʻaongaʻi hange ko e mavahevahe ʻa e kemikale, catalysis, pe molecular sensors. Molecular ʻe lava ke fakafehoanaki ʻa e molecules kuo paaki ki ha loka molecular, ʻa ia ʻoku tatau mo ha ki molecular (ʻa ia ʻoku ui ko e template molecule). Molecularly paaki polymers (MIPs) ʻoku characterised ia ʻe ha ngaahi feituʻu pau ʻoku feʻunga mo e template molecules ʻi he fotunga, lahi mo e ngaahi kulupu ʻoku lele lelei. Ko e "loka – kii "ʻoku lava ke fakaʻaongaʻi ai ʻa e molecular kuo paaki polymers ki ha ngaahi founga kehekehe, ʻa ia ʻoku ʻiloʻi ai ha faʻahinga molecule pau pea fakapipiki ki he loka molecular, hange ko e molecular kuo paaki polymer.

Ultrasonication is an effective technique to produce molecularly imprinted polymers.

ʻOku fakahaaʻi ʻe he fakatata schematic ʻa e molecular imprinting hala ʻo e cyclodextrins ki hono teuteuʻi ʻo e meʻa puke.
Ako mo e fakatata: Hishiya et Al. 2003

Molecularly paaki polymers (MIPs) ha ngaahi founga kehekehe pea ʻoku fakaʻaongaʻi ia ke fakamavahevaheʻi mo fakamaʻa ʻaki ʻa e ngaahi molecules totonu pe kemikale ʻoku kau ai ʻa e ʻamino ʻesiti mo e polotini, nucleotide fakalahi, ngaahi ʻuli, pea pehe ki he faitoʻo konatapu mo e meʻakai. ʻOku kehekehe pe ʻa e ngaahi feituʻu ʻoku fakaʻaongaʻi mei he mavahevahe mo e fakamaʻa ki he kemikale, catalytic e ngaahi toʻonga, faitoʻo konatapu, maluEi fakanatula mo e ngaahi polokalama meʻa puke. (FF. Vasapollo et Al. 2011)
Hange ko ʻeni, ʻoku fakaʻaongaʻi ʻa e tekinolosia MIP ko ha founga toʻo ʻuli fefeka ke ngaue mo fakamaʻa cannabis molecules hange ko e FBD pe THC mei he tuʻunga kakato kae lava ke maʻu cannabinoid isolates mo distillates.

UP400St for molecularly imprinted polymer synthesis

UP400St – 400W ultrasonic processor ki he ngaahi polokalama sonochemical

Kole 'a e fakamatala




Fakatokanga'i ange 'etau Tu'utu'uni totonu fakatautaha.


Ultrasonic Synthesis ʻo Molecularly imprinted Molecules

Fakatatau mo e ngaahi taumuʻa (template) faʻahinga mo hono fakaʻaongaʻi fakaʻosi ʻo e MIP, MIPs ʻe lava ke synthesized ʻi ha ngaahi founga kehekehe hange ko e nano-mo e micron spherical, nanowires, nano-meimei mita, nano-filaments, pe ngaahi filimi manifi. Koeʻuhi ke lava ʻo maʻu ha foomu MIP pau, ngaahi founga polymerization kehekehe hange ko e paaki lalahi, precipitation, emulsion polymerization, fakamavaheʻi, fakamovetevetea, gelation, mo e pupula ʻi he sitepu fakavahaʻa-taʻu polymerization ʻe lava ke fakaʻaongaʻi.
ʻOku ʻomi ʻe hono fakaʻaongaʻi ʻo e tuʻo lahi, ultrasonics maʻolunga, ha founga lelei, mahuʻinga mo faingofua ke synthesise polymeric nanostructures.
ʻOku ʻomi ʻe he Sonication ha ngaahi faingamalie lahi ʻi MIP synthesis ʻi hono fakafehoanaki atu ki he ngaahi founga tukufakaholo polymerization, koeʻuhi he ʻoku ne poupouʻi ʻa e lahi ange ʻa e tali, homogeneous polymer e tupu ʻa e seini, maʻolunga ange, mo e ngaahi tuʻunga vaivai (e.g., mafana ʻo e tali). ʻIkai ngata ai, te ne lava ʻo liliu ʻa e feituʻu ʻoku haʻi ʻaki e saiti, pea ko ia ai, ko e morphology ʻo e polymer fakaʻosi. (Svenson 2011)
ʻI hono fakaʻaongaʻi sonochemical ivi ki he polymerisation ʻo MIPs, ʻoku kamata ai polymerization ngaahi toʻonga pea ola lelei. ʻI he taimi tatau pe, ʻoku hanga ʻe he sonication ʻo fakaʻaiʻai ʻa e degassing lelei ʻo e polymer fefiofi ʻo ʻikai feilaulauʻi pe rigidity.
ʻOku ʻomi ʻe ultrasonic homogenization, fakamovetevetea mo e emulsification ha fefiofi mo ha ngaue malohi ke faʻu homogeneous suspensions pea mo ʻomi ha ivi ki he ngaahi founga polymerization. Naʻe fakatotoloʻi ʻe Viveiros et Al. (2019) ʻa e malava ko ia ʻe ultrasonic MIP synthesis mo e Siteiti "NAʻE teuteuʻi ʻe MIPs ultrasonically ha ngaahi koloa tatau pe maʻolunga ange ki he ngaahi founga angamaheni".
MIPs ʻi he fometi nano ʻa e ngaahi faingamalie ke fakaleleiʻi ai ʻa e homogeneity ʻo e ngaahi feituʻu ʻoku haʻi ʻaki. ʻOku ʻiloa ʻa Ultrasonication ʻi hono ngaahi ola makehe ʻi hono teuteuʻi ʻo e nanodispersions mo e nanoemulsions.

Ultrasonic Nano-Emulsion Polymerization

ʻE lava ke synthesised ʻa e MIPs ʻe emulsion polymerization. ʻOku angamaheni ʻaki hono aʻusia ʻa e Emulsion polymerization ʻaki hano faʻu ha emulsion lolo ʻi he vai ʻo tanaki atu ki ha surfactant. ʻOku fie maʻu ha founga ngaue emulsification maʻolunga ke faʻu ʻaki ha fale tauhiʻanga ʻo e fanga monumanu. Ko ultrasonic emulsification ko ha founga lelei ia kuo fokotuʻu ke teuteuʻi ʻaki nano-mo e mini-emulsions.
Laukonga lahi ange kau ki he ultrasonic Nano-Emulsification!

Ultrasonic emulsification and dispersion has positive impacts on the polymerization of molecularly imprinted polymers.

Te ultrasonic lava ʻo fakaleleiʻi ʻa e ngaahi halanga synthesis ko ʻeni ki nanoMIP faiva: precipitation polymerization, emulsion polymerization, mo e fale polymerization.
Ako mo e fakatataa ʻaki hono: toe faʻu et Al. 2019

Ultrasonic toʻo e ʻuli ʻo e template

Hili hono paaki e synthesis ʻo molecularly polymers, kuo pau ke toʻo ʻa e template mei he feituʻu ʻoku haʻi ʻaki kae lava ke maʻu ha molecularly malohi polymer. ʻOku hanga ʻe he ngaahi malohi ʻo e sonication ʻo fakaʻaiʻai ʻa e solubility, diffusivity, kemikale mo e fetuku ʻo e solvent mo e template molecules. ʻI heʻene pehee, ʻoku vave hono toʻo ʻa e ngaahi sipinga mei he ngaahi feituʻu ʻoku haʻi.
ʻE lava foki ke fakatahaʻi ʻa e toʻo ʻuli ultrasonic mo e toʻo ʻuli Soxhlet ke toʻo ʻa e template mei he polymer kuo paaki.

Ultrasonically tokoniʻi MIP Synthesis ngaahi halanga vaka:

  • Puleʻi fototehina Polymerization
  • Precipitation Polymerization
  • Polymerization 'o e emulsion
  • Tefitoʻi-fale Nanoparticle hono fakahoko
  • Ultrasonic Synthesis ʻo Magnetc ngaahi momoʻi meʻa
  • Fragmentation ʻo Aggregated Polymers
  • Ultrasonic toʻo e ʻuli ʻo e template

Ngaahi meʻa ke ako mei ai: fakaʻata applications for Molecularly imprinted Polymers

Ultrasonic Synthesis ʻo Molecularly imprinted Polymers

The encapsulation of magnetic nanoparticles by 17β-estradiol-imprinted polymers using an ultrasonic synthesis route achieves fast removal of 17β-estradiol from aqueous environments. For the ultrasonic synthesis of the nanoMIPs, methacrylic acid (MAA) was used as monomer, ethylene glycol dimethylacrylate (EGDMA) as crosslinker, and azobisisobutyronitrile (AIBN) as initiator. The ultrasonic synthesis procedure was carried out for 2h at 65ºC. The average particle size diameters of magnetic NIPs and magnetic MIPs were 200 and 300 nm, respectively. The use of ultrasound not only enhanced the polymerization rate and morphology of the nanoparticles, but also led to an increase in the number of free radicals, and thus, facilitated MIP growth around the magnetic nanoparticles. The adsorption capacity towards to 17β-estradiol was comparable to traditional approaches. [Xia et al. 2012 / Viveiro et al. 2019]

Ultrasonics for Molecularly Imprinted Sensors

Naʻe faʻu ʻe Iu et Al. faʻu ha molecularly kuo paaki electrochemical sensor resistance ʻo makatuʻunga ʻi ha seniti ʻe nima nanoparticle fakaleleiʻi electrodes ki phenobarbital loto fakapapau. Naʻe faʻufaʻu electrochemical sensor resistance ʻaki hono fakafuofuaʻi polymerization ʻaki hono fakaʻaongaʻi ʻo e ʻesiti methacrylic (MAA) ko e monomer ʻoku lele lelei, 2, 2-azobisisobutyronitrile (AIBN) mo ethylene glycol maleic Rosinate (EGMRA) acrylate ko e fakafofonga crosslinking, phenobarbitals (PBs) ko e template molecule, mo dimethyl sulfoxide (UEMSO) ko ha solvent. ʻI he founga sensor resistance ngaohi ʻaki, 0.0464g PB mo 0.0688g MAA naʻe tuifio ia ʻi he 3 mL DMSO mo sonicated ʻi ha miniti ʻe 10. Hili e 5 h, 1.0244 g EGMRA mo 0.0074g AIBN naʻe tanaki atu ia ki he fefiofi mo e sonicated ʻi ha miniti ʻe 30 ke maʻu ha ngaahi founga polymer kuo paaki. Hili ia, 10 μL ʻo e 2.0 mg mL-1Ni nanoparticle ʻa e founga fakaleleiʻi ʻi he tafaʻaki ʻo e GCE., pea toki fakamomoa leva ʻa e sensor resistance ʻi he mafana ʻo e loki. Meimei ko e 5 μL ʻo e founga naʻe teuteuʻi polymer naʻe paaki ʻi he ni nanoparticle mo e vekiume naʻe fakamomoa ʻi he 75◦C ki he 6 h. Hili hono polymerization valaloto, naʻe fufulu leva ʻa e sensor resistance kuo paaki ʻaki ʻa e (acetic ʻesiti) HAc/methanol (Volume ratio, 3:7) ʻi ha miniti ʻe 7 ke toʻo ʻa e template molecules. (FF. Uygun et Al. 2015)

Ultrasonic Micro-toʻo hingoa ʻaki hono fakaʻaongaʻi ʻo e MIPs

Koeʻuhi ke lava ʻo toe maʻu nicotinamide pehe mei he ngaahi sipinga, naʻe tokoni ha ultrasonically ki he konga malohi microextraction hoko atu ai ʻa e ILI v-vis spectrophotometer (UA-USPME-ILI v-vis). Ki hono toʻo e ʻuli mo e preconcentration ʻo e nicotinamide (vaitamini B3), HKUST-1 e faʻunga ʻo e ukamea (MOF) ʻo makatuʻunga molecularly kuo tohi tatau polymers. (Asfaram et Al. 2017)

The UIP4000hdT is a 4000 watts powerful ultrasonic inline extractor.

UIP4000hdT, ko ha 4000watts ʻoku ʻi ai ha mixer malohi ʻi he funga kosi ʻo e ngaahi meʻa ʻoku ʻikai ngaue ki ai

Ultrasonicators ngaue maʻolunga ki he ngaahi polokalama Polymer

Mei he loki fakatotolo ki he faiva mo e telinga Scalability: ʻOku engineered pau molecularly paaki polymers ʻoku firstly fakatupulaki mo siviʻi ʻi ha fanga kiʻi fale fakatotolo iiki mo e meʻafua ʻi ʻolunga, ke vakaiʻi ʻa e feasibility ʻo e polymer synthesis. Kapau kuo lavaʻi ʻa e feasibility mo e optimisation ʻo MIPs, ʻoku kaka leva ʻa e polokalama MIP ki ha ngaahi tohi lalahi ange. ʻE lava ke hoko ʻa e ngaahi halanga ultrasonic synthesis ko ha meʻa ke kaka mei he sea ki ʻolunga ki he faiva fakakomesiale kakato. ʻOku ʻomi ʻe Hielscher Ultrasonics sonochemical meʻangaue ki he polymer synthesis ʻi ha fanga kiʻi fale fakatotolo iiki mo e sea ʻi ʻolunga ki he ngaahi feituʻu ʻoku ʻikai ke ʻi ai ha meʻa ʻi he laine ultrasonic ki he polokalama 24/7 ʻi he uta kakato. ʻE lava ke ultrasonic ʻa e kaka mei he lahi ʻo e tiupi ki he ngaahi meʻa lalahi ʻoku lava ke maʻu ʻe he truckloads ʻi he houa. ʻOku maʻu ʻe Hielscher Ultrasonics ha koloa lahi lekooti mei he fale fakatotolo fakakemi ki he ngaahi polokalama sonochemical lalahi ʻa e ultrasonicator feʻunga taha ki hoʻo founga ngaue envisaged. ʻE tokoniʻi koe ʻe heʻetau kau ngaue taimi loloa mei feasibility ngaahi sivi mo e founga ngaue optimisation ki hono fokotuʻu hoʻo polokalama ultrasonic ʻi he tuʻunga fakaʻosi.

Ultrasonics 'o e Hielscher – Meʻangaue Sonochemical fakamatamatalelei

Hielscher Ultrasonics e koloa lekooti ʻoku ne ʻufiʻufi ʻa e ngaahi ngaue maʻolunga ultrasonic extractors mei he siʻisiʻi ki he meʻafua lahi. ʻOku fakaʻata ʻe he ngaahi naunau kehe ki he fakatahaʻanga faingofua taha ʻo e ultrasonic device ʻoku feʻunga taha ki hoʻo founga ngaue. ʻOku makatuʻunga ʻa e tokolahi lelei ultrasonic fokotuʻutuʻu ʻi he tuʻunga envisaged, Voliume, naunau, kulupu (batch) pe laine ʻo e laine mo e fakahokohoko. ʻOku tokoniʻi koe ʻe Hielscher ke fokotuʻutuʻu ʻa e founga lelei taha sonochemical.

Kulupu (batch) mo e Tuhituhi

ʻE lava ke fakaʻaongaʻi ʻa e Hielscher ultrasonicators ki he kulupu (batch) mo e hokohoko atu ʻo e ngaue. ʻE lava ke sonicated ʻa e fanga kiʻi tohi iiki mo e kongaloto ʻi ha founga (e.g., hina, sivi, tiupi, beakers, tangike pe talamu). ʻE lava ke ola lelei ange ʻa e ngaue ki he voliume lahi sonication. Neongo ʻoku lahi ange ʻa e taimi mo e ngaue lahi ʻa e batching, ka ʻoku toe lelei ange ʻa e founga fefiofi, vave ange pea fie maʻu ke siʻisiʻi ange ʻa e ngaue. ʻOku maʻu ʻe Hielscher Ultrasonics ʻa e fokotuʻutuʻu toʻo hingoa lelei taha ki hoʻo tali polymerization mo e founga ngaue.

Ultrasonic Probes ki he meʻa kotoa pe ʻe malava

UIP4000hdT fehufaki to'oto'o ki he sonication 'i he ngaue 'a e me'afuaʻOku ʻufiʻufi ʻe Hielscher Ultrasonics ʻa e tuʻunga kakato ʻo ultrasonic processors mei he loki fakatotolo fakakemi ultrasonicators ʻi he ngaahi founga ʻa e sea ki ʻolunga mo e pailate ki he ngaahi ultrasonic processors mo e malava ko ia ke ngaue fonu fonu loli ʻenau he houa. ʻOku fakaʻata kitautolu ʻe he koloa kakato ke tau ʻoatu ʻa e meʻangaue ultrasonic feʻunga taha ki hoʻo polymers, founga ngaue mo e ngaahi taketi.
ʻOku lelei ʻa e ngaahi polokalama ultrasonic benchtop ki feasibility ngaahi sivi mo e founga ngaue optimization. ʻOku hanga ʻe he meʻafua ʻo e telinga ʻo makatuʻunga ʻi he ngaahi fakangatangata kuo fokotuʻu ʻo ʻai ke faingofua ʻaupito hono fakatupulaki ʻo e ngaue mei he fanga kiʻi meʻa iiki ange ki he faiva fakakomesiale kakato. ʻE lava ke fai ʻa e Scaling ʻaki hano fola ha ʻiuniti malohi ange ultrasonic pe clustering ha ultrasonicators ʻoku faitatau mo ia. ʻI he UIP16000, ʻoku ʻomi ai ʻe Hielscher ʻa e ʻiuniti malohi taha ultrasonic ʻi he funga ʻo e mamani.

Ko hono mapuleʻi Amplitudes ki he ngaahi ola lelei

Ko e ultrasonicators Hielscher kotoa pe ʻoku mapuleʻingofua pea ʻoku ʻi ai ha fanga hoosi ngaue falalaʻanga. Ko e amplitude ko e taha ia ʻo e ngaahi fakangatangata mahuʻinga ʻoku ne takiekina ʻa e lavameʻa mo e ola lelei ʻo e ngaahi toʻonga sonochemical kau ai ʻa e ngaahi toʻonga polymerization mo e ngaahi halanga synthesis.
Hielscher's industrial processors of the hdT series can be comfortable and user-friendly operated via browser remote control.Hielscher ultrasonics kotoa pe’ processors fakaʻata ʻa e tuʻunga totonu ʻo e amplitude. Ko e Sonotrodes mo e meʻatui ʻoku ʻikai ke ʻi ai ha ngaahi naunau ia ʻoku ne fakaʻata ke liliu ʻa e amplitude ʻi ha ngaahi meʻa lahi ange. ʻE lava ʻe he ultrasonic processors ʻa Hielscher ʻo fakahaofi ha amplitudes maʻolunga ʻaupito pea ʻave ʻa e malohi ultrasonic ʻoku fie maʻu ki hono fakaʻaongaʻi. Amplitudes ʻo aʻu ki 200μm ʻe faingofua pe ke lele hokohoko ʻi he tafa 24/7.
ʻOku ʻoatu ʻe he ngaahi feituʻu amplitude totonu mo hono vakaiʻi maʻu pe ʻo e ngaahi fakangatangata ʻo e ultrasonic ʻi he polokalama smart Software ʻa e malava ko ia ke synthesise hoʻo molecularly kuo paaki polymers ʻaki ʻa e ngaahi tuʻunga lelei taha ultrasonic. Tokolahi lelei sonication ki he ngaahi ola lelei taha polymerization!
ʻOku fakaʻata ʻe he robustness ʻo e meʻangaue ultrasonic ʻa Hielscher ʻa e ngaue ʻe 24/7 ʻi he fatongia mamafa pea mo e ngaahi ʻatakai ʻoku femoʻuekina. ʻOku ngaohi heni ʻa e meʻangaue ultrasonic ʻa Hielscher ko ha meʻangaue falalaʻanga ʻoku ne fulfils hoʻo ngaahi fie maʻu ki he founga ngaue sonochemical.

Faingofua, Siviʻi ke Fakatuʻutamaki

ʻE lava ke hoko ʻa e ngaahi founga ultrasonic ko ha telinga kaka kakato. ʻOku ʻuhinga ʻeni ko e ola kotoa pe kuo ke aʻusia ʻi hono fakaʻaongaʻi ha fale fakatotolo fakakemi pe ultrasonicator ʻi ʻolunga, ʻe lava ke kaka ia ki he Output tatau pe ʻo fakaʻaongaʻi ʻa e ngaahi fakangatangata tatau. ʻOku ngaohi ʻe he meʻa ni ultrasonication lelei ki hono siviʻi taʻetotongi feasibility, founga optimization pea toki fakahoko ki he ngaohiʻanga fakakomesiale. Fetuʻutaki mai ke tau ʻilo e founga ʻe lava ai ʻe sonication ʻo fakatupulaki hoʻo MIP tukulolo mo e tuʻunga lelei.

ʻulungaanga maʻolunga taha – Faʻu mo Manufactured ʻi Siamane

'I he hoko ko ha pisinisi 'a e famili mo e fakalele fakafamili, 'oku Hielscher fakalelei ai 'a e ngaahi tu'unga mo'ui ma'olunga taha ki hono ultrasonic processors. Na'e fa'ufa'u 'a e ngaahi ultrasonicators kotoa, manufactured mo sivi'i kakato 'i he'etau FakasosialeFakataha kau ngaue 'i Teltow ofi ki Pealini 'i Siamane. 'Oku hoko 'a e Robustness mo e ala falala'anga 'o e me'angaue ultrasonic 'a Hielscher ko ha hoosi ngaue 'i he polokalama. 24/7 ko e ngaue kakato 'i he kavenga pea 'i he ngaahi 'atakai faingata'a, ko e 'ulungaanga fakanatula ia 'o e mixers 'oku fakahoko 'e he Hielscher.

'Oku 'omi 'e he e tepile 'i lalo ha faka'ilonga ia 'o e tu'unga 'o e ngaue ki he fakafuofua'i 'o e hotau ultrasonicators:

Kulupu (batch) 'o e tohi 'Oku tafe mai 'a e 'ea 'Oku fokotu'u atu 'a e ngaahi me'angaue
mL 'o e 1 ki he 500 10 ki he 200mL/miniti 'e UP100H
mL 'i he 10 ki he 2000 20 ki he 400mL/miniti 'e UP200Ht, UP400St
0.1 ki he 20L 0.2 ke 4L/miniti 'e UIP2000hdT
10 ki he 100L 2 ki he 10L/miniti 'e UIP4000hdT
n.a. 10 ki he 100L/miniti 'e UIP16000
n.a. lalahi fakataha'i 'o e UIP16000

Te ke lava ʻo fakatau Hielscher ultrasonic processor ʻi ha faʻahinga lahi kehekehe pea fakapolokalamaʻi ki hoʻo ngaahi fie maʻu ki he founga ngaue. ʻOku ʻomi ʻe Hielscher Ultrasonics ha ultrasonicator feʻunga maʻau, mei hono ngaohileleiʻi ʻo e reactants ʻi ha kiʻi foʻi leta loki fakatotolo siʻisiʻi ki he hokohoko atu hono tuifio ʻo e polymer slurries ʻi he tuʻunga fakapisinisi! Kataki ʻo fetuʻutaki mai kiate – ʻOku mau fiefia ke fakaongoongoleleiʻi atu ʻa e fokotuʻutuʻu lelei ultrasonic!

Fetu'utaki mai kiate kimautolu! / Kole kiate kitautolu!

Kole ki ha fakamatala lahi ange

Kataki 'o ngaue 'aki e foomu 'i lalo ke kole ha toe fakamatala ki he ultrasonic processors, faka'aonga'i mo e totongi. Te mau fiefia ke alea'i e founga 'oku mo 'i ai mo ho'omou ngaahi fie ma'u ultrasonic he polokalama!









Kataki 'o fakatokanga'i ange 'etau Tu'utu'uni totonu fakatautaha.


Hielscher Ultrasonics pilisone ngaue ma'olunga ultrasonic homogenizers ki he fakamovetevetea, emulsification mo e hingoa to'oto'o.

Ko e malohi ma'olunga ultrasonic homogenizers mei Loki fakasaienisi ki he pailate mo e Lalahi me'afua.