The present invention is related to the field of microfluidics and compound distribution within microfluidic devices and their associated systems. In one embodiment, present invention aims to solve the problem of molecule and compound absorbency into the materials making up laboratory equipment, microfluidic devices and their related infrastructure, without unduly restricting gas transport within microfluidic devices.

The present invention is related to the field of microfluidics and compound distribution within microfluidic devices and their associated systems. In one embodiment, present invention aims to solve the problem of molecule and compound absorbency into the materials making up laboratory equipment, microfluidic devices and their related infrastructure, without unduly restricting gas transport within microfluidic devices.

Systems, methods, storage media, and computing platforms that facilitate amelioration based on detection of biological cells or biological substances are disclosed. Example implementations may: monitor a scene proximate to a monitoring device; detect a type or class of biological cells and/or substance amongst the in-scene biological cells and/or substances found in a scene proximate to a monitoring device; and respond to the detection in a manner that ameliorates the harmful effects of the detected type or class of biological cells and/or substances.

Systems, methods, storage media, and computing platforms that facilitate amelioration based on detection of biological cells or biological substances are disclosed. Example implementations may: monitor a scene proximate to a monitoring device; detect a type or class of biological cells and/or substance amongst the in-scene biological cells and/or substances found in a scene proximate to a monitoring device; and respond to the detection in a manner that ameliorates the harmful effects of the detected type or class of biological cells and/or substances.

Micro-biological colony counters and more particularly, systems and methods for feeding, identifying, counting, classifying, segregating and collecting organic samples such as but not limited to micro-organisms. The system can classify colonies in different classes such as bacteria and fungus present in an organic sample and also gives a digital count on the number of colonies present in each of the classes separately. The system reduces the time in counting and classification of microbes in each class separately, eliminates manual errors and requires less manual intervention. The system is reliable and can perform the counting and classification of microbes in each class separately even in absence of well-trained technician. The system can count surface colonies in petri-dish and can count colonies in different size or diameter of petri-dish.

Micro-biological colony counters and more particularly, systems and methods for feeding, identifying, counting, classifying, segregating and collecting organic samples such as but not limited to micro-organisms. The system can classify colonies in different classes such as bacteria and fungus present in an organic sample and also gives a digital count on the number of colonies present in each of the classes separately. The system reduces the time in counting and classification of microbes in each class separately, eliminates manual errors and requires less manual intervention. The system is reliable and can perform the counting and classification of microbes in each class separately even in absence of well-trained technician. The system can count surface colonies in petri-dish and can count colonies in different size or diameter of petri-dish.

A multi-channel system for classifying particles in a mixture of particles according to one or more characteristics including a common source of electromagnetic radiation for producing a beam of electromagnetic radiation and a beam splitter for producing multiple beams of electromagnetic radiation for directing multiple beams of electromagnetic radiation to each interrogation location associated with each flow channel of the multi-channel system.

A multi-channel system for classifying particles in a mixture of particles according to one or more characteristics including a common source of electromagnetic radiation for producing a beam of electromagnetic radiation and a beam splitter for producing multiple beams of electromagnetic radiation for directing multiple beams of electromagnetic radiation to each interrogation location associated with each flow channel of the multi-channel system.

A microfluidic device and a method for sensing and sorting of cells or particles in a microfluidic channel are disclosed. The microfluidic device may include a substrate with a microfluidic channel having an inlet, the microfluidic channel being coupled with two or more output channels; one or more sensors located adjacent to a first region of the microfluidic channel for sensing respective particles flown through the microfluidic channel; and a first piezoelectric actuator located adjacent to a second region of the microfluidic channel downstream from the first region for deflecting the respective particles flowing through the microfluidic channel to respective output channels of the two or more output channels based on signals from the one or more sensors.

A microfluidic device and a method for sensing and sorting of cells or particles in a microfluidic channel are disclosed. The microfluidic device may include a substrate with a microfluidic channel having an inlet, the microfluidic channel being coupled with two or more output channels; one or more sensors located adjacent to a first region of the microfluidic channel for sensing respective particles flown through the microfluidic channel; and a first piezoelectric actuator located adjacent to a second region of the microfluidic channel downstream from the first region for deflecting the respective particles flowing through the microfluidic channel to respective output channels of the two or more output channels based on signals from the one or more sensors.