Siddharth Gupta scite author profile

Titanium has gained immense popularity and has successfully established itself as the material of choice for dental implants. In both medical and dental fields, titanium and its alloys have demonstrated success as biomedical devices. Owing to its high resistance to corrosion in a physiological environment and the excellent biocompatibility that gives it a passive, stable oxide film, titanium is considered the material of choice for intraosseous use. There are certain studies which show titanium as an allergen but the resources to diagnose titanium sensivity are very limited. Attention is needed towards the development of new and precise method for early diagnosis of titanium allergy and also to find out the alternative biomaterial which can be used in place of titanium. A review of available articles from the Medline and PubMed database was done to find literature available regarding titanium allergy, its diagnosis and new alternative material for titanium.

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Discovery of High-Temperature Superconductivity (T_c = 55 K) in B-Doped Q-Carbon

Bhaumik

Sachan

Gupta

2017

ACS Nano

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We have achieved a superconducting transition temperature (T) of 55 K in 27 at% B-doped Q-carbon. This value represents a significant improvement over previously reported T of 36 K in B-doped Q-carbon and is the highest T for conventional BCS (Bardeen-Cooper-Schrieffer) superconductivity in bulk carbon-based materials. The B-doped Q-carbon exhibits type-II superconducting characteristics with H(0) ∼ 10.4 T, consistent with the BCS formalism. The B-doped Q-carbon is formed by nanosecond laser melting of B/C multilayered films in a super undercooled state and subsequent quenching. It is determined that ∼67% of the total boron exists with carbon in a sp hybridized state, which is responsible for the substantially enhanced T. Through the study of the vibrational modes, we deduce that higher density of states near the Fermi level and moderate to strong electron-phonon coupling lead to a high T of 55 K. With these results, we establish that heavy B doping in Q-carbon is the pathway for achieving high-temperature superconductivity.

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Progress in Q-carbon and related materials with extraordinary properties

Narayan

Bhaumik

Gupta

et al. 2018

Materials Research Letters

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This paper summarizes our research related to Q-carbon and Q-BN and direct conversion of carbon into diamond and h-BN into c-BN. Synthesis and processing of these materials are accomplished by nanosecond laser melting and subsequent quenching of amorphous carbon and nanocrystalline h-BN. Depending upon the degree of undercooling, molten carbon (or h-BN) can be converted into Q-carbon (or Q-BN) or diamond (or c-BN). The primary focus here is on the outstanding properties of these materials, including hardness greater than diamond, ferromagnetism, pand n-type doping, NV nanodiamonds, high-temperature superconductivity in B-doped Q-carbon, enhanced field emission, superhard composite coatings, and future applications. IMPACT STATEMENT This research represents a fundamental breakthrough in the direct conversion of carbon into diamond at ambient temperatures and pressures in the air and their extraordinary properties.

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Q-carbon harder than diamond

et al. 2018

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Siddharth Gupta

Engineered nanocrystal technology: In-vivo fate, targeting and applications in drug delivery

Titanium allergy: A literature review

Discovery of High-Temperature Superconductivity (T_c = 55 K) in B-Doped Q-Carbon

Progress in Q-carbon and related materials with extraordinary properties

Q-carbon harder than diamond

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Siddharth Gupta

Engineered nanocrystal technology: In-vivo fate, targeting and applications in drug delivery

Titanium allergy: A literature review

Discovery of High-Temperature Superconductivity (Tc = 55 K) in B-Doped Q-Carbon

Progress in Q-carbon and related materials with extraordinary properties

Q-carbon harder than diamond

Contact Info

Product

Resources

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Discovery of High-Temperature Superconductivity (T_c = 55 K) in B-Doped Q-Carbon