地址:武汉市洪山区光谷大道35号光谷总部国际时代 二期1栋1301
电话:17754422825
传真:17754422825
邮箱:sales@amyjet.com

艾美捷科技代理Technoclone 品牌。
Technoclone重要的止血和纤维蛋白溶解领域诊断测试、设备和研究产品的生产商。除了拥有全面的常规和专科测试产品组合,Technoclone还改进了其全自动Ceveron alpha/alpha TGA仪器,推出了新的Ceveron 100系列仪器。凭借超过10年的全自动凝血生成测试经验,新的Ceveron 100系列产品将TGA测试能力提高了50%。此外,通过在顶级系统Ceveron s100上使用淬火技术,Technoclone提供了全球首款全自动止血分析仪,能够同时运行常规和专科测试,包括全自动凝血生成、ADAMTS13活性和因子XIII活性。
Technoclone产品和平台包括:
(1)针对凝血和纤溶系统成分的单克隆抗体:这些单克隆抗体用于检测凝血和纤溶系统中的特定成分,有助于了解止血功能状态。
(2)全自动凝血酶生成测试:这是一项先进的体外诊断测试,用于评估凝血酶的生成情况,有助于诊断凝血障碍和其他相关疾病。
(3)测试、校准器和控制器:Technoclone提供一系列全球测试和校准工具,确保诊断设备的准确性和可靠性。
(4)因子分析:用于分析凝血和纤溶系统中的各种因子,帮助医生确定患者是否存在特定的凝血障碍或疾病。
(5)血管性血友病和TTP(血栓性血小板减少性紫癜)相关测试:提供针对这些特定疾病的诊断测试,有助于早期发现和有效治疗。
(6)抗凝治疗监测:为接受抗凝治疗的患者提供监测工具,以确保治疗的有效性和安全性。
(7)辅助试剂和系列研究型产品:为满足科研和特殊诊断需求,提供一系列辅助试剂和研究型产品。
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invivoCrown IV0111替换BioXCell BE0036
invivoCrown IV0102替换BioXCell BE0003-1
invivoCrown IV0117替换BioXCell BE0223

Premetek公司致力于为学术客户和工业客户提供化学试剂、纳米材料和催化剂,同时也提供多领域的研发服务。通过不断地与业内专业企业进行技术整合,Premetek不断更新产品,并为材料科学和催化领域提供了最多样化和可扩展的选择。
Our retail objectives are to offer the most expansive selection of premium products, provide easy and friendly service, offer the fastest delivery time possible, and ensure that every customer is satisfied with their purchase. Our inventory is determined by extensive market research, attendance at international tradeshows and conferences, customer feedback, and working closely with industry experts and vendors. Premetek is committed to continually improving our services and being the premier online market place for all your needs.
Premetek公司的主要产品包括:
Nanomaterials
Nanomaterial Suspension
Pt,Pd Catalysts -Hydrogenation
Pt,Pd Catalysts -Red/Oxidation
Pt Catalysts - Electrochemistry
Pt Alloy Catalysts - Electrochemistry
Pd Alloy Catalysts - Electrochemistry
Pd,Ru,Ir,Rh,Au Catalysts - Electrochemistry
Fe,Co,Ni,Cu,Ag Catalysts - Electrochemistry
Pt,Pd,Ru,Ir,Rh,Au-Organometallics
Pt, Pd, Rh Homogeneous Catalysts
Custom Products
Special catalysts in stock
| 品名 | 货号 | 规格 |
| Aluminum titanate, Al2TiO5, 40 g each | N10A1000 | 40g |
| Barium strontium titanium oxide, BaSrTi2O6, 40 g each | N10B2000 | 40g |
| Calcium titanate, CaTiO3, 40 g each | N10C1000 | 40g |
| Calcium zirconium titanium oxide, CaZrTi2O3, 40 g each | N10C2000 | 40g |
| Cadmium tungsten oxide, CdWO4, 40 g each | N10C3000 | 40g |
| Cerium aluminate, CeAlO3, 40 g each | N10C4000 | 40g |
| Copper aluminate, CuAl2O4, 40 g each | N10C5000 | 40g |
| Iron nickel oxide, FeNiO4, 40 g each | N10I1000 | 40g |
| Lanthanum chromite, LaCrO3, 40 g each | N10L1000 | 40g |
| Lanthanum manganite , LaMnO3, 40 g each | N10L3000 | 40g |
| Lanthanum substituted lithium titanate, (LaLi3)TiO3, 40 g each | N10L5000 | 40g |
| Lead zirconium substituted titanate, PbZr0.2Ti0.8O3, 40 g each | N10L6000 | 40g |
| Manganese titanate, MnTiO3, 40 g each | N10M1000 | 40g |
| Magnesium aluminate, MgAl2O4, 40 g each | N10M2000 | 40g |
| Nickel cobalt oxide, NiCoO2, 40 g each | N10N1000 | 40g |
| Strontium bismuth niobium oxide, SrBi2Nb2O9, 50 g each | N10S1000 | 40g |
| Strontium ferrite, SrFe12O19, 40 g each | N10S2000 | 40g |
| Yttrium aluminum oxide, Y3Al5O12, 40 g each | N10Y1000 | 40g |
| Yttrium iron oxide, Y3Fe5O12, 40 g each | N10Y2000 | 40g |
| Zinc iron oxide, ZnFe2O4, 40 g each | N10Z1000 | 40g |
| Zinc titanium oxide, ZnTiO3, 40 g each | N10Z2000 | 40g |
| Concentrated Suspension of Nanoscaled Titanium Dioxide (TiO2), 5 kg | N-1000 | 5kg |
| Concentrated Suspension of Nanoscaled Zinc Oxide (ZnO), 5 kg | N-2000 | 5kg |
| Concentrated Suspension of Nanoscaled Zinc Oxide (ZnO), 5 kg | N-2010 | 5kg |
| Suspension of Nanoscaled Iron Oxide (Fe2O3), 5 kg | N-3000 | 5kg |
| Concentrated Suspension of Nanoscaled Iron Oxide (Fe2O3), 5 kg | N-3010 | 5kg |
| Concentrated Suspension of Nanoscaled Iron Oxide (Fe2O3), 5 kg | N-3020 | 5kg |
| Concentrated Suspension of Nanoscaled Iron Oxide (Fe2O3), 5 kg | N-3130 | 5kg |
| Concentrated Suspension of Nanoscaled Iron Oxide (Fe2O3), 5 kg | N-3220 | 5kg |
| Concentrated Suspension of Nanoscaled Iron Oxide (Fe2O3), 5 kg | N-3230 | 5kg |
| 0.1% Pt on activated carbon powder, 10 g each | P10J1001 | 10g |
| 0.5% Pt on activated carbon powder, 10 g each | P10J1005 | 10g |
| 1.0% Pt on activated carbon powder, 10 g each | P10J1010 | 10g |
| 5.0% Pt on activated carbon powder, 10 g each | P10J1050 | 10g |
| 10% Pt on activated carbon powder, 10 g each | P10J1100 | 10g |
| 20% Pt on activated carbon powder, 10 g each | P10J1200 | 10g |
| 0.1% Pt on granular carbon, 10 g each | P10J2001 | 10g |
| 0.5% Pt on granular carbon, 10 g each | P10J2005 | 10g |
| 1.0% Pt on granular carbon, 10 g each | P10J2010 | 10g |
| 5.0% Pt on granular carbon, 10 g each | P10J2050 | 10g |
| 0.1% Pd on activated carbon powder, 10 g each | P30J1001 | 10g |
| 0.5% Pd on activated carbon powder, 10 g each | P30J1005 | 10g |
| 1.0% Pd on activated carbon powder, 10 g each | P30J1010 | 10g |
| 5.0% Pd on activated carbon powder, 10 g each | P30J1050 | 10g |
| 10% Pd on activated carbon powder, 10 g each | P30J1100 | 10g |
| 20% Pd on activated carbon powder, 10 g each | P30J1200 | 10g |
| 0.1% Pd on granular carbon, 10 g each | P30J2001 | 10g |
| 0.3% Pd on granular carbon, 10 g each | P30J2003 | 10g |
| 0.5% Pd on granular carbon, 10 g each | P30J2005 | 10g |
| 1.0% Pd on granular carbon, 10 g each | P30J2010 | 10g |
| 5.0% Pd on granular carbon, 10 g each | P30J2050 | 10g |
| 0.5% Pd on alumina spheres, 3 mm, SA= | P30L1005 | 10g |
| 1.0% Pd on alumina spheres, 3 mm, SA= | P30L1010 | 10g |
| 0.1% Pt on alumina powder, 10 g each | P10K1001 | 10g |
| 0.5% Pt on alumina powder, 10 g each | P10K1005 | 10g |
| 1.0% Pt on alumina powder, 10 g each | P10K1010 | 10g |
| 5.0% Pt on alumina powder, 10 g each | P10K1050 | 10g |
| 10% Pt on alumina powder, 10 g each | P10K1100 | 10g |
| 20% Pt on alumina powder, 10 g each | P10K1200 | 10g |
| 0.1% Pd on alumina powder, 10 g each | P30K1001 | 10g |
| 0.5% Pd on alumina powder, 10 g each | P30K1005 | 10g |
| 1.0% Pd on alumina powder, 10 g each | P30K1010 | 10g |
| 5.0% Pd on alumina powder, 10 g each | P30K1050 | 10g |
| 10% Pd on alumina powder, 10 g each | P30K1100 | 10g |
| 20% Pd on alumina powder, 10 g each | P30K1200 | 10g |
| 5% Pt on Vulcan XC-72 | P10A050 | 1g/5g |
| 10% Pt on Vulcan XC-72 | P10A100 | 1g/5g |
| 20% Pt on Vulcan XC-72 | P10A200 | 1g/5g |
| 30% Pt on Vulcan XC-72 | P10A300 | 1g/5g |
| 40% Pt on Vulcan XC-72 | P10A400 | 1g/5g |
| 50% Pt on Vulcan XC-72 | P10A500 | 1g/5g |
| 60% Pt on Vulcan XC-72 | P10A600 | 1g/5g |
| 80% Pt on Vulcan XC-72 | P10A800 | 1g/5g |
| Pt Black, High surface area: 40-50 m2/g, Low density: 0.6-0.9 g/ml | P10V010 | 1g/5g |
| 20% Pt on Durable Carbon | P10D200 | 1g/5g |
| 20% Pt on Vulcan XC-72R | P10B200 | 1g/5g |
| 40% Pt on Vulcan XC-72R | P10B400 | 1g/5g |
| 60% Pt on Vulcan XC-72R | P10B600 | 1g/5g |
| 40% Pt on high surface area Ketjenblack | P10E400 | 1g/5g |
| 50% Pt on high surface area Ketjenblack, | P10E500 | 1g/5g |
| 60% Pt on high surface area Ketjenblack | P10E600 | 1g/5g |
| 70% Pt on high surface area Ketjenblack | P10E700 | 1g/5g |
| 5% Pt-Ru (1:1 atomic ratio) on Vulcan XC-72 | P12A050 | 1g/5g |
| 10% Pt-Ru (1:1 atomic ratio) on Vulcan XC-72 | P12A100 | 1g/5g |
| 20% Pt-Ru (1:1 atomic ratio) on Vulcan XC-72 | P12A200 | 1g/5g |
| 30% Pt-Ru (1:1 atomic ratio) on Vulcan XC-72 | P12A300 | 1g/5g |
| 40% Pt-Ru (1:1 atomic ratio) on Vulcan XC-72 | P12A400 | 1g/5g |
| 50% Pt-Ru (1:1 atomic ratio) on Vulcan XC-72 | P12A500 | 1g/5g |
| 60% Pt-Ru (1:1 atomic ratio) on Vulcan XC-72R | P12B600 | 1g/5g |
| 60% Pt-Ru (1:1 atomic ratio) on Vulcan XC-72 | P12A600 | 1g/5g |
| 80% Pt-Ru (1:1 atomic ratio) on Vulcan XC-72 | P12A800 | 1g/5g |
| Pt-Ru Black (1:1 atomic ratio) | P12V010 | 1g/5g |
| Pt-Ru Black (2.5:1 atomic ratio) | P12V250 | 1g/5g |
| Pt-Ru-Ir Black (1:1:1 atomic ratio) | P124V010 | 1g/5g |
| 50% Pt-Ru (1:1 atomic ratio) on Ketjenblack | P12E500 | 1g/5g |
| 60% Pt-Ru (1:1 atomic ratio) on Ketjenblack | P12E600 | 1g/5g |
| 75% Pt-Ru (1:1 atomic ratio) on Ketjenblack | P12E750 | 1g/5g |
| 20% Pt-Pd (1:3 atomic ratio) on Vulcan XC-72 | P13A203 | 1g/5g |
| 20% Pt-Pd (1:1 atomic ratio) on Vulcan XC-72 | P13A200 | 1g/5g |
| 20% Pt-Pd (3:1 atomic ratio) on Vulcan XC-72 | P13A230 | 1g/5g |
| 40% Pt-Pd (1:1 atomic ratio) on Vulcan XC-72 | P13A400 | 1g/5g |
| Pt-Pd Black (1:1 atomic ratio) | P13V010 | 1g/5g |
| Pt-Rh Black (1:1 atomic ratio) | P15V010 | 1g/5g |
| 20% Pt-Ir (1:3 atomic ratio) on Vulcan XC-72 | P14A203 | 1g/5g |
| 20% Pt-Ir (1:1 atomic ratio) on Vulcan XC-72 | P14A200 | 1g/5g |
| 20% Pt-Ir (3:1 atomic ratio) on Vulcan XC-72 | P14A230 | 1g/5g |
| 40% Pt-Ir (1:1 atomic ratio) on Vulcan XC-72 | P14A400 | 1g/5g |
| Pt-Ir Black (1:1 atomic ratio) | P14V010 | 1g/5g |
| 20% Pt-Cr (3:1 atomic ratio) on Vulcan XC-72 | P1AA230 | 1g/5g |
| 40% Pt-Cr (3:1 atomic ratio) on Vulcan XC-72 | P1AA430 | 1g/5g |
| 20% Pt-Fe (1:1 atomic ratio) on Vulcan XC-72 | P1BA200 | 1g/5g |
| 40% Pt-Fe (1:1 atomic ratio) on Vulcan XC-72 | P1BA400 | 1g/5g |
| 40% Pt-Fe (3:1 atomic ratio) on Vulcan XC-72 | P1BA430 | 1g/5g |
| 20% Pt-Co (1:1 atomic ratio) on Vulcan XC-72 | P1CA200 | 1g/5g |
| 20% Pt-Co (3:1 atomic ratio) on Vulcan XC-72 | P1CA230 | 1g/5g |
| 40% Pt-Co (1:1 atomic ratio) on Vulcan XC-72 | P1CA400 | 1g/5g |
| 40% Pt-Co (3:1 atomic ratio) on Vulcan XC-72 | P1CA430 | 1g/5g |
| 60% Pt-Co (3:1 atomic ratio) on Ketjenblack | P1CE630 | 1g/5g |
| 20% Pt-Ni (1:1 atomic ratio) on Vulcan XC-72 | P1DA200 | 1g/5g |
| 20% Pt-Ni (3:1 atomic ratio) on Vulcan XC-72 | P1DA230 | 1g/5g |
| 40% Pt-Ni (1:1 atomic ratio) on Vulcan XC-72 | P1DA400 | 1g/5g |
| 40% Pt-Ni (3:1 atomic ratio) on Vulcan XC-72 | P1DA430 | 1g/5g |
| 60% Pt-Ni (3:1 atomic ratio) on Ketjenblack | P1DE630 | 1g/5g |
| 20% Pt-Cu (1:1 atomic ratio) on Vulcan XC-72 | P1EA200 | 1g/5g |
| 20% Pt-Cu (3:1 atomic ratio) on Vulcan XC-72 | P1EA230 | 1g/5g |
| 20% Pt-Sn (3:1 atomic ratio) on Vulcan XC-72 | P1FA230 | 1g/5g |
| 40% Pt-Sn (3:1 atomic ratio) on Vulcan XC-72 | P1FA430 | 1g/5g |
| 20% Pd-Ir (1:3 atomic ratio) on Vulcan XC-72 | P34A203 | 1g/5g |
| 20% Pd-Ir (1:1 atomic ratio) on Vulcan XC-72 | P34A200 | 1g/5g |
| 20% Pd-Ir (3:1 atomic ratio) on Vulcan XC-72 | P34A230 | 1g/5g |
| 20% Pd-Rh (1:1 atomic ratio) on Vulcan XC-72 | P35A200 | 1g/5g |
| 20% Pd-Rh (3:1 atomic ratio) on Vulcan XC-72 | P35A230 | 1g/5g |
| 20% Pd-Ni (1:1 atomic ratio) on Vulcan XC-72 | P3DA200 | 1g/5g |
| 40% Pd-Au (1:1 atomic ratio) on Ketjenblack | P13E400 | 1g/5g |
| 5% Pd on Vulcan XC-72 | P30A050 | 1g/5g |
| 10% Pd on Vulcan XC-72 | P30A100 | 1g/5g |
| 20% Pd on Vulcan XC-72 | P30A200 | 1g/5g |
| 40% Pd on Vulcan XC-72 | P30A400 | 1g/5g |
| 40% Pd on Ketjenblack | P30E400 | 1g/5g |
| 60% Pd on Vulcan XC-72 | P30A600 | 1g/5g |
| 80% Pd on Vulcan XC-72 | P30A800 | 1g/5g |
| Pd Black, High surface area 40~48 m2/g | P30V010 | 1g/5g |
| 20% Ru on Vulcan XC-72 | P20A200 | 1g/5g |
| 40% Ru on Vulcan XC-72, | P20A400 | 1g/5g |
| Ru Black, High surface area 38~48 m2/g | P20V010 | 1g/5g |
| RuO2 powder, Surface area 18-25 m2/g | P20V020 | 1g/5g |
| 5% Ir on Vulcan XC-72 | P40A050 | 1g/5g |
| 10% Ir on Vulcan XC-72 | P40A100 | 1g/5g |
| 20% Ir on Vulcan XC-72 | P40A200 | 1g/5g |
| 40% Ir on Vulcan XC-72 | P40A400 | 1g/5g |
| Ir Black, High Surface area, 55~65 m2/g, | P40V010 | 1g/5g |
| IrOx powder, conductive, SA:10-20 m2/g | P40V020 | 1g/5g |
| Ru-Ir Black (1:1 atomic ratio) | P24V010 | 1g/5g |
| 20% Rh on Vulcan XC-72 | P50A200 | 1g/5g |
| Rh Black, High surface area 40~50 m2/g | P50V010 | 1g/5g |
| 20% Au on Vulcan XC-72 (Au particle size: 4-8 nm) | P60N200 | 1g/5g |
| 20% Au on Vulcan XC-72 (Au particle size: ~25 nm) | P60A200 | 1g/5g |
| 30% Au on Vulcan XC-72 (Au particle size: 8 nm) | P60N300 | 1g/5g |
| 40% Au on Vulcan XC-72 (Au particle size: ~35 nm) | P60A400 | 1g/5g |
| 40% Au on Ketjenblack (Au particle size: 4 nm) | P60E400 | 1g/5g |
| 60% Au on Vulcan XC-72 (Au particle size: ~45 nm) | P60A600 | 1g/5g |
| 5% Fe on Vulcan XC-72 | T10A050 | 1g/5g |
| 10% Fe on Vulcan XC-72 | T10A100 | 1g/5g |
| 20% Fe on Vulcan XC-72 | T10A200 | 1g/5g |
| 1% Co on Vulcan XC-72 | T20A010 | 1g/5g |
| 5% Co on Vulcan XC-72 | T20A050 | 1g/5g |
| 10% Co on Vulcan XC-72 | T20A100 | 1g/5g |
| 20% Co on Vulcan XC-72 | T20A200 | 1g/5g |
| 1% Ni on Vulcan XC-72 | T30A010 | 1g/5g |
| 5% Ni on Vulcan XC-72 | T30A050 | 1g/5g |
| 10% Ni on Vulcan XC-72 | T30A100 | 1g/5g |
| 20% Ni on Vulcan XC-72 | T30A200 | 1g/5g |
| 40% Ni on Vulcan XC-72 | T30A400 | 1g/5g |
| 1% Cu on Vulcan XC-72 | T40A010 | 1g/5g |
| 5% Cu on Vulcan XC-72 | T40A050 | 1g/5g |
| 10% Cu on Vulcan XC-72 | T40A100 | 1g/5g |
| 20% Cu on Vulcan XC-72 | T40A200 | 1g/5g |
| 40% Cu on Vulcan XC-72 | T40A400 | 1g/5g |
| 60% Cu on Vulcan XC-72 | T40A600 | 1g/5g |
| 20% Ag on Vulcan XC-72 | P70A200 | 1g/5g |
| 40% Ag on Vulcan XC-72 | P70A400 | 1g/5g |
| 60% Ag on Vulcan XC-72 | P70A600 | 1g/5g |
| 80% Ag on Vulcan XC-72 | P70A800 | 1g/5g |
| Platinum (II) acetylacetonate, 5 g each | P10H110 | 5g |
| (1,5-Cyclooctadiene)dimethylplatinum(II), 1 g each | P10H120 | 1g |
| Dichloro(1,5-cyclooctadiene)platinum(II), 5 g each | P10H130 | 5g |
| Diphenyl(1,5-cyclooctadiene)platinum(II), 5 g each | P10H140 | 5g |
| Trimethylbenzylammoniumhexachloroplatinate (IV), 1 g each | P10H150 | 1g |
| Palladium(II) acetylacetonate, 5 g each | P30H110 | 5g |
| Dichloro(1,5-cyclooctadiene)palladium(II), 5 g each | P30H120 | 5g |
| Hermann's Catalyst, 5 g each | P30H130 | 5g |
| 1,1'-Bis(di-tert-butylphosphino)ferrocene palladium dichloride, 1 g each | P30H140 | 1g |
| Bis(dibenzylideneacetone)palladium(0), 5 g each | P30H150 | 5g |
| Palladium(0) tetrakis(triphenylphosphine), 5 g each | P30H160 | 5g |
| Ruthenium(III) acetylacetonate, 5 g each | P20H110 | 5g |
| Dichloro(1,5-cyclooctadiene)ruthenium(II), polymer, 5 g each | P20H120 | 5g |
| Bis(cyclopentadienyl)ruthenium, 5 g each | P20H130 | 5g |
| Irridium(III) acetylacetonate, 5 g each | P40H110 | 5g |
| Chloro(1,5-cyclooctadiene)iridium(I) dimer, 5 g each | P40H120 | 5g |
| Rhodium(III) acetylacetonate, 5 g each | P50H110 | 5g |
| Chloro(1,5-cyclooctadiene)rhodium(I) dimer, 1 g each | P50H120 | 1g |
| Chloro(triphenylphosphine)gold(I), 5 g each | newitem3 | 5g |
| Bromo(triphenylphosphine)gold(I), 5 g each | P60H110 | 5g |
| Chloro(1,5-cyclooctadiene)rhodium(I) dimer, 98% 1 g | P50-002 | 1g |
| Chloro(1,5-cyclooctadiene)rhodium(I) dimer, 98% 1 g | P50-002 | 1g |
| Doyledirhodium catalyst-Rh2(5R-MPPIM)4, 1 g | P50-001 | 1g |
| Doyledirhodium catalyst-Rh2(5S-MPPIM)4, 1 g | P50-003 | 1g |
更多详情请联系
艾美捷科技有限公司
全国服务热线:400-6800-868
邮箱:sales@amyjet.com
网站:www.amyjet.com
invivoCrown IV0102替换BioXCell BE0003-1
invivoCrown IV0116替换BioXCell BE0016-2
invivoCrown IV0112替换BioXCell BE0131

艾美捷科技代理Mediomics品牌。
Mediomics提供学术研究实验室、即时检测、制药公司以及医疗和环境研究市场所需的创新检测试剂盒和生物传感器。这些快速简单的检测试剂盒将用于定量许多具有生物学和治疗意义的大分子,包括:DNA、生物标志物、激素、抗体、细胞内信号分子、蛋白质-蛋白质复合物、细菌、真菌和病毒。Mediomics 的平台技术已经适用于检测一系列重要的大分子,包括 cAMP、色氨酸、S-腺苷甲硫氨酸、PDE、生物素、胰岛素、C 肽、白蛋白、C 反应蛋白 (hCRP)、IgG、IgM、大肠杆菌等。Mediomics的平台技术将能够生成全新的生物材料,可用于检测开发和治疗产品的开发。
Mediomics 目前拥有四项核心专有技术:
(1)Bridge-It®,灵敏、快速混合和测量 DNA 结合蛋白检测平台;
(2)PINCER,®快速混合和测量生物传感器、生物测定和生物芯片平台;
(3)创新的专有方法,用于筛选和开发用于研究、诊断和治疗的新型高亲和力捕获试剂;
(4)抗血管生成相关疗法。
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