健康

今天比以往任何时候,很明显,一切都取决于我们的健康。

Collaborating across all disciplines, NYU Tandon has been working at the intersection of engineering, healthcare, and life sciences for decades, and our researchers have the expertise to create next-generation solutions at every scale. 

petri dish

会议以创新的解决方案卫生挑战

我们结合深远的研究面向朝着长期的临床问题,阿波罗13分的思维方式,使我们能够创建 快速反应 to new medical challenges as they emerge. Being Tandon Made means being ready for the future now, because we don’t believe in waiting until a crisis hits to make good health a priority.

bioinformatics bridge

要想办法使世界更健康

我们的研究人员正在通过一系列的健康挑战,创新未来 - 从创建个性化 癌症治疗, 建造 先进身打扮 协助视障人士,并研究如何 AI可以公平地在医疗保健中使用

鲁米chunara

鲁米chunara

Assistant Professor of 计算机科学与工程 鲁米chunara develops computational and statistical approaches for acquiring, integrating, and using data to improve population-level public health. She considers health from a comprehensive perspective, employing data from both inside and outside the clinic, and some of her most recent research involves leveraging digital data to protect the most vulnerable in the fight against COVID-19.

伟强陈

伟强陈

伟强陈 is an Assistant Professor of 机械和航空航天工程 and 生物医学工程, and he heads Tandon’s 施加的微生物工程实验室. His research focuses on Lab-on-a-Chip, biomaterials, mechanobiology, stem cell biology, and applying microfabrication technology to illuminate biological systems at both the molecular and cellular levels, and some of his most recent work includes exploring the power of the small proteins known as cytokines to treat cancer.

研究 Labs & Groups

视图配置
Abstract image of human muscular system

应用动态和优化实验室

The ADO Lab studies the modeling, design, and control of engineered and biological systems. The Lab considers systems comprising both robotic and biomechanical components, such as wearable robots.

petri dish

施加的微生物工程实验室

Taking advantage of state-of-art nanotechnologies and fabricating fascinating functional biomaterials and integrated biosystems, we can address numerous important problems in fundamental biology as well as clinical applications in disease diagnosis and treatment.

Microscope

生物界面工程和诊断实验室

Levicky Group — The Bio-interfacial Engineering and Diagnostics Group’s research focuses on quantitative characterization of biomolecular interactions, with technological connections to diagnostics for medical and fundamental biology applications. The group seeks to dissect the fundamental equilibrium and kinetic aspects of biomolecular reactions at surfaces and in solution, elucidate the role played by the molecular organization, and apply this understanding to advance bioanalytical technologies.

chunara实验室

chunara实验室

The overarching goal of our research is to develop the principles needed to incorporate unstructured, Internet and mobile data into a better understanding of population-level health. We primarily develop computational methods across data mining, natural language processing, and machine learning to generate features for spatio-temporal population-level public health models.

Transportation Planning

混合纳米材料实验室

Sahu Group — Our research investigates the transport phenomena in new and novel classes of nanostructured hybrid materials that have promise for optoelectronic and thermoelectric energy conversion. Our group has expertise in colloidal synthesis, advanced characterization, and device implementation of such materials.

Bioinformatics DNA

Laboratory for Biomechanics, Mechanobiology & Regenerative Medicine

We study the interactions between mechanobiological cues and musculoskeletal systems with the long-term goal of developing novel biophysical, pharmaceutical, and stem cell-based interventions to improve musculoskeletal health.

robot

机电一体化实验室

The Mechatronics Lab is a synergistic integration of mechanical engineering, control theory, computer science, and electronics to manage complexity, uncertainty, and communication in engineered systems.

montclare lab

montclare实验室蛋白质工程和设计

We focus on engineering macromolecules. We aim to predictably design or engineer artificial therapeutics, biocatalysts, scaffolds and cells.

3d muscle graphic

NYU能力项目

An interdisciplinary initiative dedicated to the study of disability and the development of accessible, assistive and rehab technologies.

clean room

im体育NANOFAB洁净室

Home to world-class micro- and nanofabrication and metrology tools, which meet or exceed the demands of academic and industry users alike. With over ~ 2000 sq. ft. of Class 1000 space, the NanoFab is appropriately equipped to meet the present and future demands for device fabrication.

illustration showing a nanoparticle

生物医药实验室的软质材料

Pinkerton Group — Focuses on developing responsive soft materials for biomedical applications. The group uses tools from chemical and materials engineering, nanotechnology, chemistry and biology to create functional soft materials via scalable synthetic processes and to understand the material behavior in biological systems.

bone xray

视频实验室

研究 activities in the 视频实验室 deal with how to encode and distribute video among a large number of users with diverse network access links, computing power, and energy resources. Another focus area is in biomedical image processing and distribution. The lab collaborates extensively with other faculty members and graduate students in wireless communication and networking at the School of Engineering, and with medical schools in the surrounding area.