王浩课题组
Wang Hao's Group
专利、专著、会议
授权专利:
[23]. 王浩; 王磊; 李秉南, 一种可在肿瘤原位形成纳米防御网络的自组装材料及其制备方法和应用中国,ZL201910147454.4
[22]. 王浩; 罗强;林耀新;王磊,一种多肽聚合物纳米材料及其制备方法和应用,中国,ZL201710285828.X
[21]. 王浩; 乔增莹;高宇娟;丛勇,一种pH敏感的多肽聚合物及其制备方法和应用,中国,ZL201710137612.9
[20]. 杨洋;李影;王磊;李峻柏,一种负载有AIE分子的脂质体分散液及其制备方法和用途,中国,ZL201711372003.8
[19]. 王浩;王羿;乔圣林,一种CpG药物及其制备方法和应用,中国,ZL201810419839.7
[18]. 王浩; 李莉莉;安红维;乔圣林,中国,一种药物递送体系及其制备方法与应用,ZL201710891549.8
[17]. 王浩; 罗强; 杨培培;王磊;齐国斌,一种基于双芘的pH响应自组装的多肽纳米材料及其制备方法和应用,中国,ZL201610709616.5
[16]. 王浩;马洋;乔圣林;王羿,一种表面具有超微结构的纳米拮抗剂的制备方法和应用 中国,ZL201710628855.2
[15]. 杨洋;曹洪倩;王磊;李峻柏, 中国,一种复合纳米粒子及其制备方法和应用,ZL201810141671.8
[14]. 王浩,王磊;杨培培;安红维;赵宇亮,靶向新型冠状病毒COVID-19的多肽及其应用,中国,ZL202010548504.2
[13]. 王浩;乔圣林;马洋;李莉莉,一种细胞内构筑温度响应性聚集体的材料及其制备方法和应用,中国,ZL201710361961.9
[12]. 王浩;乔圣林;马洋,一种大分子温敏驱动器及其制备方法和应用,2019.02.22,中国,ZL201710361920.X。
[11]. 王浩;王磊;高宇娟,一种铁基磁性纳米颗粒区域修饰人工晶状体及其制备方法和用途,2019.06.14,中国,ZL201610955039.8。
[10]. 王浩;李莉莉;乔圣林;刘伟娇;马洋,基于细胞内酶催化聚合的多肽单体分子及其在构建纳米材料中的应用,2019.06.25,中国,ZL201610408076.7。
[9]. 王浩;王磊;高宇娟,一种金纳米棒区域修饰人工晶状体及其制备方法和用途,2019.09.17,中国,ZL201610578645.2。
[8]. 王浩;林耀新;王磊,一种分子探针及其制备方法和应用,2019.10.08,中国,ZL201610659738.8。
[7]. 王浩;王磊;杨超, 纳米人工晶体包装盒(可折叠一件式)。2017,中国,ZL201630480635.6 。
[6]. 王浩;李莉莉;马怀雷,一种靶向光声造影剂、其制备方法及应用。 2014,中国,ZL201410213818.1。
[5]. 王浩;乔增莹;侯春园,一种具有抗肿瘤活性的多肽聚合物及其制备方法和应用。2014,中国,ZL201410160139.2。
[4]. 王浩;王磊;李微,一种具有压致变色性质的双芘类化合物、制备方法及其应用。2014,中国,ZL201410147961.5。
[3]. 王浩;张 娣;赵莹茜,一种金磷炔化合物、其制备方法及用途。2013,中国,ZL201310439357.5。
[2]. Tseng,Hsian-Rong,Wang,Hao,Wang,Shutao,Su,Helen,Eadu,Caius,Czernin,johannes,A Supramolecular Approach for Preparation of Size-Controllable Nanoparticles. 2010,09,02,美国,WO/2010/099466.
[1]. Tseng,Hsian-Rong,Wang,Shutao,Wang,Hao,Liu,Kan,Device for Capturing Circulating Cells. 2010,09,23,美国,WO/2010/108003.
申请专利:
[22]. 王浩,李莉莉,黄张建,费越,一种多肽抗生素及其制备方法和用途,2019.01.23,中国,201910063935.7。
[21]. 王浩,王磊,贺平平,一种原位构筑人造细胞外基质的自组装材料及其制备方法和应用,2019.01.30,中国,201910091655.7。
[20]. 王浩,李莉莉,朱凯,一种抗菌导尿管及其制备方法和应用,2019.03.11,中国,201910181675.3。
[19]. 王浩,安红维,郑蕊,一种纳米药物及其制备方法和应用,2019.08.26,中国,201910792487.4。
[18]. 王磊,王浩,一种仿生纤维网络抗体自组装材料及其制备方法和应用,2019.10.18,中国,201910995134.4。
[17]. 王浩,徐万海,安红维,侯大勇,王子琦,王佳起,赵昌浩,一种成像探针及其制备方法和应用,2019.10.25,中国,201911023376.3。
[16]. 王浩,肖五一,王羿,安红维,侯大勇,一种基于点击反应阻断免疫检查点的多肽组合物及其制备方法和应用,2019.11.05,中国,201911072973.5。
[15]. 王浩,彭博,李莉莉,一种SPECT分子影像探针及其制备方法和应用,2019.02.26,中国,201910140825.6。
[14]. 王浩,王羿,林耀新,一种多肽-顺铂前药复合物、其自组装纳米递送体系及其制备方法和应用,2018.10.16,中国,201811203401.1。
[13]. 王浩,胡志远,丛勇,乔增莹,一种多肽聚合物及其制备方法和应用,2018.5.21,中国,201810490535.X。
[12]. 王浩,王羿,乔圣林,一种CpG药物及其制备方法和应用,2018.5.4,中国,201810419839.7。
[11]. 王浩,李莉莉,一种分子影像探针及其应用,2018.6.22,中国201810648875.0。
[10]. 王浩,罗强,林耀新,王磊,一种多肽聚合物纳米材料及其制备方法和应用,2017.04.27,中国,201710285828.X。
[9]. 王浩,李莉莉,安红维,乔圣林,一种药物递送体系及其制备方法与应用,2017.10.13,国际,PCT/CN2017/106078
[8]. 王浩,马洋,乔圣林,王羿,一种表面具有超微结构的纳米拮抗剂的制备方法和应用,2017.7.28,中国,201710628855.2。
[7]. 王浩,乔圣林,马洋,李莉莉,一种细胞内构筑温度响应性聚集体的材料及其制备方法和应用,2017.5.22,中国,201710361961.9。
[6]. 王浩,王羿,林耀新,一种药物及其制备方法和应用,2017.4.19,中国,201710257858.X。
[5]. 王浩,乔增莹,高宇娟,丛勇,一种pH 敏感的多肽聚合物及其制备方法和应用,2017.3.9,中国,201710137612.9。
[4]. 王浩,罗强,杨培培,王磊,齐国斌,一种基于双芘的pH 响应自组装的多肽纳米材料及其制备方法和应用,2016,中国,201610709616.5
[3]. 王浩,王磊,郝红勋,胡晓雪,一种含有双芘基团的多肽纳米材料及其制备方法和应用,2016,中国,201610989867.3。
[2]. 王浩;安红维;乔增莹,乔圣林,一种生物分子荧光标记方法及得到的荧光标记的生物分子及其应用,2016,中国,201610139809.1。
[1]. 王浩,王磊,李薇,一种双芘类化合物及其荧光纳米聚集体和应用。2013,中国,201310294411.1。
专著:
[4]. Li-Li Li and Hao Wang*,Self-assembled Biomaterials for Tissue Engineering: Smart Materials for Tissue Engineering: Fundamental Principles,Eds: Qun Wang,Royal Society of Chemistry,ISBN: 978-1-78262-464-6,2017.
[3]. Lei Wang and Hao Wang*,Near-Infrared Absorbing Nonmetallic Nanomaterials as Photoacoustic Contrast Agents for Biomedical Imaging. Springer,Handbook of Ultrasonics and Sonochemistry. 2016.
[2]. Kuan-Ju Chen,Mitch Andre Garcia,Hao Wang and Hsian-Rong Tseng,SupramolecularNanoparticles for Molecular Diagnostics and Therapeutics. Supramolecular Chemistry: From Molecules to Nanomaterials. Wiley Press. 2012.
[1]. Yu Liu,Heng-Yi Zhang,Li Li and Hao Wang, Nano-sized Supramolecular Chemistry:From Artificial Receptors to Functional Assemblies (in Chinese). Chemical Industry Press. 2005.
会议:
[23]. (Invited) The Fourth U.S.-China Symposium on Nanobiology and Nanomedicine,2014,October,Washington,American.
[22]. (Keynote) International Symposium on Polymer Chemistry.2014年国际高分子化学学术研讨会 2014,June,Shanghai,China.
[21]. (Invited) The International Conference on Nanoscience and Technology,Brazil-China. 2014 ,March,Brazil.
[20]. (Invited) In situ Construction of Supramolecular Nanosystems in vivo. Brazil-China Seminar on Nanotechnology. 2014 ,March,American.
[19]. (Keynote) Supramolecular Nanosystems for Cancer Theranostics. The 12th international conference on nanoscience and technology,2013,October,Chengdu,China.
[18]. (Invited) Supramolecular Nanomaterials and Their Applications in Biology. 2013年全国生物材料年会 2013,September,Xi'an,China.
[17]. (Invited) Construction of Supramolecular Nanosystems and Their Biological Applications. The 12th China International Conference of NanoScience and Technology 2013,October,Chengdu,China.
[16]. (Invited) Modular Chemistry for Cancer Therapeutics. 2013年全国高分子年会 2013,October,Shanghai,China.
[15]. (Invited) Supramolecular Nanosystems for Cancer Therapeutics.China-UK Forum on“Frontiers of Nanoscience – Surface and Interface Phenomena. 2013,September,Beijing,China.
[14]. (Invited) Catalytic Delivery Substrates for Biomolecules DeliveryAsianNano 2012,September,Lijiang,Yunnan,China.
[13]. (Keynote) High-Throughput Screening of Supramolecular Nanoparticles for Cancer Diagnostic andTherapeutics.The 6th International Conference on Nanotoxicity 2012,September,Beijing,China.
[12]. (Invited) p-Conjugated Molecules for fluorescence Imaging ProbeSino-Deutsch Symposium GZ842,pi-Structured Polymers and Carbon Nanomaterials for Energy Applications. 2012,September,Beijing,China.
[11]. (Invited) Supramolecular Nanoparticle for Cancer Diagnostic and Therapeutics.第28届中国化学年会 2012,April,Sichuan,China.
[10]. Bioorthogonal 18F-labeling of Biomolecules via Inverse Electron Demand Diels-Alder Cycloaddition.Wei-Yu Lin,Hao Wang et al. 2010 World Molecular Imaging Congress (WMIC 2010),September 8-11,2010,Kyoto,Japan.
[9]. Supramolecular Nanoparticles in Biology.Hao Wang,Kuan-ju Chen,Mitch Andre Garcia,et al. USC Oncology Center Symposium,Los Angels,June 2010.
[8]. A Fluidic Supramolecular Approach for Preparation of Nanoparticles Towards Biological Applications.Hao Wang,Kuan-ju Chen,Mitch Andre Garcia,Wei-Yu Lin et al. siRNA and microRNA Delivery Conference,Los Angels,June 2010.
[7]. Three-Dimensional Nanostructured Substrates for Highly Efficient Capture of Circulating Tumor Cells.Shutao Wang,Hao Wang,Ken-ichiro Kamei,Kuan-Ju Chen,Jing Sun,David J. Sherman,Christian P.Behrenbruch,* and Hsian-Rong Tseng. MRS Conference,Boston,2009.
[6]. A Supramolecular Approach for Preparation of Hybrid Nanoparticles for Cancer Thermotherapy.Kuan-ju Chen,Hao Wang,Shutao Wang,Helen Su,Ting-Hsiang Wu,Wei-Yu Lin,Yanju Wang,Jing Sun,Ken-ichiro Kamei,Michael van Dam,Eric P. Y. Chiou,Johannes Czernin,Caius R. Radu and Hsian-Rong Tseng.MRS Conference,Boston, 2009.
[5]. Integrated Microfluidic Chip-based Combinatorial Assembly of Supramolecular Nanoparticles for Gene Delivery.Hao Wang,Shutao Wang,Kuan-ju Chen,Kan Liu,Ting-Hsiang Wu,Wei-Yu Lin,Yanju Wang,Jing Sun,Ken-ichiro Kamei,Feng Guo,Clifton Shen,Michael van Dam,Eric P. Y. Chiou,Johannes Czernin,Caius R. Radu and Hsian-Rong Tseng. Gondon Conference-Supramolecular & Assemblies Chemistry,Waterville,ME. 2009.
[4]. Microfluidic Imaging Cytometry (MIC) Technology for In Vitro Molecular Diagnostics. Sun,J.;Ohashi,M.;Kamei,K.;Wang,H.;Masterman-Smith,M.;Yu,Z. T. F.;Suh,C.;Kornblum,H. I.;Nathanson,D.;Huang,T.;Mischel,P. S.;Tseng,H.-R.12th Intl. Conf. on Miniaturized Systems for Chemistry and Life Sciences (mTAS), 2008.
[3]. A Supramolecular Approach for Preparation of Size-Controllable Nanoparticles.Hao Wang,Shutao Wang,Helen Su,Kuan-ju Chen,Kan Liu,Ting-Hsiang Wu,Amanda Lee Armijo, Wei-Yu Lin,Yanju Wang,Jing Sun,Ken-ichiro Kamei,Feng Guo,Clifton Shen,Michael van Dam,Eric P. Y. Chiou,Johannes Czernin,Caius R. Radu and Hsian-Rong Tseng. NSBCC Annual Meeting,Caltech,2008.
[2]. Selective Binding of Ster oid Guests by L/D-Tryptophan-Modified–Cyclodextrins. Hao Wang,Heng-Yi Zhang,Yu Liu,Takehiko Wada,Yoshihisa Inoue The 3rd Asian Cyclodextrin Conference,Tianjin,Nankai University,May,2005.
[1]. Nanowires Compactness Controlled by Molecular Selective Binding of Bridged Bis(β-cyclodextrin)s.Yu Liu, Hao Wang,Heng-Yi Zhang,Li-Hua Wang,Yun Song,The 20th Asian Cyclodextrin Conference,p84,Ciba,Japan,September,2002.