Unlocking an additive-free and catalyst-free dual approach for reduction of amides to amines.

We report a two-fold strategy to convert amides to amines in the presence of dimethylamine-borane as the hydrogen source. In the absence of any additive, the formation of the amines resulted from reduction of the amides. On the other hand, in the presence of TMEDA and dimethylamine-borane, tertiary amines were obtained from primary amides in a one-pot fashion.

A comprehensive review on nanoparticle-based photo acoustic: current application and future prospective.

In vivo, molecular imaging is prevalent for biology research and therapeutic practice. Among advanced imaging technologies, photoacoustic (PA) imaging and sensing is gaining interest around the globe due its exciting features like high resolution and good (~ few cm) penetration depth. PA imaging is a recent development in ultrasonic technology that generates acoustic waves by absorbing optical energy.

Salts of trans-3-Styryl Pyridine: the Effect of N-Quaternization on Solid-State Photoreactivity, and Photochemical Crystal Melting.

Investigating solid-state photoreactivity, driven by crystal packing, has been a major enduring research theme in Crystal Engineering. Trans-3-styryl pyridine (3-StPy), an unsymmetric olefin, is photo-stable. However, when converted to a series of salts, they exhibited solid-state photoreactivity under UV irradiation.

Proteasome Activators and Ageing: Restoring Proteostasis Using Small Molecules.

Ageing is an inevitable phenomenon that remains under control of a plethora of signalling pathways and regulatory mechanisms. Slowing of cellular homeostasis and repair pathways, declining genomic and proteomic integrity, and deficient stress regulatory machinery may cause accumulating damage triggering initiation of pathways leading to ageing-associated changes. Multiple genetic studies in small laboratory organisms focused on the manipulation of proteasomal activities have shown promising results in delaying the age-related decline and improving the lifespan.

Biotin Conjugated Fe(III)-Triscatecholate Complex as Tumour Targeting T MRI Contrast Agent via Second Sphere Water Relaxation.

The biotin-conjugated Fe(III) catecholate complex [Fe(BioL)], Fe(BioL) (BioLH=N-(3,4-dihydroxyphenethyl)-5-((3aS,4S,6aR)-2-oxohexahydro-1H-thieno[3,4-d]imidazol-4-yl)pentanamide) is reported as targeted magnetic resonance imaging (MRI) contrast agents (CAs) to increase the payload for early-stage imaging of tumours. The high spin state and octahedral coordination of the Fe(III) complex are confirmed by EPR spectra and DFT optimized structure, respectively. The overall formation constant (log K) of Fe(BioL) is determined as 45, which is higher than the known, more stable complex [Fe(EDTA)].

Insight into the Metal-Free Reduction of Isocyanates to N-Methyl Anilines at Room Temperature.

A simple and sustainable protocol has been developed to reduce isocyanates to the N-methyl anilines under metal-free conditions. The reaction proceeds with BF ⋅ OEt as a catalyst and ammonia borane as a hydrogen source in THF at room temperature, leading to the formation of a wide range of substituted aniline derivatives. Control experiments and deuterium labeling studies were performed to understand the mechanism of the present procedure.

Effect of -pentafluorophenyl group on two-photon absorption in heterocorroles and heterocorrins.

Owing to their high reactivity, the -positions of corroles and corrins are usually protected by some bulky groups. These groups in addition to the said purpose may also affect the photophysical properties of such systems. However, there is no systematic study in the literature exploring this effect.

Role of T Lymphocytes in Glioma Immune Microenvironment: Two Sides of a Coin.

Glioma is known for its immunosuppressive microenvironment, which makes it challenging to target through immunotherapies. Immune cells like macrophages, microglia, myeloid-derived suppressor cells, and T lymphocytes are known to infiltrate the glioma tumor microenvironment and regulate immune response distinctively. Among the variety of immune cells, T lymphocytes have highly complex and multifaceted roles in the glioma immune landscape.

Insight of Employing Molecular Junctions for Sensor Applications.

Molecular junctions (MJs) exhibit distinct charge transport properties and have the potential to become the next generation of electronic devices. Advancing molecular electronics for practical uses, such as sensors, is crucial to propel its progress to the next level. In this review, we discussed how MJs can serve as a sensor for detecting a wide range of analytes with exceptional sensitivity and specificity.

Plant Extracellular Nanovesicle-Loaded Hydrogel for Topical Antibacterial Wound Healing .

Bacterial infections impede wound healing and pose significant challenges in clinical care. There is an immediate need for safe and targeted antivirulence agents to fight bacterial infections effectively. In this regard, bioderived nanovesicles have shown significant promise.

The Ubiquitin Tale: Current Strategies and Future Challenges.

Ubiquitin (Ub) is often considered a structurally conserved protein. Ubiquitination plays a prominent role in the regulation of physiological pathways. Since the first mention of Ub in protein degradation pathways, a plethora of nonproteolytic functions of this post-translational modification have been identified and investigated in detail.

In-situ Forming Multipolymeric Glucose-Responsive Hydrogels.

Stimuli-responsive hydrogels (HGs) have shown promise for smart drug delivery applications. Specifically, glucose-responsive HGs having phenylboronic acid (PBA) functional groups are extensively pursued for insulin delivery in hyperglycemia. Current polymeric glucose-responsive HGs are cumbersome to fabricate and show a limited insulin release profile.

Fast Viral Diagnostics: FTIR-Based Identification, Strain-Typing, and Structural Characterization of SARS-CoV-2.

Severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2) has triggered an ongoing global pandemic, necessitating rapid and accurate diagnostic tools to monitor emerging variants and preparedness for the next outbreak. This study introduces a multidisciplinary approach combining Fourier Transform Infrared (FTIR) microspectroscopy and Machine learning to comprehensively characterize and strain-type SARS-CoV-2 variants. FTIR analysis of pharyngeal swabs from different pandemic waves revealed distinct vibrational profiles, particularly in nucleic acid and protein vibrations.

Transiently controlled emission from ZnO surface.

We report on a photon (∼3.08 eV equivalent to 402 nm) controlled optical emission from ZnO (101¯0). Under below band gap excitation (∼2.

Utilizing Natural Materials in Electronic Devices: Inching Toward "Herbal Electronics".

Sustainable development is the primary key to address global energy challenges. Though the scientific community is engaged in developing efficient ways to not only maximize energy production from natural resources like sun, wind, water, etc. but also to make all the electronic gadgets power efficient, despite all this, the materials used in most of the electronic devices are largely produced using various materials processing techniques and semiconductors, polymers, dielectrics, etc.

Estimation of static and dynamic functional connectivity in resting-state fMRI using zero-frequency resonator.

Resting-state functional magnetic resonance imaging (rs-fMRI) is increasingly being used to infer the functional organization of the brain. Blood oxygen level-dependent (BOLD) features related to spontaneous neuronal activity, are yet to be clearly understood. Prior studies have hypothesized that rs-fMRI is spontaneous event-related and these events convey crucial information about the neuronal activity in estimating resting state functional connectivity (FC).

Optimizing optoelectronic performance: impact of polar-terminated zinc oxide on MoSVan der Waals heterostructure.

We report a study on the stability, optical absorption and modulated electronic properties of the ZnO(0001-) and MoSVan der Waals heterostructure using density functional theory. We employed a supercell of ZnO/MoShybrid and specifically explored the effects of creating an interface with the O-terminated face of ZnO while considering the interlayer interaction. We observed an increase in the band gap opening of MoSwithin the hybrid structure (1.

Why does the orientation of azulene affect the two-photon activity of a porphyrinoid-azulene system?

Attaching a dipolar molecule in a symmetric system induces a major change in the electronic structure, which may be reflected as the enhancement of the optical and charge-transfer properties of the combined system as compared to the pristine ones. Furthermore, the orientation of the dipolar molecule may also affect the said properties. This idea is explored in this work by taking porphyrinoid molecules as the pristine systems.

Psychological interventions to promote self-forgiveness: a systematic review.

Background: Being able to forgive one's own wrongdoings improves the health and well-being of a person. People find it difficult to forgive themselves due to different reasons. It is essential to enhance the ability to accept one's deeds and thereby enhance self-forgiveness.

Network-wise analysis of movie-specific information in dynamic functional connectivity using COBE.

Movie watching during functional magnetic resonance imaging has emerged as a promising tool to measure the complex behavior of the brain in response to a stimulus similar to real-life situations. It has been observed that presenting a movie (sequence of events) as a stimulus will lead to a unique time course of dynamic functional connectivity related to movie stimuli that can be compared across the participants. We assume that the observed dynamic functional connectivity across subjects can be divided into following 2 components: (i) specific to a movie stimulus (depicting group-level behavior in functional connectivity) and (ii) individual-specific behavior (not necessarily common across the subjects).

Evidence on Milk Consumption and Production Linkages from Rural Bihar, India.

Background: Milk is an important source of protein for many Indian households. However, milk intake is very low. Hence, it is necessary to examine production-consumption linkages of milk within the paradigm of accessibility, availability, and affordability.

Insight into the MOBu (M=Na, K)-Mediated Dehydrogenation of Dimethylamine-Borane and Transfer Hydrogenation of Nitriles to Primary Amines.

Selective synthesis of primary amines from nitriles is challenging in synthetic chemistry due to the possible en-route generation of various amines and imines. Herein, we report a practical and operationally simple MOBu-mediated (M=Na, K) transfer hydrogenation of nitriles to the corresponding primary amines with a relatively unexplored sacrificial hydrogen source (dimethylamine borane). The strategy encompasses a broad substrate scope under transition metal-free conditions and does not require any solvent.