Micro-Macro SERS Strategy for Highly Sensitive Paper Cartridge with Trace-Level Molecular Detection, Biosensors and Bioelectronics, 2024, 264, 116665. [45] Langlang Yi, Jie Zhang, Jianduo Wu, Yuan Zhuang, Qin Song, Lei Zhao, Minghui Liang, Guoqian Li, Bo Hu*, Pengju Yin*, Helene Castel, Alexandre Maciuk, and Bruno Figadere*
[44] Qiang Yu, Xiaokun Shen, Langlang Yi, Minghui Liang, Guoqian Li, Zhihui Guan, Xiaoyao Wu, Helene Castel, Bo Hu*, Pengju Yin*, and Wenbo Zhang* Fragment-Fusion Transformer: Deep Learning-Based Discretization Method for Continuous Single-Cell Raman Spectral Analysis, ACS Sensors, 2024, 9, 3907–3920.
[43] Guoqian Li, Jinkun Fan, Ting Zhang, Ting Gao, Yuying Chong, Minghui Liang, Shijian Liang, Bo Hu*, Langlang Yi*, Lei Zhao*, and Helene Castel* Honeycomb-Inspired Surface-Enhanced Raman Scattering Microarray for Large-Area Automated Testing of Urease in Saliva Samples, ACS Sensors, 2024, 9, 2031–2042.
[42] Minghui Liang, Xiang Liu, Yuying Chong, Ziyun Ye, Lei Zhao, Qiang Yu, Kai Tang, Anqi Geng, Guanqun Ge,* Shifang Yuan,* and Bo Hu,* Engineering Biosensors and Biomedical Detection Devices from 3D-Printed Technology, ECS Sensors Plus, 2023, 2, 030604.
[41] Lei Zhao, Ziyun Ye, Qilu Xue, Langlang Yi, Bo Hu,* Ruichan Lv,* Jie Tian* A plug-and-play 3D hydrodynamic focusing Raman platform for label-free and dynamic single microparticle detection, Sensors and Actuator B: Chemical, 2022, 369, 132273.
[40] Qingqing Hu, Hongfei Zhang, Yusi Zheng, Hongwei Qin, Bo Hu,* Qiang Yu,* Jie Tian* Biological Characteristics of Cell Similarity Measure, Advanced Intelligent Systems, 2022, 4, 2100093.
[39] Bao Yue Zhang,* Pengju Yin, Yilong Hu, Crispin Szydzik, Muhammad Waqas Khan, Kai Xu, Peter Thurgood, Nasir Mahmood, Chaitali Dekiwadia, Sanjida Afrin, Yunyi Yang, Qijie Ma, Chris F. McConville, Khashayar Khoshmanesh, Arnan Mitchell, Bo Hu, Sara Baratchi,* Jian Zhen Ou, * Highly accurate and label-free discrimination of single cancer cell using a plasmonic oxide-based nanoprobe, Biosensors and Bioelectronics, 2021, 189, 113814.
[38] He Cheng,# Langlang Yi,# Jianduo Wu, Guoqian Li, Gang Zhao, Zhixiang Xiao, Bo Hu,* Lei Zhao,* Jie Tian* Drug preconcentration and direct quantification in biofluids using 3D-Printed paper cartridge, Biosensors and Bioelectronics, 2021, 189, 113266.
[37] Pengju Yin,# Guoqian Li,# Baoyue Zhang, Haque Farjana, Lei Zhao, Hongwei Qin, Hongyan Shi, Bo Hu,* Jianzhen Ou,* Jie Tian* Facile PEG-Based Isolation and Classification of Cancer Extracellular Vesicles and Particles with Label-Free Surface-Enhanced Raman Scattering and Pattern Recognition Algorithm, Analyst , 2021, 146(6), 1949-1955.
[36] Lei Zhao, Bingyao Dong, Wei Li, Hongfei Zhang, Yusi Zheng, Chu Tang, Bo Hu,* and Shifang Yuan* Smartphone-based Quantitative Fluorescence Detection of Flowing Droplets Using Embedded Ambient Light Sensor, IEEE Sensors Journal , 2021, 21(4), 4451-4461.
[35] Ruichan Lv,* Fan Yang, Xue Jiang, Bo Hu, Xianghan Zhang, Xueli Chen, Jie Tian Plasmonic modulated upconversion fluorescence by adjustable distributed gold nanoparticles, Journal of Luminescence, 2020, 220, 116974.
[34] Pengju Yin, Lei Zhao, Zezhou Chen, Zhiqiang Jiao, Hongyan Shi, Bo Hu,* Shifang Yuan* and Jie Tian* Simulation and practice of particle inertial focusing in 3D-printed serpentine microfluidic chips viacommercial 3D-printers, Soft Matter,2020, 16, 3096-3105.
[33] Langlang Yi,# Lei Zhao,# Qilu Xue, He Cheng, Hongyan Shi, Jinkun Fan, Shixuan Cai, Guoqian Li, Bo Hu,* Liyu Huang* and Jie Tian* Non-Powered Capillary Force-Driven Stamped Approach for Directly Printing Nanomaterials Aqueous Solution on Paper Substrate, Lab on a chip,2020, 20,931-941.
[32] Fenxiang Hong,# Chu Tang,# Qilu Xue, Lei Zhao, Hongyan Shi,* Bo Hu,* Xianghan Zhang* Simultaneously Enhanced Singlet Oxygen and Fluorescence Production of Nanoplatform by Surface Plasmon Resonance Coupling for Biomedical Applications, Langmuir,2019, 35, 46, 14833-14839.
[31] Shixuan Cai,# Hongyan Shi,# Guoqian Li, Qilu Xue, Lei Zhao,* Fu Wang,* Bo Hu* 3D-Printed Concentration-Controlled Microfluidic Chip with Diffusion Mixing Pattern for the Synthesis of Alginate Drug Delivery Microgels, Nanomaterials,2019, 9, 1451.
[30] Zezhou Chen,# Lei Zhao,# Lujie Wei, Ziyu Huang, Pengju Yin, Xiaowen Huang,* Hongyan Shi, Bo Hu,* Jie Tian* River Meander-inspired Cross-section in 3D-printed Helical Microchannels for Inertial Focusing and Enrichment, Sensors and Actuators B: Chemical, 2019, 301, 127125.
[29] Xiaoding Xu,# Lei Zhao,# Qilu Xue, Jinkun Fan, Qingqing Hu, Chu Tang, Hongyan Shi,* Bo Hu,* Jie Tian* Dynamic Liquid Surface Enhanced Raman Scattering Platform Based on Soft Tubular Microfluidics for Label-Free Cell Detection, Analytical Chemistry, 2019, 91, 7973-7979.
[28] Zhiqiang Jiao#, Lei Zhao#, Chu Tang, Hongyan Shi, * Fu Wang,* Bo Hu,* Droplet-based PCR in a 3D-printed microfluidic chip for miRNA-21 detection, Analytical Methods, 2019, 11, 3286–3293.
[27] Feng Miao, Lv Ruichan*, Xiao Liyang, Hu Bo, Zhu Shouping, He Fei, Yang Piaoping*,Tian Jie*, Highly Erbium-Doped Nanoplatform with Enhanced Red Emission for Dual-Modal Optical-Imaging-Guided Photodynamic Therapy. Inorganic Chemistry, 2018, 57, 14594-14602.
[26] Pengju Yin#, Bo Hu#,*, Langlang Yi, Chun Xiao, Xu Cao, Lei Zhao,* Hongyan Shi*, Engineering of Removing Sacrificial Materials in 3D Printed Microfluidics, Micromachines, 2018, 9, 327.
[25] Ruichan Lv, Piaoping Yang, Bo Hu, Jiating Xu, Wenting Shang, Jie Tian*, In Situ Growth Strategy to Integrate Up-Conversion Nanoparticles with Ultrasmall CuS for Photothermal Theranostics, ACS Nano, 2017, 11, 1064-1072.(ESI高被引论文)
[24] Guoyou Huang, Limei Tian, Keng-Ku Liu, Bo Hu, Feng Xu, Tian Jian Lu, Rajesh R. Naik, and Srikanth Singamaneni*, Elastoplastic Deformation of Silk Micro- and Nanostructures, ACS Biomaterials Science & Engineering, 2016, 2, 893-899.
[23] Bo Hu, Xian Cao, Ms. Tevhide Ozkaya Ahmadov, Rui Ding, Hong Tang, Peng Zhang*, Light-Harvesting Photosensitizers for Photodynamic Inactivation of Bacteria under Both Visible and Near-Infrared Excitations, Chemistry-An Asian Journal, 2016, 11, 1092-1097.
[22] Bo Hu, Xian Cao, Keaton Nahan, Joseph Caruso, Hong Tang, Peng Zhang*, Surface Plasmon-Photosensitizer Resonance Coupling: An enhanced Singlet Oxygen Production Platform for Broad-Spectrum Photodynamic Inactivation of Bacteria,Journal of Materials Chemistry B 2014, 2, 7073-7081.
[21] Bo Hu, Xian Cao, Peng Zhang*, Selective Colorimetric Detection of Glutathione Based on Quasi-Stable Gold Nanoparticles Assembly, New Journal of Chemistry, 2013, 37, 3853-3856.
[20] Bo Hu, Xian Cao, Peng Zhang*, Dual Control of Interparticle Forces in Assembly of Gold Nanoparticles, ChemPlusChem, 2013, 78, 506-514.
[19] Bo Hu, Yang Zhao, Haizhou Zhu, Shu-Hong Yu*, Selective Chromogenic Detection of Thoil-Containing Biomolecules Using Carbonaceous Nanospheres Loaded with Silver Nanoparticles as Carrier, ACS Nano 2011, 5, 3166-3171.
[18] Bo Hu, Kan Wang, Liheng Wu, Shu-Hong Yu*, Markus Antonietti, Maria-Magdalena Titirici*, Engineering Carbon Materials from Hydrothermal Carbonization Process of biomass, Advanced Materials 2010, 22, 813-828.(ESI高被引论文)
[17] Hongyan Shi#, Bo Hu#, XiaoChun Yu, RongLi Zhao, XiFeng Ren, ShiLin Liu, JianWei Liu, Mei Feng, AnWu Xu,Shu-Hong Yu*, Ordering of Disordered nanowires: Spontaneous Formation of Highly Aligned, Ultralong Ag Nanowire Films at Oil-Water-Air Interface, Advanced Functional Materials, 2010, 20, 958-964 (# contribute equally).
[16] Bo Hu, Liheng Wu, Shujuan Liu, Shaofeng Chen, Hongbin Yao, Hongyan Shi, Gongpu Li, Shu-Hong Yu*, Microwave-Assisted Synthesis of Silver Indium Tungsten Oxide Mesocrystals: Selective Photocatalytic Properties, Chemical Communications, 2010, 46, 2277-2279.
[15] Bo Hu, Liheng Wu, Zhi Zhao, Meng Zhang, Shaofeng Chen, Shujuan Liu, Hongyan Shi, Zejun Ding, Shu-Hong Yu*, Hierarechical Silver Indium Tungsten Oxide Mesocrystals with Morphology-, Pressure-, and Temperature-dependent Lumniescent Properties, Nano Research, 2010, 3, 395-403.
[14] Bo Hu, Kan Wang, Lei Liu, Shu-Hong Yu*, Functional Carbonaceous Materials from Hydrothermal Carbonization of Biomass: An Effective Chemical Process, Dalton Transactions, 2008, 5414 - 5423. Perspective. Cover. Highlighted by RSC.
[13] Bo Hu, Shaofeng Chen, Shujuan Liu, Qingsong Wu, Weitang Yao, Shu-Hong Yu*, Controllable Synthesis of Zinc-Substituted alpha- and beta-Nickel Hydroxide Nanostructures and Their Collective Intrinsic Properties, Chemistry – A European Journal, 2008, 14, 8928 – 8938.
[12] Bo Hu, Shang-Bing Wang, Kan Wang, Meng Zhang, Shu-Hong Yu*, Microwave Assisted Rapid Facile “Green” Synthesis of Uniform Silver Nanoparticles: Self-Assembly into Multil[ant]ayered Films and Optical Property, Journal of Physical Chemistry C, 2008, 112, 11169-11174.
[11] Xian Cao, Bo Hu, Rui Ding, Peng Zhang*, Plasmon-enhanced homogeneous and heterogeneous triplet–triplet annihilation by gold nanoparticles, Physical Chemistry Chemical Physics, 2015, 17, 14479-14483.
[10] Xian Cao, Bo Hu, Peng Zhang*, High Upconversion Efficiency from Hetero Triplet–Triplet Annihilation in Multiacceptor Systems, Journal of Physical Chemistry Letters, 2013, 4, 2334-2338.
[9] Yongming Lu, Haizhou Zhu, Weigu Li, Bo Hu and Shu-Hong Yu*, Size-Controllable Palladium Nanoparticles Immobilized on Carbon Nanospheres for Nitroaromatic Hydrogenation, Journal of Materials Chemistry A, 2013, 1, 3783–3788.
[8] Liheng Wu, Hongbin Yao, Bo Hu, Shu-Hong Yu*, Unique Lamellar Sodium/Potassium Iron Oxide Nanosheets: Facile Microwave-Assisted Synthesis and Magnetic and Electrochemical Properties, Chemistry of Materials, 2011, 23, 3946-3952.
[7] Guo-Ping Guo, Rui Yang, Xi-Feng Ren*, Lu-Lu Wang, Hong-Yan Shi, Bo Hu, Shu-Hong Yu*, Guang-Can Guo, Excitation of Surface Plasmons in a Single Silver Nanowire using Higher-Order-Mode Light, Phys E, 2010, 42, 1751-1754.
[6] Lei Liu, Bo Hu, Shaofeng Chen, Shujuan Liu, Jun Jiang, Guobin Cai, Shu-Hong Yu*, Mineralization of Calcite Ribbons on An Allium Fistulosum L. Bulb Inner Membrane in An Ethanol–Water Mixed Solvent under Control of Polyacrylic Acid by a Double Diffusion Method, CrystEngComm, 2010, 12, 3593-3598.
[5] Dian He, Bo Hu, Qiaofeng Yao, Kan Wang and Shu-Hong Yu*,Large-Scale Synthesis of Flexible Free-Standing SERS Substrates with High Sensiticity: Electrospum PVA nanofibers em[ant]bedded with Controlled Alignment of Silver Nanoparticles, ACS Nano, 2009, 3, 3993-4002.
[4] Shujuan Liu, Junyan Gong, Bo Hu, Shu-Hong Yu*, Mesocrystals of Rutile TiO2: Mesoscale Transformation, Crystallization and Growth by a Biologic Molecules-Assisted Hydrothermal Process, Crystal Growth & Design, 2009, 9, 203–209.
[3] Shujuan Liu,Xiaoxi Wu, Bo Hu, Junyan Gong, Shu-Hong Yu*, Novel Anatase TiO2 Boxes and Tree-like Structures Assembled by Hollow Tubes: d,l-Malic Acid-Assisted Hydrothermal Synthesis, Growth Mechanism, and Photocatalytic Properties, Growth Mechanism and Photocatalytic Properties, Crystal Growth & Design, 2009, 9(3), 1511-1518.
[2] Junjie Wang, Jun Jiang, Bo Hu, Shu-Hong Yu*, Uniformly Shaped Poly (p-phenylenediamine) (PpPD) Microparticles: Shape Control Synthesis and Their Potential Application in Removal of Lead Irons in Water, Advanced Functional Materials, 2008, 18, 1101-1111.
[1] Shang-Bing Wang, Bo Hu, Chang-Chang Liu, Shu-Hong Yu*, Syringe Pump-Assisted Synthesis of Water-Soluble Cubic Structure Ag2Se Nanocrystals by Cation-Exchange Reaction, Journal of Colloid and Interface Science, 2008, 325, 351-355.
[1] Bo Hu, Haizhou Zhu, and Shu-Hong Yu*, “Hydrothermally Synthesized Carbonaceous Nanocomposites” In “Sustainable Carbon Materials from Hydrothermal Processes”, Edited by MARIA-MAGDALENA TITIRICI, by A John Wiley & Sons, Ltd., Publication, 2013, pp 101-125.
[2] Bo Hu, Yongyan Shi, Shu-Hong Yu*, “Synthesis of metal Nanostructures by Photoreduction” In “Recent Advances in Nanoscale Science and Technology (RANST)", Edited by Sunil Kumar Bajpai, Murali Mohan Yallapu, by Bentham Science Publishers Ltd., UK, 2009, pp 38-53.
[16] 于强,胡波,交叉学科课程建设研究,新教育时代,2020,9, 208-209.
[15] 陈朝晖,吴巍炜,胡波,吕锐婵,前沿交叉学科“课程思政”教学改革实践探索—以生物医用材料课程为例,教育教学论坛,2020,47, 57-58.
[14] 陈泽州,胡波,基于微流控芯片何表面增强拉曼散射的乳腺癌循环肿瘤细胞检测数字诊疗新技术,科技成果管理与研究,2020,15(1), 73-75.
[13] 王佳, 田蕊, 胡青青, 胡波, 王婷,动手实践科普教育创新模式研究,青年时代,2019,71(21), 251-252.
[12] 赵恒,陈娱欣,续小丁,胡波,基于局部对称重加权惩罚最小二乘的拉曼基线校正,中国激光, 2018, (12), 280-291.
[11] 胡波,拉曼光谱检测和荧光成像助推循环肿瘤细胞检测——“乳腺癌循环肿瘤细胞成像和检测数字诊疗新技术研究”项目简介,健康之路, 2016, (09), 245-246
[10] 韩效钊*, 胡波, 陆亚玲, 肖正辉, 张卫新, 钾长石与氯化钠离子交换动力学, 化工学报, 2006, 57, 2206-2206.
[9] 韩效钊*, 胡波, 陆亚玲, 肖正辉, 阎勇,正交法钾长石与磷矿共酸浸提钾工艺研究, 化肥工业, 2006, 33(3), 17-20.
[8] 韩效钊*, 胡波, 肖正辉, 陈敏, 茅伟, 钾长石与磷矿共酸浸提钾过程实验研究, 化工矿物与加工, 2005,34 (9), 1-3.
[7] 韩效钊*, 胡波, 高新勤, 唐述培, 表面活性剂与钾长石提钾过程的相容性研究, 矿产综合利用, 2005, 26 (6), 3-7.
[6] 胡波,韩效钊*,肖正辉, 陆亚玲,陈敏,我国钾长石矿产资源分布、开发利用、问题与对策,化工矿产地质, 2005, 27(1), 25-32.
[5] 韩效钊*,阎勇,胡波,胡献国,钾长石与磷矿磷酸反应机理研究,磷肥与复肥,2007, 22(5), 19-22.
[4] 韩效钊*,姚卫棠,胡波,邓正涛,离子交换法从钾长石提钾,应用化学,2003, 20(4), 373-375.
[3] 韩效钊*,姚卫棠,胡波,金国清,封闭恒温法由磷矿磷酸与钾长石反应提钾机理探讨,中国矿业,2003, 15(5), 56-58.
[2] 姚卫棠*,韩效钊,胡波,邓正涛,论钾长石的研究现状及开发前景,化工矿产地质,2002, 24(3), 151-156.
[1] 韩效钊*,姚卫棠,金国清,胡波,邓正涛,安徽宁国钾长石共烧结工艺研究,矿物岩石地球化学通报,2002, 21(3), 210-213.
[1] Pengju Yin, Bo Hu*, Shoupin Zhu, Jie Tian. Inertial focusing circulating breast cancer cells based on the novel 3D-printed serpentine microfluidic chips. Cancer Research, 2017, 77(4), pp.P1-01-20.