Webinar on

Biosensors

September 24, 2021

Webinar on Biosensors

Theme: Discovering the importance of biosensors in wearables

Webinar on Biosensors is scheduled for September 24, 2021. It will bring together world-class biotechnologists, researchers, and educators to discuss disease remediation processes. The main theme of this conference is “Discovering the importance of biosensors in wearables”. Biosensors harness the delicate recognition capabilities of biological systems and combine them with physicochemical probes to provide simple, easy-to-use diagnostic systems for an ever-evolving range of applications development to improve health, well-being, and the environment. The biosensors and bioelectronics webinar aims to provide a major interdisciplinary step for professionals, experts, and instructors to view and talk about the latest advances, models, and concerns, and more than reasonable difficulties encountered.

1. Bioelectronics and Bioinstrumentation
Bioelectronics is the use of electrical building standards to science, prescription, conduct or health. Bioinstrumentation is a piece of Biomedical engineering application of engineering standards and structure ideas to medication and science for social insurance purposes. A couple of rising innovations incorporate implantable sensors to screen treatment viability, against stammering helps, vein consistence estimation, disseminated sensor systems for home social insurance, and electronic guides for the five human senses. This field looks to close the hole among engineering and medication.

2. Application of biosensors in drug Delivery and clinical chemistry
Recent advances in biosensor design and sensing efficacy got to be amalgamated with research in responsive drug delivery systems for building superior health or illness regimes and ensuring good patient compliance. A spread of illnesses requires continuous monitoring so as to possess efficient illness intervention. Physicochemical changes within the body can signify the occurrence of an illness before it manifests. Even with the usage of sensors that allow diagnosis and prognosis of the illness, medical intervention still has its downfalls. Late detection of illness can reduce the efficacy of therapeutics. Furthermore, the traditional modes of treatment can cause side-effects like tissue damage and induce other sorts of illness. The use of drug delivery systems enables the lowering of side-effects with subsequent improvement in patient compliance.

3. Optical chemical sensors
Chemical sensing utilizing optics is under broad research everywhere throughout the world and numerous optical compound sensors are finding expanding application in industry, ecological checking, medication, biomedicine and synthetic examination. Optical chemical sensors have been the focal point of a lot of research consideration lately in light of their significance in mechanical, natural and biomedical applications. This class of sensors consolidates compound and natural acknowledgment with progresses in optoelectronic advancements. The utilization of solgel materials to these sensors, particularly as thin films, has pulled in extensive enthusiasm because of the simplicity of manufacture and structure adaptability of the procedure. The idea of the sol-gel process loans itself to the statement of thin films using a variety of techniques such as dip-coating, spin-coating and spraying.

4. Wireless Biomedical sensors
The advancement of semiconductor technology and the development of wireless sensor network technology make it possible to build reliable, miniature biomedical sensors. The rapid growth of wireless communications, low-power circuits, and biomedical sensors has made possible a new generation of wireless sensor networks. These networks are often called body area networks. The grid of such biosensors can be used for health monitoring by implanting them in the human body. Wireless biosensors are used to collect continuous, real-time medical data from various parts of the human body. In this way, millions of patients can benefit from continuous monitoring of physiological signals anytime, anywhere. It can also improve the quality of life. This article looks at future trends for wireless biosensors, wireless biosensor communication, and biomedical detection equipment.

5. Nanoelectronics Biosensors
Nanosensors are sensors at the “Nano” scale.  These are chemical or mechanical sensors that can be used to discover the presence of chemical species and nanoparticles, or monitor physical parameters together with temperature, at the Nano scale. As in lots of distinct technological sections, nanomaterials have demonstrated their appropriateness for biosensing programs. The clever use of such nano-gadgets led to in reality improved performances with expanded sensitivities and diminished detection limits of several orders of magnitudes.

  • Bioelectronics and Bioinstrumentation
  • Application of biosensors in drug Delivery and clinical chemistry
  • Optical chemical sensors
  • Wireless Biomedical sensors
  • Nanoelectronics Biosensors

5 Renowned Speakers

Shashank Gahlaut

Indian Institute of Technology, Delhi
India

Munezza Khan

Nanyang Technological University
Pakistan

Ana Domingues

Department of Microsystems Engineering
Portugal

Juan Pablo Arango

University of EIA
Colombia

Maria Isabel Gaviria

University of Antioquia
Colombia

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