ASSESSMENT OF SUCCESS INDICATORS ASSOCIATED WITH MANUFACTURING IC CHIPS IN INDIAN SEMICONDUCTOR MANUFACTURING INDUSTRY

Integrated circuit plays a crucial role in reducing the size, increasing the processing speed, and enhancing the dependability on the electronic devices. Notably, the widespread use of these technologies has led to advancements in various sectors, including the communications, healthcare, and automobile industry. This study rank and identifies the critical success indicators associated with the manufacturing IC chips in the Indian semiconductor industry by employing one sample t-test approach. Based on the existing literature, the study investigates sixteen success indicators associated with the manufacturing IC chips in India. In addition, experts from the semiconductor manufacturing organization have validated these factors concerning the Indian semiconductor industry. The research concludes that “Monitor the Time-to-Market (SI7)”, “Enhance Customer Satisfaction (SI13)”, “Assess the Yield Rate (SI11)”, and “Calculate the Return on Investment (ROI) for Cost (SI5)”, are the critical success indicators associated with manufacturing of IC chips, as per the t-test analysis from 152 respondents working in the semiconductor sectors. The findings have multiple implications for businesses and policymaker, and can assist various stakeholders, including global semiconductor companies, domestic manufacturers, and fabless semiconductor firm

ASSESSMENT OF SUCCESS INDICATORS ASSOCIATED WITH MANUFACTURING IC CHIPS IN INDIAN SEMICONDUCTOR INDUSTRY: Received: 1st February 2024 Revised: 23rd February 2024 and 28th February 2024 Accepted: 1st February 2024

Integrated circuit plays a crucial role in reducing the size, increasing the processing speed, and enhancing the dependability on the electronic devices. Notably, the widespread use of these technologies has led to advancements in various sectors, including the communications, healthcare, and automobile industry. This study rank and identifies the critical success indicators associated with the manufacturing IC chips in the Indian semiconductor industry by employing one sample t-test approach. Based on the existing literature, the study investigates sixteen success indicators associated with the manufacturing IC chips in India. In addition, experts from the semiconductor manufacturing organization have validated these factors concerning the Indian semiconductor industry. The research concludes that “Monitor the Time-to-Market (SI7)”, “Enhance Customer Satisfaction (SI13)”, “Assess the Yield Rate (SI11)”, and “Calculate the Return on Investment (ROI) for Cost (SI5)”, are the critical success indicators associated with manufacturing of IC chips, as per the t-test analysis from 152 respondents working in the semiconductor sectors. The findings have multiple implications for businesses and policymaker, and can assist various stakeholders, including global semiconductor companies, domestic manufacturers, and fabless semiconductor firms

Electronic applications of semiconducting polymers

583-594A review of the basic properties and conduction mechanism in semiconducting polymers has been presented. Results of our investigations on the semiconducting polymers, polypyrrole and polyaniline, have been discussed. A promising vacuum-deposited polymeric semiconducting device fabrication technique has been detailed with its possible application in light emitting and photovoltaic devices. The use of polymeric semiconductors in surface mount technology and VLSI has also been discussed

White organic LEDs and their recent advancements

White organic light emitting devices (WOLEDs) are being considered as substitutes for conventional white light sources. They are efficient solid-state lighting sources and their power efficiencies have surpassed those of the incandescent light sources, especially due to recent improvement in device architectures, molecular engineering in synthesis of new materials and the incorporation of electrophosphorescent emitters. This paper reviews the various approaches to achieve white light emission from organic light emitting diodes (OLEDs), their advantages, disadvantages and recent progress. The device architecture and problems related to various device designs have been discussed

Synthesis and characterization of greenish-blue light emitting lithium-boron complex for organic light emitting-diode applications

A lithium-boron complex. lithium tetra (2-methyl 8-hydroxy quinolinato) boron (LiBqm(4)), which emits greenish-blue light has been synthesized by the reaction of LiBH4 with 2-methyl 8-hydroxyquinoline in a molecular weight ratio of 1:4. and Used for organic light emitting diodes (OLEDs) Fabrication. The complex has been characterized by optical absorption, Fourier Transform Infrared (FTIR), photoluminescence (PL) and electroluminescence (EL) spectroscopic methods. The thermo-gravimetric analysis (TGA) suggests that the material is quite thermally stable LIP to 380 degrees C. An optical band gap of 3.15 eV using the well-known Tauc relation and an exciton binding energy of 0.69 eV has been evaluated. OLEDs have been fabricated in ITO/N,N'-di-(3-methyl-phenyl)-N,N'diphenyl-4,4'diaminobiphenyl(TPD)/LiBqm(4)/Al configuration. PL and EL peaks exist at 503 nm. I-V characteristic of device reveals that at higher voltages the current follows I proportional to V-III law, where m > 1

Semiconducting polymer thin film sensors for detection of toxic gases

545-551The development of efficient devices for detection of toxic gases in the environment is an important, challenge in the area sensor development. The selection of proper material to act as a selective interface to mediate between the outside environment and the sensor transducer is very crucial. The recent development of semiconducting polymer materials, with every imaginable combination of physical and chemical characteristics for fabrication of sensors has led to the fabrication of efficient gas sensors. The diversity of properties of these polymers enables them to provide a wide range of applications in sensor technology. These polymers do not suffer from the drawback of preparation complications and synthesis complexities and have a long shelf-life and efficiency. A method of large-scale production of a new class of sensing polymers, the semiconducting polymers is described in this paper. The sensors show excellent sensitivity in the thin film form. The thin films are prepared by vacuum deposition method, hence a reliance on a dry technology. These sensors find applications in industrial, technological, medical, civilian and strategic sector. This has led to the development of low cost, efficient and simple to operate sensor devices that can be positioned remotely and can he used for on-line monitoring. Semiconducting polymeric thin film sensors are the latest devices to be used for the above mentioned applications and have been tested for their efficiency, reliability, cost effectiveness and performance. The most important advantage of these polymeric sensors is their room temperature operation and high sensitivity

Software innovation process maturity model

It is quite important for modern day software organizations to remain competitive in the market. Being innovative is, therefore, important for the survival of the organizations. Whereas, in some organizations the processes that lead to the development of innovative products are well-defined, in others there are no clearly established processes. In the latter organizations the innovation activities are either undertaken in a non-systematic manner or there are no clearly defined processes that could lead to the development of innovative products. In such organizations innovation often happens whenever an idea strikes the individuals working in the organizati